OrganizedProgrammers/3GPPSpecMetadata · Datasets at Hugging Face

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33.127	Lawful Interception (LI) architecture and functions	TS	19.3.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.127/33127-j30.zip	The present document specifies both the architectural and functional system requirements for Lawful Interception (LI) in 3GPP networks. The present document provides an LI architecture supporting both network layer based and service layer based Interception. National regulations determine the specific set of LI functional capabilities that are applicable to a specific 3GPP operator deployment.
33.128	Security; Protocol and procedures for Lawful Interception (LI); Stage 3	TS	19.3.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.128/33128-j30.zip	The present document specifies the protocols and procedures required to perform Lawful Interception within a 3GPP network. The present document addresses both internal interfaces used internally with a 3GPP network and external handover interfaces used to handover intercepted communications to law enforcement. The present document describes the detailed targeting of communications in each point of interception within a 3GPP network and the information that a point of interception needs to be able to capture. Furthermore, the detailed data formats for both the internal and external interfaces are also defined. National regulations determine the applicable set of information that needs to be handed over or excluded from handover to law enforcement for a given 3GPP operator service.
33.180	Security of the Mission Critical (MC) service	TS	19.2.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.180/33180-j20.zip	The present document specifies the security architecture, procedures and information flows needed to protect the mission critical service (MCX). The architecture includes mechanisms to protect the Common Functional Architecture and security mechanisms for mission critical applications. This includes Push-To-Talk (MCPTT), Video (MCVideo) and Data (MCData). Additionally, security mechanisms relating to on-network use, off-network use, roaming, migration, interconnection, interworking and multiple security domains are described. This specification complements the Common Functional Architecture defined in TS 23.280 [36], the functional architecture for MCPTT defined in 3GPP TS 23.379 [2], the functional architecture for MCVideo defined in TS 23.281 [37], the functional architecture for MCData defined in TS 23.282 [38] and mission critical services using 5GS in TS 23.289 [54]. The MC service can be used for public safety applications and also for general commercial applications e.g. utility companies and railways. As the security model is based on the public safety environment, some MC security features may not be applicable for commercial purposes.
33.203	3G security; Access security for IP-based services	TS	19.1.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.203/33203-j10.zip	The scope for this technical specification is to specify the security features and mechanisms for secure access to the IM subsystem (IMS) for the 3G mobile telecommunication system. Since the scope also encompasses the use of these security features and mechanisms for secure access to IMS in the context of fixed broadband networks and 3GPP2 networks, Annex L and Annex S specify how the material in the main body and other normative Annexes of this document apply to the fixed broadband networks and 3GPP2 networks respectively. The IMS supports IP Multimedia applications such as video, audio and multimedia conferences. SIP, Session Initiation Protocol, was chosen as the signalling protocol for creating and terminating Multimedia sessions, cf. RFC 3261 [6]. This specification only deals with how the SIP signalling is protected between the subscriber and the IMS, how the subscriber is authenticated and how the subscriber authenticates the IMS.
33.210	Network Domain Security (NDS); IP network layer security	TS	19.1.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.210/33210-j10.zip	The present document defines the security architecture for network domain IP based control planes, which shall be applied to NDS/IP-networks (i.e. 3GPP and fixed broadband networks). The scope of network domain control plane security is to cover the control signalling on selected interfaces between network elements of NDS/IP networks. . The present document furthermore serves as a central repository for cryptographic profiles for security above IP layer.
33.216	Security Assurance Specification (SCAS) for the evolved Node B (eNB) network product class	TS	19.1.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.216/33216-j10.zip	The present document contains objectives, requirements and test cases that are specific to the eNB network product class. It refers to the Catalogue of General Security Assurance Requirements and formulates specific adaptions of the requirements and test cases given there, as well as specifying requirements and test cases unique to the eNB network product class.
33.246	3G Security; Security of Multimedia Broadcast/Multicast Service (MBMS)	TS	19.0.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.246/33246-j00.zip	The Technical Specification covers the security procedures of the Multimedia Broadcast/Multicast Service (MBMS) for 3GPP systems (UTRAN, GERAN and E-UTRAN). MBMS is a 3GPP system network bearer service over which many different applications could be carried. The actual method of protection may vary depending on the type of MBMS application.
33.250	Security assurance specification for the PGW network product class	TS	19.0.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.250/33250-j00.zip	The present document contains requirements and test cases that are specific to the PGW network product class. It refers to the Catalogue of General Security Assurance Requirements and formulates specific adaptions of the requirements and test cases given there, as well as specifying requirements and test cases unique to the PGW network product class.
33.256	Security aspects of Uncrewed Aerial Systems (UAS)	TS	19.1.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.256/33256-j10.zip	The present document specifies the security features in support of the architecture enhancements for supporting Uncrewed Aerial Systems (UAS) connectivity, identification, tracking and pairing authorization defined in TS 23.256 [3], according to the use cases and service requirements defined in TS 22.125 [6].
33.310	Network Domain Security (NDS); Authentication Framework (AF)	TS	19.4.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.310/33310-j40.zip	The scope of this Technical Specification is limited to authentication of network elements, which are using NDS/IP or TLS, and to Certificate Enrolment for Base Stations as described in the present document. In the case of NDS/IP this specification includes both the authentication of Security Gateways (SEG) at the corresponding Za-interfaces and the authentication between NEs and between NEs and SEGs at the Zb-interface. Authentication of end entities (i.e. NEs and SEGs) in the intra-operator domain is considered an internal issue for operators. This is quite much in line with [1] which states that only Za is mandatory and that the security domain operator can decide if the Zb-interface is deployed or not, as the Zb-interface is optional for implementation. Validity of certificates may be restricted to the operator's domain in case of Zb interface or in case of Za-interface between two security domains of the same operator. NOTE: In case two SEGs interconnect separate network regions under a single administrative authority (e.g. owned by the same mobile operator) then the Za-interface is not subject to interconnect agreements, but the decision on applying Za-interface is left to operators. The NDS architecture for IP-based protocols is illustrated in figure 1. Figure 1: NDS architecture for IP-based protocols [1] In the case of TLS this Specification concentrates on authentication of TLS entities across inter-operator links. For example, TLS is specified for inter-operator communications between IMS and non-IMS networks TS 33.203 [9] and on the Zn' interface in GBA TS 33.220 [10]. Authentication of TLS entities across intra-operator links is considered an internal issue for operators. However, NDS/AF can easily be adapted to the intra-operator use case since it is just a simplification of the inter-operator case when all TLS NEs and the PKI infrastructure belong to the same operator. Validity of certificates may be restricted to the operator's domain. An Annex contains information on the manual handling of TLS certificates in case automatic enrolment and revocation according to NDS/AF for TLS is not implemented.
33.328	IP Multimedia Subsystem (IMS) media plane security	TS	19.0.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.328/33328-j00.zip	The present document presents IMS media plane security for RTP and MSRP based media, IMS data channels (i.e., SCTP over DTLS) as well as security for BFCP as used in IMS conferencing. The security mechanisms are designed to meet the following three main objectives: 1) to provide security for media usable across all access networks 2) to provide an end-to-end (e2e) media security solution for RTP and data channel-based media to satisfy major user categories 3) to provide end-to-end (e2e) media security for important user groups like enterprises, National Security and Public Safety (NSPS) organizations and different government authorities who may have weaker trust in the inherent IMS security and/or may desire to provide their own key management service. The media plane security for RTP based media is based on the well-established protocol SRTP. Key management solutions for SRTP are defined in this specification. The media plane security for MSRP, used in session-based messaging, is based on TLS. TLS is also used to protect BFCP. Key management solutions for MSRP and BFCP security are defined in the present document. The media plane security for IMS data channels, i.e., SCTP over DTLS, is based on DTLS. Two normative Annexes to the present document address IMS media plane security for immediate messaging and conferencing, respectively. The media plane security for session-based messaging is addressed in the main body of this specification.
33.369	Security aspects of ambient IoT services in 5G	TS	0.2.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.369/33369-020.zip	The present document specifies the security and privacy aspects of AIoT services in the 5G System (5GS), complying to the requirements in TS 22.369 [4], applicable to the AIoT Device types, traffic types, use cases and connectivity topologies defined in TS 38.300 [3], and based on the architecture defined in TS 23.369 [2]. Security features for AIoT services include: 1. Network Layer Authentication between AIoT device and 5G core a. AIoTF is the endpoint in the 5G core b. Credentials are securely stored in the ADM on the network side NOTE 1: The credentials are assumed to be stored in a secure environment in the ADM. How this is realized is left to implementation. The requirements will reflect this. c. Secure storage and processing of credentials in the AIoT device. NOTE 2: For SNPN deployment the storage of the credentials of non-AKA based methods is out of scope as described in TS 33.501[5] Annex I 2.2. d. Security aspects of the storage of the credentials at the ADM 2. Confidentiality, anti-replay and integrity protection of information during AIoT service communication 3. Privacy of AIoT device identifiers using the AIoT Temp ID. 4. Security to protect the permanent disabling RF transmission capabilities of AIoT device(s). Editor’s Note: Further refinement is FFS.
33.401	3GPP System Architecture Evolution (SAE); Security architecture	TS	19.0.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.401/33401-j00.zip	The present document specifies the security architecture, i.e., the security features and the security mechanisms for the Evolved Packet System and the Evolved Packet Core, and the security procedures performed within the evolved Packet System (EPS) including the Evolved Packet Core (EPC) and the Evolved UTRAN (E-UTRAN).
33.434	Security aspects of Service Enabler Architecture Layer (SEAL) for verticals	TS	19.0.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.434/33434-j00.zip	The present document specifies the security features and mechanisms to support the Service Enabler Architecture Layer (SEAL) in 5G. Specifically security architecture, functional model(s), security aspects of SEAL reference points (e.g. SEAL-UU, etc.), Key Management (KM) procedures, Identity Management (IdM) procedures and SEAL access authentication and authorization for supporting efficient use and deployment of vertical applications over the 3GPP systems are specified.
33.501	Security architecture and procedures for 5G System	TS	19.3.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.501/33501-j30.zip	The present document specifies the security architecture, i.e., the security features and the security mechanisms for the 5G System and the 5G Core, and the security procedures performed within the 5G System including the 5G Core and the 5G New Radio.
33.503	Security Aspects of Proximity based Services (ProSe) in the 5G System (5GS)	TS	19.1.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.503/33503-j10.zip	The present document specifies the security and privacy aspects of the Proximity based Services (ProSe) in the 5G System (5GS). 5G ProSe security features include: 5G ProSe Direct Discovery security, 5G ProSe Direct communication security, 5G ProSe UE-to-Network Relay security, 5G ProSe UE-to-UE Relay security and security of emergency services for 5G ProSe Remote UE via 5G ProSe UE-to-Network Relay. The 5G ProSe UE-to-Network Relay security includes the security aspects for single-hop and multi-hop scenarios for both Layer-2 and Layer-3 5G ProSe UE-to-Network Relay. The 5G ProSe UE-to-UE Relay security includes the security aspect of single-hop secenario for both Layer-2 and Layer-3 5G ProSe UE-to-UE Relay, and security aspect of Layer-3 multi-hop 5G ProSe UE-to-UE Relay scenario.
33.511	Security Assurance Specification (SCAS) for the next generation Node B (gNodeB) network product class	TS	19.2.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.511/33511-j20.zip	The present document contains objectives, requirements and test cases that are specific to the gNB network product class. It refers to the Catalogue of General Security Assurance Requirements and formulates specific adaptions of the requirements and test cases given there, as well as specifying requirements and test cases unique to the gNB network product class. NOTE: Test cases for the split gNB product classes are specified in TS 33.523 [9].
33.512	5G Security Assurance Specification (SCAS); Access and Mobility management Function (AMF)	TS	19.0.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.512/33512-j00.zip	The present document contains objectives, requirements and test cases that are specific to the AMF network product class. It refers to the Catalogue of General Security Assurance Requirements and formulates specific adaptions of the requirements and test cases given there, as well as specifying requirements and test cases unique to the AMF network product class.
33.513	5G Security Assurance Specification (SCAS); User Plane Function (UPF)	TS	19.0.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.513/33513-j00.zip	The present document contains requirements and test cases that are specific to the UPF network product class. It refers to the Catalogue of General Security Assurance Requirements and formulates specific adaptions of the requirements and test cases. It also specifies the requirements and test cases unique to the UPF network product class.
33.514	5G Security Assurance Specification (SCAS) for the Unified Data Management (UDM) network product class	TS	19.1.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.514/33514-j10.zip	The present document contains requirements and test cases that are specific to the UDM network product class. It refers to the Catalogue of General Security Assurance Requirements and formulates specific adaptions of the requirements and test cases. It also specifies the requirements and test cases unique to the UDM network product class.
33.515	5G Security Assurance Specification (SCAS) for the Session Management Function (SMF) network product class	TS	19.0.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.515/33515-j00.zip	The present document contains requirements and test cases that are specific to the SMF network product class. It refers to the Catalogue of General Security Assurance Requirements and formulates specific adaptions of the requirements and test cases given there, as well as specifying requirements and test cases unique to the SMF network product class.
33.517	5G Security Assurance Specification (SCAS) for the Security Edge Protection Proxy (SEPP) network product class	TS	19.0.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.517/33517-j00.zip	The present document contains objectives, requirements and test cases that are specific to the SEPP network product class. It refers to the Catalogue of General Security Assurance Requirements and formulates specific adaptions of the requirements and test cases given there, as well as specifying requirements and test cases unique to the SEPP network product class.
33.518	5G Security Assurance Specification (SCAS) for the Network Repository Function (NRF) network product class	TS	19.0.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.518/33518-j00.zip	The present document contains objectives, requirements and test cases that are specific to the NRF network product class. It refers to the Catalogue of General Security Assurance Requirements and formulates specific adaptions of the requirements and test cases given there, as well as specifying requirements and test cases unique to the NRF network product class.
33.523	5G Security Assurance Specification (SCAS); Split gNB product classes	TS	19.2.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.523/33523-j20.zip	The gNB can be deployed as more than one entity by splitting the gNB into gNB-CU and gNB-DU(s) and possibly further splitting the gNB-CU into gNB-CU-CP and gNB-CU-UP(s) (see TS 38.401 [5]). The present document contains objectives, requirements and test cases that are specific to the various split gNB network product classes. Test cases for such deployments are provided, are based upon and borrow heavily from the specification for the gNB product class (see TS 33.511 [6]). The main differences are the inclusion of cases for the F1 signalling and user plane connection and the E1 signalling connection on the top of the gNB cases as well as some revised cases to account for the split functionality. The present document also refers to the Catalogue of General Security Assurance Requirements (see TS 33.117 [2]) and formulates specific adaptions of the requirements and test cases given there, as well as specifying requirements and test cases unique to the various split gNB network product class.
33.527	Security Assurance Specification (SCAS) for 3GPP virtualized network products	TS	19.0.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.527/33527-j00.zip	The present document contains objectives, requirements and test cases to virtualized network product classes. Several virtualized network product classes share very similar if not identical security requirements for some aspects. Therefore, these are collected in the present document applicable to many virtualized network product classes. In addition to this catalogue, requirements specific to different network product classes will be captured in separate documents.
33.529	Security Assurance Specification (SCAS) for the Short Message Service Function (SMSF) network product class	TS	19.1.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.529/33529-j10.zip	The present document contains objectives, security assurance requirements and test cases specific to the SMSF network product class. It refers to the Catalogue of General Security Assurance Requirements. It formulates specific adaptations of the requirements and test cases given in the catalogue. It also specifies requirements derived from other technical specifications and test cases unique to the SMSF network product class.
33.530	Security Assurance Specification (SCAS) for the Unified Data Repository (UDR)	TS	19.0.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.530/33530-j00.zip	The present document contains requirements and test cases that are specific to the UDR network product class. It refers to the Catalogue of General Security Assurance Requirements [2] and formulates specific adaptions of the requirements and test cases given there, as well as specifying requirements and test cases unique to the UDR network product class.
33.537	Security Assurance Specification (SCAS) for the Authentication and Key Management for Applications (AKMA) Anchor Function (AAnF)	TS	19.0.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.537/33537-j00.zip	The present document contains requirements and test cases that are specific to the AAnF network product class. It refers to the Catalogue of General Security Assurance Requirements and formulates specific adaptions of the requirements and test cases given there, as well as specifying requirements and test cases unique to the AAnF network product class.
33.545	Security aspects of NR Femto	TS	19.1.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.545/33545-j10.zip	The present document specifies the security architecture for NR Femto subsystem. This includes security requirements on NR Femto, and other NR Femto associated network nodes (e.g. SeGW and NR Femto MS), as well as the procedures and features which are provided to meet those requirements.
33.558	Security aspects of enhancement of support for enabling edge applications	TS	19.0.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.558/33558-j00.zip	The present document specifies the security features and mechanisms to support the application architecture for enabling Edge Applications in 5G, i.e. security for the interfaces, procedures for the authentication and authorization between the entities of the application architecture, and procedures for the EES capability exposure.
33.700-22	Study on security aspects of Common API Framework (CAPIF) Phase3	TR	19.1.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.700-22/33700-22-j10.zip	The present document investigates the security and privacy impacts of the procedures introduced in the study on CAPIF Phase 3. Specifically, it covers the following: - Resource owner authorization management - CAPIF interconnection security - Authorizing API invoker on one UE accessing resources related to another UE - Nested API invocation - Authentication and authorization of multiple API invokers Note: More security and privacy aspects are up to the study progress in SA6.
33.700-29	Study on security aspects of 5G satellite access in the 5G architecture phase 3	TR	19.1.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.700-29/33700-29-j10.zip	The present document studies the security and privacy aspects of 5G satellite access phase 3. It is comprised of the following parts: - Identify and study the security and privacy key issues of the regenerative payload generic architecture in 5GS/EPS. - Identify and study the security and privacy key issues of the Store and Forward (S&F) Satellite operation both for NR NTN (5GS) and for IoT NTN (EPS). - Identify and study the security and privacy key issues of UE-Satellite-UE communication enhancements for 5GS. - The impact on regulatory services in the context of 5G satellite access. In particular, the assessment of the potential impact to lawful intercept in regenerative, Store and Forward (S&F), and UE-satellite-UE communication enhancement architecture.
33.700-32	Study on security aspects of user identities and authentication	TR	19.1.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.700-32/33700-32-j10.zip	The present document studies the security and privacy aspects for the creation and usage of user identities as studied in 3GPP TR 23.700-32 [2], with the following focus: 1) Study authentication and authorization of: a) a user identifier associated with a subscription and used on a UE (i.e., human user) and b) an identifier associated with a non-3GPP device behind a UE or 5G-RG. 2) Study privacy and security impacts of usage of user identifiers associated with a subscription or with a non-3GPP device behind a UE or 5G-RG, including exposure of user profile related information.
33.700-41	Study on enabling a cryptographic algorithm transition to 256bits	TR	19.0.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.700-41/33700-41-j00.zip	The present document aims to address key requirements for introducing support for 256-bit symmetric algorithms into the 5G System as well as the coexistence of 128-bit and 256-bit cryptographic algorithms. Considering findings and conclusions from preceding work, the following points should be addressed as part of the present document: Studying key issues and candidate solutions concerning the negotiation (selection) of key sizes between UE and network, including: - Potential risks and impacts to the current system when supporting both 128-bit and 256-bit algorithms in parallel and the adoption of 256-bit algorithms in existing deployments where 128 bits is already supported, e.g. handover scenarios within 5G system. - How to prioritise the use of 256-bit algorithms and mitigate bidding-down attacks when negotiating key sizes. - How to ensure 256-bit security is achieved concerning varying levels of support for 256-bit algorithms by different UEs and within the network; potential dependencies in key-length selection of AS and NAS layers. - Study the implications and requirements for the key hierarchies to support 256-bit cryptographic algorithms. - Study the implications and requirements to AKA procedures.
33.701	Study on mitigations against bidding down Attacks	TR	19.0.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.701/33701-j00.zip	The present document focuses on mitigating bidding down attack, i.e. how to prevent UEs that are currently connected to LTE/5G from establishing a connection with a GERAN/UTRAN FBS considering for example the decommissioning of GERAN and UTRAN networks. In particular, the present document aims at: - Identifying attack scenarios and threats in the context of decommissioning of GERAN and UTRAN networks, e.g. cell (re)selection or forced handovers on GERAN or UTRAN once LTE and 5G signalling are blocked when GERAN/UTRAN networks are decommissioned; and - Documenting solutions for the identified security threats and requirements.
33.702	Security for mobility over non-3GPP access to avoid full primary authentication	TR	19.0.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.702/33702-j00.zip	The following objectives are studied in the present document: - Study the security aspects and procedure enhancements needed to support UE connecting to a new target TNAP within the same TNGF without performing full primary authentication. - Study the security aspects and procedure enhancements needed to support AUN3 connecting to a new target RG under the same WAGF without performing full primary authentication. - Study the security aspects and procedure enhancements needed to support N5CW devices connecting to a new target Trusted WLAN AP within the same TWIF without performing full primary authentication. - Study the security aspects and procedure enhancements needed to support UE connecting to a new WLAN AP that shares the same NSWOF without performing full authentication. The present document does not cover actual mobility, where call/session continuity is maintained. I.e. when UE/device is moving from one AP/TNAP/TWAP to another, connectivity can break, and then UE will reconnect.
33.713	Study on security aspects of Ambient Internet of Things (AIoT) services in 5G	TR	1.0.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.713/33713-100.zip	The present document identifies potential threats and security requirements to enable AIoT services for various use cases. Consideration for the energy and complexity constraints of AIoT devices is taken into account in identifying and developing potential security mechanisms to support AIoT services. Specifically, the present document focuses on the following: 1. Identify security and privacy and threats introduced by AIoT services for use cases captured in TS 22.369 [2], for topologies captured in RP-234058[3], and for architecture captured in TR 23-700-13[4]. 2. Identify security requirements to address the identified threats. 3. Develop potential solutions that fulfil the security requirements, taking into account AIoT device constraints agreed upon in other 3GPP working groups. NOTE 1: Enable/disable device operation is within the scope of the present document. NOTE 2: In Release 19, the conclusion of present document focuses on security and privacy of AIoT device 1 and D1T1 with direct and indirect interface options.
33.721	Study on security aspects of 5G mobile metaverse services	TR	19.0.1	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.721/33721-j01.zip	The present document studies security impacts of the procedures introduced in Study on Application enablement architecture for mobile metaverse services studied in TR 23.700-21 [2], specifically, the security aspects that are to be covered in the present document are as follows: - authentication and authorization of digital identity (non-IMS based) NOTE: The term digital identity is defined in clause 3.1. - support security aspects of digital asset container - security and privacy aspects of user sensitive information for Localized Mobile Metaverse Services
33.727	Lawful Intercept Handling of Protected Services	TR	0.0.1	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.727/33727-001.zip	Offering communication services with end-to-end (E2E) cryptographic protection is becoming more desirable and more common. 3GPP-defined services (such as those of the IMS framework) have so far largely relied on trustworthy network infrastructure, complemented by strong cryptographic access security and hop-by-hop protection in the core and service domains. However, also here, E2E protected services are gaining attractivity. Indeed, the solution defined in TS 33.535, Authentication and Key Management for Applications based on 3GPP credentials in the 5G System (AKMA), can be leveraged as a basis for protecting basically any IP-based service provided to a UE (an ME with USIM-credentials). While this trend is both natural and desirable from a user privacy point of view, it creates problems related to regulatory obligations for CSPs to provide Lawful Interception (LI). The problems are particularly emphasised in roaming scenarios, where each of two different CSPs in distinct jurisdictions might independently need to provide LI without reliance on co-operation by the other CSP and/or law enforcement in the other jurisdiction. The currently dominant approach to tackle these issues has been to simply not activate the protection (encryption) when it potentially conflicts with LI requirements. Going forward, this is most likely not a sustainable solution. For example, it potentially exposes the traffic to any 3rd party and, moreover, it typically also results in data integrity being disabled, while the issues are predominantly tied to data confidentiality. The present document provides a technical study on how to enable protected services without negative consequences for LI. The CSP’s LI obligation to provide communication with the encryption removed only applies when the CSP also provides the technical means enabling the protection (e.g. key management), and therefore the scope is limited to that use case.
33.743	Study on Security Aspects of Enhancement for Proximity-based Services (ProSe) in the 5G System (5GS) phase 3	TR	19.0.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.743/33743-j00.zip	The present document investigates and identifies the security (including privacy) threats, corresponding security (including privacy) requirements and potential solutions for Proximity Based Services (ProSe) in 5G System (5GS) phase 3, based on the architecture and system level enhancements studied in TR 23.700-03 [1], including - ProSe multi-hop UE-to-Network Relay (both Layer-2 and Layer-3 Relays). - ProSe multi-hop UE-to-UE Relay (Layer-3 Relay only).
33.745	Study on security aspects of 5G Next Radio (NR) Femto	TR	19.1.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.745/33745-j10.zip	The present document studies the potential security enhancements for supporting 5G NR Femto. More specifically, the study investigates potential security enhancements in the following areas: - With the gap analysis, study the potential updates or enhancements needed for 5G NR Femto over TS 33.320[2]. - Study the security impacts for interworking between CAG and CSG cells. - Study the security impacts of enabling provisioning of subscribers allowed to access 5G NR Femto cells and how to manage 5G NR Femto access control by the Closed Access Group (CAG) owner or an authorized administrator.
33.749	Study on security aspects of enhancement of support for edge computing in the 5G Core (5GC) phase 3	TR	19.0.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.749/33749-j00.zip	The present document studies the security enhancements on the support for Edge Computing in the 5G Core network defined in TR 23.700-49 [2], and enhanced architecture for enabling Edge Applications defined in TS 23.558 [3]. Specifically, the present document focuses on the following: 1) Study the security aspects on the enhancements for EAS (re)discovery and UPF (re)selection with reducing impact on central 5GC NFs, enhancement of EAS and local UPF (re)selection, and EC Traffic Routing between local part of DN and central part of DN the Edge Hosting Environment information management. 2) Study the security on the enhancements to Edge Enabler layer (EEL) to support additional scenarios for edge services. 3) Study the authorization between EESes for both Application Context Relocation (ACR) and Edge Node Sharing (ENS) scenarios. 4) Study the secure retrieval of 5G system UE Ids and privacy related information in the EDGE. The study is based on the work done in the TS 33.558 [4], TR 33.839 [5], TR 33.739 [6].
33.754	Study on security aspects for multi-access(DualSteer +Access Traffic Steering, Switch and Splitting support in the 5G system architecture phase 4 (ATSSS Ph-4)	TR	19.0.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.754/33754-j00.zip	The present document aims to address the security aspects of Multi-Access, focusing on DualSteer devices and ATSSS Phase 4 (ATSSS Ph-4) enhancements, as identified in the FS_MASSS study in TR 23.700-54 [2]. The scope of this study includes the following key areas: - Examine the security implications of a simplified architecture over non-3GPP access, where non-3GPP access does not rely on the current TNGF/N3IWF architecture. This involves assessing: - Whether to keep NAS security context on non-3GPP access. - Whether to keep IPsec on the user plane and/or control plane of non-3GPP access. - Whether new security mechanisms are to be considered in UE procedures, particularly regarding registration and connectivity to the 5G system in the context of ATSSS between 3GPP and non-3GPP access without 5G NAS. The present document leverages insights from the requirements and architectural considerations outlined in the TR 23.700-54 [2].
33.757	Study on security for a PLMN hosting a Non-Public Network (NPN)	TR	19.0.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.757/33757-j00.zip	The present document studies the security when a PLMN hosts an NPN with dedicated NFs deployed in the customer domain. A NPN customer may deploy on-premises NFs, or hosted NFs which reside in third-party premises, or both. A PLMN hosting an NPN is an example of a Public Network Integrated NPN (PNI-NPN). The term PNI-NPN applies to this study of a PLMN hosting an NPN. More specifically, the present document: - identifies key issues and potential security requirements for the scenarios of PLMN hosting an NPN with dedicated NFs deployed in the customer domain. Related dedicated NFs may be described in the key issues. - when necessary, develops solutions to address the identified requirements.
33.759	Study on security enhancements of Uncrewed Aerial Systems (UAS) Phase 3	TR	19.0.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.759/33759-j00.zip	The present document identifies potential security and privacy issues and provides potential security solutions to support additional scenarios and requirements for UAV (Uncrewed Aerial Vehicle) and UAM (Urban Air Mobility) including: - identify potential security issues and provide solutions for the enhanced NEF services to support service exposure and interactions between MNOs and UTM functions, e.g. security impact of supporting multiple USS. - identify potential security and privacy issues related to network-assisted/ground-based mechanism for DAA (Detect And Avoid). - identify potential security and privacy issues related to no-transmit zones for UAVs Furthermore, the present document makes potential recommendations for possible normative work taking into consideration the conclusions of TR 23.700-59 [2].
33.766	Study on security aspects of energy savings in 5G	TR	19.0.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.766/33766-j00.zip	The present document studies the security and privacy aspects of energy savings. More especially the document: - Identifies key issues concerning the privacy and security aspects of collecting energy related information. - Identifies key issues concerning the privacy and security impacts of exposure of energy related information. - If required, develops solutions addressing the identified key issues.
33.776	Study of Automatic Certificate Management Environment (ACME) for the Service Based Architecture (SBA)	TR	19.0.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.776/33776-j00.zip	The scope of this document is to identify key issues and study solutions addressed using ACME for automated certificate management in SBA. Areas of study include: - Automated certificate management protocol and procedures for certificate life cycle events (i.e., enrolment, renewal, and revocation) within 5G SBA (i.e., to be used by operator CAs and all 5GC NFs including NRF, SCP, SEPP, etc.), including the following: - ACME transport and request/response messages for 5G SBA use cases - ACME certificate profiles for all 5G SBA entities - Mechanisms for establishing initial trust and chain of trust of Certificate Authority hierarchies, including the following: - Existing ACME challenge types and if any new challenge types are needed for 3GPP use cases: - Creation, deletion, rotation, revocation and storage of the certificates - Ability to automate ACME challenge validation - Suitability of existing mechanisms when 5G SBA is for standalone NPN (SNPN) - Call flow of the messages exchanged between different entities in the chain of trust. NOTE: Certificate management for the external interface of the SEPP is out of scope.
33.784	Study on security aspects of core network enhanced support for Artificial Intelligence/Machine Learning (AI/ML)	TR	19.0.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.784/33784-j00.zip	The present document studies the security aspects of enablers for network automation for the 5G system based on the outcome of TR 38.843[2] and TR 23.700-84[3]. More specifically, this document identifies security issues and requirements and provides corresponding security solutions related to the following scenarios: - Security aspects on enhancements to LCS to support AI/ML based Positioning considering the conclusions in TR 38.843[2] and TR 23.700-84[3]. - Security aspects of cross-domain (i.e. 5G Core and AF) Vertical Federated Learning, including authorization of members of the VFL group and security aspects of enhancements on the architecture in TR 23.700-84 [3] to support VFL.
33.790	Study on the security support for the next generation real time communication services phase 2	TR	19.0.1	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.790/33790-j01.zip	The present document studies security impacts of the new features of the next generation real time communication studied in TR 23.700-77 [2], specifically, the security aspects that are to be covered in the present document are as follows: - IMS third party identity security handling. - The security handling of the enhancements to support the use cases of IMS based Metaverse services. - The security and privacy issues and solutions related to the IMS data channel exposure.
33.794	Study on enablers for Zero Trust Security	TR	19.1.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.794/33794-j10.zip	The present document studies enablers for Zero-Trust Security in the 5G System. The document specifically includes security analysis with recommendations, key issues, potential security requirements and solutions with respect to the following objectives: 1. Data exposure for security evaluation and monitoring - Identify potential threats and attacks on the 5G SBA layer intended to identify which data may be relevant to be exposed, and whether additional data exposure is necessary to detect the threats and attacks. NOTE 1: The external security evaluation and monitoring is up to operator’s implementation and outside the 3GPP domain. The aspects to enable OAM based data collection are not in scope of the present document. The necessary adaptations specific to exposure services for providing data to the external security function. 2. Security mechanism for dynamic policy enforcement
33.926	Security Assurance Specification (SCAS) threats and critical assets in 3GPP network product classes	TR	19.4.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.926/33926-j40.zip	The present document captures the network product class descriptions, threats and critical assets that have been identified in the course of the work on 3GPP security assurance specifications. The main body of the present document contains generic aspects that are believed to apply to more than one network product class, while Annexes cover the aspects specific to one network product class.
33.928	ADMF logic for provisioning Lawful Interception (LI)	TR	19.0.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.928/33928-j00.zip	The present document provides ADMF provisioning logic for LI in association with the LI functions defined in TS 33.126 [2], TS 33.127 [3] and TS 33.128 [4].
33.929-1	Lawful Interception (LI) implementation guidance; LI for IMS based services	TR	0.0.1	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.929-1/33929-1-001.zip	The present document provides architectural diagrams, conceptual scenarios, flow-diagrams, examples, and other background information which can be useful to implement the LI functions defined in TS 33.126 [2], TS 33.127 [3] and TS 33.128 [4]. The present document covers the LI for IMS based services that focus on illustrating the LI aspects of session-based IMS sessions which include the architecture topologies and the call flows covering basic sessions, redirected sessions, target non-local ID, conferencing, roaming (Local Breakout and Home-routed) scenarios. The IMS based STIR/SHAKEN related LI reporting are illustrated in TR 33.929-2 [10]. The LI for IMS-based services is agnostic to the packet core network.
33.929-2	Lawful Interception (LI) implementation guidance; LI for IMS based STIR/SHAKEN	TR	0.0.1	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.929-2/33929-2-001.zip	The present document provides architectural diagrams, conceptual scenarios, flow-diagrams, examples, and other background information which can be useful to implement the LI functions defined in TS 33.126 [2], TS 33.127 [3] and TS 33.128 [4]. The present document covers the LI for IMS based STIR/SHAKEN that focus on illustrating various STIR/SHAKEN related LI reporting scenarios that go along with the LI for IMS based services (TR 33.929-1 [10]).
33.929-3	Lawful Interception (LI) implementation guidance; LI for messaging services	TR	0.0.1	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.929-3/33929-3-001.zip	The present document provides architectural diagrams, conceptual scenarios, flow-diagrams, examples, and other background information which can be useful to implement the LI functions defined in TS 33.126 [2], TS 33.127 [3] and TS 33.128 [4]. The present document covers the illustrations related LI for Messaging Services that include SMS over NAS and SMS over IP.
33.929-4	Lawful Interception (LI) implementation guidance; LI for data in 5G core	TR	0.0.2	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.929-4/33929-4-002.zip	The present document provides architectural diagrams, conceptual scenarios, flow-diagrams, examples, and other background information which can be useful to implement the LI functions defined in TS 33.126 [2], TS 33.127 [3], TS 33.128 [4] and TR 33.928 [5]. The present document that covers the illustrations for LI for Data in 5G Core include the LI aspects of data interception focussing on the PDU session related events including the handover cases.
33.929-5	Lawful Interception (LI) implementation guidance; LI for ID association caching	TR	0.0.2	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.929-5/33929-5-002.zip	The present document provides architectural diagrams, conceptual scenarios, flow-diagrams, examples, and other background information which can be useful to implement the LI functions defined in TS 33.126 [2], TS 33.127 [3], TS 33.128 [4] and TR 33.928 [5]. The present document that covers illustrations of ID Association Caching focus on the capabilities used to provide the temporary identity to permanent identity (and vice-versa) associations known to the CSP network. The illustrations include the architectural concepts and few examples of use-cases encountering various timing scenarios.
33.929-6	Lawful Interception (LI) implementation guidance; LI for IMS based RCS	TR	0.0.2	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.929-6/33929-6-002.zip	The present document provides architectural diagrams, conceptual scenarios, flow-diagrams, examples, and other background information which can be useful to implement the LI functions defined in TS 33.126 [2], TS 33.127 [3] and TS 33.128 [4]. The present document covers the LI for IMS based RCS that include the illustrations covering the architecture topologies and the call flows when the RCS service is offered by the CSP or by a Third Party Provider. The LI for IMS based services are illustrated in TR 33.929-1 [10]. The LI for IMS-based RCS is agnostic to the packet core network.
33.929-7	Lawful Interception (LI) implementation guidance; LI location acquisition capabilities	TR	0.0.2	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.929-7/33929-7-002.zip	The present document provides architectural diagrams, conceptual scenarios, flow-diagrams, examples, and other background information which can be useful to implement the LI functions defined in TS 33.126 [2], TS 33.127 [3] and TS 33.128 [4]. The present document covers the LI for Location Services that include the illustrations covering the conceptual overview and the flow diagrams for location reporting, LALS and Location Acquisition.
33.929-8	Lawful Interception (LI) implementation guidance; LI for MMS	TR	0.0.2	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.929-8/33929-8-002.zip	The present document provides architectural diagrams, conceptual scenarios, flow-diagrams, examples, and other background information which can be useful to implement the LI functions defined in TS 33.126 [2], TS 33.127 [3] and TS 33.128 [4]. The present document covers the LI for MMS that include the illustrations covering the conceptual overview and the flow diagrams for MMS.
33.929-9	Lawful Interception (LI) implementation guidance; LI for PTC	TR	0.0.1	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.929-9/33929-9-001.zip	The present document provides architectural diagrams, conceptual scenarios, flow-diagrams, examples, and other background information which can be useful to implement the LI functions defined in TS 33.126 [2], TS 33.127 [3] and TS 33.128 [4]. The present document covers the LI for PTC that include the illustrations covering the conceptual overview and the flow diagrams for MCPTT and PoC commonly referred to as Push to Talk over Cellular.
33.938	3GPP Cryptographic Inventory	TR	19.0.0	S3	https://www.3gpp.org/ftp/Specs/archive/33_series/33.938/33938-j00.zip	The present document lists the security protocols that use cryptography in 3GPP specifications for the 5G System in the Standalone mode. They • include the type of cryptography used by the protocol (symmetric/asymmetric) • include the pointers to the protocol specification • include the pointers to the relevant 3GPP cryptographic profiles • include usage type (e.g., integrity, confidentiality, and/or authentication) NOTE: the present document does not include resolution to PQC migration, and does not contain solutions that lead to any specification/normative work.
34.229-1	Internet Protocol (IP) multimedia call control protocol based on Session Initiation Protocol (SIP) and Session Description Protocol (SDP); User Equipment (UE) conformance specification; Part 1: Protocol conformance specification	TS	19.1.0	R5	https://www.3gpp.org/ftp/Specs/archive/34_series/34.229-1/34229-1-j10.zip	The present document specifies the protocol conformance testing for the User Equipment (UE) supporting the Internet Protocol (IP) multimedia call control protocol based on Session Initiation Protocol (SIP) and Session Description Protocol (SDP). This is the first part of a multi-part test specification. The following information can be found in this part: - the overall test structure; - the test configurations; - the conformance requirement and reference to the core specifications; - the test purposes; and - a brief description of the test procedure, the specific test requirements and short message exchange table. The following information relevant to testing can be found in accompanying specifications: - the applicability of each test case [5]. A detailed description of the expected sequence of messages can be found in the 3rd part of present test specification [6]. The Implementation Conformance Statement (ICS) pro-forma can be found in the 2nd part of the present test specification [5]. The present document is valid for UE implemented according to 3GPP Releases starting from Release 5 up to the Release indicated on the cover page of the present document. Also, for clauses 8-18, 20 and 22, it is generally assumed that an IMS capable UE is compliant to GSMA PRD IR.92 [133] and GSMA PRD IR.94 [134]; any update of requirements in these GSMA PRD documents, which are relevant to the present document will be handled on a case by case basis, with due consideration given for grace period to be granted for the UE to comply to any updated requirements. Editor's Note: it is to be clarified if we need to elaborate on clauses 19 and 21 here. Test cases specified in Annexes G-K are targeted as indicated in their respective Scope sections.
34.229-2	Internet Protocol (IP) multimedia call control protocol based on Session Initiation Protocol (SIP) and Session Description Protocol (SDP); User Equipment (UE) conformance specification; Part 2: Implementation Conformance Statement (ICS) specification	TS	19.1.0	R5	https://www.3gpp.org/ftp/Specs/archive/34_series/34.229-2/34229-2-j10.zip	The present document provides the Implementation Conformance Statement (ICS) proforma for 3rd Generation User Equipment (UE) supporting the Internet Protocol (IP) multimedia call control protocol based on Session Initiation Protocol (SIP) and Session Description Protocol (SDP), in compliance with the relevant requirements, and in accordance with the relevant guidance given in ISO/IEC 9646-7 [8] and ETS 300 406 [9]. The present document also specifies a recommended applicability statement for the test cases included in TS 34.229-1 [5] and TS 34.229-5 [95]. These applicability statements are based on the features implemented in the UE. The present document is valid for UE implemented according to 3GPP releases starting from Release 5 up to the Release indicated on the cover page of the present document. Also, it is generally assumed that an IMS capable UE is compliant to at least one of the following GSMA PRD IR.92 [83], GSMA PRD IR.94 [75] or GSMA PRD NG.114 [99]: any update of requirements in these GSMA PRD documents, which are relevant to the present document will be handled on a case by case basis, with due consideration given for grace period and/or conditions to be granted for the UE to comply to any updated requirements.
34.229-3	Internet Protocol (IP) multimedia call control protocol based on Session Initiation Protocol (SIP) and Session Description Protocol (SDP); User Equipment (UE) conformance specification; Part 3: Abstract test suite (ATS)	TS	19.0.0	R5	https://www.3gpp.org/ftp/Specs/archive/34_series/34.229-3/34229-3-j00.zip	The present document specifies the protocol conformance testing in TTCN for the 3GPP User Equipment (UE) at the Gm interface. The present document is the 3rd part of a multi-part test specification, 3GPP TS 34.229. The following TTCN test specification and design considerations can be found in the present document: - the overall test suite structure; - the testing architecture; - the test methods and PCO definitions; - the test configurations; - the design principles, assumptions, and used interfaces to the TTCN tester (System Simulator); - TTCN styles and conventions; - the partial PIXIT proforma; - the TTCN files for the mentioned protocols tests. The Abstract Test Suites designed in the document are based on the test cases specified in prose (3GPP TS 34.229‑1 [5] and TS 34.229-5 [55]). The present document is valid for UE implemented according 3GPP Releases starting from Release 5 up to the Release indicated on the cover page of the present document.
34.229-5	Internet Protocol (IP) multimedia call control protocol based on Session Initiation Protocol (SIP) and Session Description Protocol (SDP); User Equipment (UE) conformance specification; Part 5: Protocol conformance specification using 5G System (5GS)	TS	19.1.0	R5	https://www.3gpp.org/ftp/Specs/archive/34_series/34.229-5/34229-5-j10.zip	The present document specifies the protocol conformance testing for the User Equipment (UE) supporting the Internet Protocol (IP) multimedia call control protocol based on Session Initiation Protocol (SIP) and Session Description Protocol (SDP) when using the 5G System (5GS). This is the fifth part of a multi-part test specification. The following information can be found in this part: - the overall test structure; - the test configurations; - the conformance requirement and reference to the core specifications; - the test purposes; and - the test procedure. The following information relevant to testing can be found in accompanying specifications: - Implementation Conformance Statement (ICS) pro-forma and the applicability of each test case [3]. The present document is valid for UE implemented according to 3GPP Releases starting from Release 15 up to the Release indicated on the cover page of the present document.
35.205	3G Security; Specification of the MILENAGE algorithm set: An example algorithm set for the 3GPP authentication and key generation functions f1, f1, f2, f3, f4, f5 and f5; Document 1: General	TS	19.0.0	S3	https://www.3gpp.org/ftp/Specs/archive/35_series/35.205/35205-j00.zip	This report is a description of the work undertaken by an ETSI SAGE Task Force on the design of the Milenage Algorithm Set: an example set of 3GPP Authentication and Key Generation Functions. The 3GPP Authentication and Key Generation Functions are not standardized. An example set of these algorithms has been produced on request from 3GPP with the intent that it shall be offered to the UMTS operators, to utilise instead of developing their own. An ETSI SAGE Task Force has carried out this work. The requirement specification from 3GPP stated that operator personalisation of the example set shall be possible and that the basic kernel shall be possible to replace. The example set is based on the block cipher Rijndael, which at the time was one of the AES candidates and the specification describes how the 7 algorithms used in 3GPP authentication and key generation are scheduled around this basic kernel. The specification and associated test data for the example algorithm set is documented in three documents: - A formal specification of both the modes and the example kernel [3] - A detailed test data document, covering modes and the example kernel [4] - A "black box" test data document [5] A detailed summary of the evaluation is provided in a public evaluation report [6] This report gives an overview of the overall work by the task force.
35.231	Specification of the TUAK algorithm set: A second example algorithm set for the 3GPP authentication and key generation functions f1, f1, f2, f3, f4, f5 and f5; Document 1: Algorithm specification	TS	19.0.0	S3	https://www.3gpp.org/ftp/Specs/archive/35_series/35.231/35231-j00.zip	The present document and the other Technical Specifications in the series, TS 35.232 [15] and 35.233 [16] contain an example set of algorithms which could be used as the authentication and key generation functions f1, f1, f2, f3, f4, f5 and f5 for 3GPP systems. All seven functions are operator-specifiable rather than being fully standardised and other algorithms could be envisaged.
35.234	Specification of the MILENAGE-256 algorithm set; An example set of 256-bit 3GPP authentication and key generation functions f1, f1, f2, f3, f4, f5, f5 and f5**; Document 1: General	TS	19.0.0	S3	https://www.3gpp.org/ftp/Specs/archive/35_series/35.234/35234-j00.zip	The present document contains a high level specification of the MILENAGE-256 algorithm set which constitutes an example set of 3GPP authentication and key generation functions with a 256-bit target security level. The example set is based on the block cipher Rijndael-256-256 with 256-bit key and 256-bit block size [8, 14] (recall that the 128 bit Advanced Encryption Standard, AES-128, corresponds to Rijndael-128-128 [8]). An optional-to-use function, f5, was designed according to candidate solutions discussed in 3GPP SA3 [12], with the aim of countering certain replay attacks that can lead to traceability of subscribers [13]. When used, the optional function f5 replaces f5*. The specification and associated test data for the example algorithm set is documented in two documents: - A formal specification of the mode and the example kernel [2]. - A detailed test data document, covering mode and the example kernel [3]. A detailed summary of the evaluation is provided in a public evaluation report [4]. The present document provides an overview of the overall work.
35.235	Specification of the MILENAGE-256 algorithm set; An example set of 256-bit 3GPP authentication and key generation functions f1, f1, f2, f3, f4, f5, f5 and f5**; Document 2: algorithm specification	TS	19.0.0	S3	https://www.3gpp.org/ftp/Specs/archive/35_series/35.235/35235-j00.zip	This document contains a detailed specification of the general framework for the MILENAGE-256 algorithm set, together with specification for the cryptographic kernel used to instantiate the algorithm set. The main new requirement for the MILENAGE-256 algorithm set, compared to previous 3GPP authentication and key generation functions, is to provide a 256-bit target security level, mainly motivated by future proofing 3GPP networks in case larger scale quantum computers become practical in the future. While this level of security can already be provided by the previously defined TUAK algorithm set [10], having another algorithm set, based on a different cryptographic kernel, provides a fallback, in case of future advances in conventional (non-quantum-computing based) cryptanalysis of the hash-function Keccak, the kernel used in TUAK. The framework for MILENAGE-256 largely mirrors that of the previously defined MILENAGE algorithm set [9], but with a few important differences as discussed later in the present document. In terms of the cryptographic kernel, MILENAGE-256 requires the use of a kernel mapping 256-bit inputs to 256-bit outputs, under the control of a 256-bit secret key. The present document provides kernel based on direct use of the Rijndael-256-256 block cipher with 256-bit block and key size. The reader may recall that Rijndael was the candidate algorithm selected by NIST as the Advanced Encryption Standard, though the option to use a 256-bit block size was not adopted as part of the NIST AES requirements [5]. The algorithm set is named MILENAGE-256 since the intention is to provide full 256-bit security, which requires the use of 256-bit keys. Nonetheless MILENAGE-256 supports both 128-bit and 256-bit keys, to facilitate the transition to 256-bit security. If MILENAGE-256 is employed in a context containing components that do not yet support 256-bit keys, 128-bit keys can initially be employed, though it is recommended that the implementation supports a mechanism for transitioning to 256-bit keys in the future. Associated test data for the MILENAGE-256 example algorithm set appears in a partner document comprising detailed test data, covering modes and the example kernel, and general design conformance test data [3]. Provisions are further made so that operators who so desire can customise the algorithm set to different degrees, providing some level of separation/isolation between implementations used by different operators.
35.236	Specification of the MILENAGE-256 algorithm set; An example set of 256-bit 3GPP authentication and key generation functions f1, f1, f2, f3, f4, f5, f5 and f5**; Document 3: Implementors’ test data and design conformance test data	TS	19.0.0	S3	https://www.3gpp.org/ftp/Specs/archive/35_series/35.236/35236-j00.zip	The present document provides test data (also known as test vectors) that implementors can use to help verify that their implementations are correct, according to the technical specifications of MILENAGE-256 algorithm set [2,3]. A reference implementation in C/C++ is also provided in the Annex.
35.246	Specification of the ZUC based 256-bits algorithm set: Specification of the 256-NEA6 encryption, the 256-NIA6 integrity, and the 256-NCA6 authenticated encryption algorithm for 5G; Document 1: algorithm specification	TS	19.0.0	S3	https://www.3gpp.org/ftp/Specs/archive/35_series/35.246/35246-j00.zip	The present document contains the algorithm specification which could be used as the encryption and integrity protection function 256-NEA6, 256-NIA6 and the combined authenticated encryption 256-NCA6 protection function for 3GPP systems.
35.249	Specification of an example algorithm for f5** function for MILENAGE and Tuak; Algorithm specification and test data	TS	19.1.0	S3	https://www.3gpp.org/ftp/Specs/archive/35_series/35.249/35249-j10.zip	The present document presents an optional security enhancement for the MILENAGE [5, 6, 12, 13] and Tuak example algorithm set [7, 14, 15] for the 3GPP authentication and key agreement functions. The enhancement addresses a subscriber traceability issue discovered by academic researchers [9] and is provided as an alternative anonymity key generation function f5** that, when enabled, replaces the f5* function of the aforementioned example algorithm sets. A functionally equivalent security enhancement is already included in the new MILENAGE-256 example algorithm set [8].
35.937	Specification of the MILENAGE-256 algorithm set; An example set of 256-bit 3GPP authentication and key generation functions f1, f1, f2, f3, f4, f5, f5 and f5**; Document 4: summary and results of design and evaluation	TR	19.0.0	S3	https://www.3gpp.org/ftp/Specs/archive/35_series/35.937/35937-j00.zip	The present document contains a detailed summary of the work performed during the design and evaluation of MILENAGE-256 algorithm set. It contains results and findings from this work and should be read as a supplement to the specifications of the algorithms [3] and the general project report [2]. The example set is based on the block cipher Rijndael-256-256 with 256-bit key and block size [8, 24] (recall that the 128-bit Advanced Encryption Standard, AES-256, corresponds to Rijndael-128-256 [9], where the notation Rijndael-b-n is defined in clause 3.2 below). An optional-to-use function, f5 with the aim of countering certain replay attacks that can lead to traceability of subscribers [20], was designed according to candidate solutions discussed in 3GPP TR 33.846 [12]. When used, the optional function f5 replaces f5*. The specification and associated test data for the example algorithm set is documented in two documents: - A formal specification of the mode and the example kernel [3] - A test data document, covering mode and the example kernel [4]
36.101	Evolved Universal Terrestrial Radio Access (E-UTRA); User Equipment (UE) radio transmission and reception	TS	19.2.0	R4	https://www.3gpp.org/ftp/Specs/archive/36_series/36.101/36101-j20.zip	The present document establishes the minimum RF characteristics and minimum performance requirements for E-UTRA User Equipment (UE).
36.102	Evolved Universal Terrestrial Radio Access (E-UTRA); User Equipment (UE) radio transmission and reception for satellite access	TS	19.0.0	R4	https://www.3gpp.org/ftp/Specs/archive/36_series/36.102/36102-j00.zip	The present document establishes the minimum RF characteristics and minimum performance requirements for E-UTRA User Equipment (UE) operating satellite access.
36.104	Evolved Universal Terrestrial Radio Access (E-UTRA); Base Station (BS) radio transmission and reception	TS	19.1.0	R4	https://www.3gpp.org/ftp/Specs/archive/36_series/36.104/36104-j10.zip	The present document establishes the minimum RF characteristics and minimum performance requirements of E-UTRA, E-UTRA with NB-IoT or NB-IoT Base Station (BS).
36.108	Evolved Universal Terrestrial Radio Access (E-UTRA); Satellite Access Node radio transmission and reception	TS	19.0.0	R4	https://www.3gpp.org/ftp/Specs/archive/36_series/36.108/36108-j00.zip	The present document establishes the minimum RF characteristics and minimum performance requirements of Satellite Access Node (SAN) supporting standalone NB-IoT operation or E-UTRA or NB-IoT operation in NTN NR in-band. NOTE: Minimum requirements for NB-IoT operation in NTN NR guardband are not specified and guardband operation is SAN implementation specific.
36.133	Evolved Universal Terrestrial Radio Access (E-UTRA); Requirements for support of radio resource management	TS	19.1.0	R4	https://www.3gpp.org/ftp/Specs/archive/36_series/36.133/36133-j10.zip	The present document specifies requirements for support of Radio Resource Management for the FDD and TDD modes of Evolved UTRA. These requirements include requirements on measurements in UTRAN and the UE as well as requirements on node dynamical behaviour and interaction, in terms of delay and response characteristics.
36.141	Evolved Universal Terrestrial Radio Access (E-UTRA); Base Station (BS) conformance testing	TS	19.0.0	R4	https://www.3gpp.org/ftp/Specs/archive/36_series/36.141/36141-j00.zip	The present document specifies the Radio Frequency (RF) test methods and conformance requirements for E-UTRA, E-UTRA with NB-IoT or NB-IoT Base Stations (BS) operating either in the FDD mode (used in paired bands) or the TDD mode (used in unpaired bands). These have been derived from, and are consistent with the E-UTRA, E-UTRA with NB-IoT or NB-IoT Base Station (BS) specifications defined in [2].
36.171	Evolved Universal Terrestrial Radio Access (E-UTRA); Requirements for Support of Assisted Global Navigation Satellite System (A-GNSS)	TS	19.0.0	R4	https://www.3gpp.org/ftp/Specs/archive/36_series/36.171/36171-j00.zip	The present document establishes the minimum performance requirements for A-GNSS (including A-GPS) for FDD or TDD mode of E-UTRA for the User Equipment (UE).
36.181	Evolved Universal Terrestrial Radio Access (E-UTRA); Satellite Access Node conformance testing	TS	19.0.0	R4	https://www.3gpp.org/ftp/Specs/archive/36_series/36.181/36181-j00.zip	The present document specifies the Radio Frequency (RF) test methods and conformance requirements for Satellite Access Node (SAN) type 1-H and SAN type 1-O, supporting standalone NB-IoT operation or E-UTRA or NB-IoT operation in NTN NR in-band. These have been derived from and are consistent with the conducted requirements for SAN type 1-H, and radiated requirement for SAN type 1-H and SAN type 1-O in SAN specification defined in TS 36.108 [2].
36.211	Evolved Universal Terrestrial Radio Access (E-UTRA); Physical channels and modulation	TS	19.0.0	R1	https://www.3gpp.org/ftp/Specs/archive/36_series/36.211/36211-j00.zip	The present document describes the physical channels for evolved UTRA.
36.212	Evolved Universal Terrestrial Radio Access (E-UTRA); Multiplexing and channel coding	TS	19.0.0	R1	https://www.3gpp.org/ftp/Specs/archive/36_series/36.212/36212-j00.zip	The present document specifies the coding, multiplexing and mapping to physical channels for E-UTRA.
36.213	Evolved Universal Terrestrial Radio Access (E-UTRA); Physical layer procedures	TS	19.0.0	R1	https://www.3gpp.org/ftp/Specs/archive/36_series/36.213/36213-j00.zip	The present document specifies and establishes the characteristics of the physicals layer procedures in the FDD and TDD modes of E-UTRA.
36.307	Evolved Universal Terrestrial Radio Access (E-UTRA); Requirements on User Equipments (UEs) supporting a release-independent frequency band	TS	19.1.0	R4	https://www.3gpp.org/ftp/Specs/archive/36_series/36.307/36307-j10.zip	The present document specifies requirements for Rel-18 UEs supporting release independent features like: - additional E-UTRA operating frequency bands on top of Rel-18 of TS 36.101 [2], TS 36.102 [6] and TS 36.133 [3]; - additional E-UTRA CA configurations (intra-band/inter-band) on top of Rel-18 of TS 36.101 [2] and TS 36.133 [3]; - additional operating bands and/or CA configurations for specific features (like UE category 0, M1, NB1); - other release independent features (like 4Rx antenna port, high speed scenario, 8Rx antenna port, NB-IoT or eMTC operation over NTN).
36.719-01-01	LTE REL-19 CA for x bands (1<=x<=6)DL with y bands (y=1,2) UL	TR	0.5.0	R4	https://www.3gpp.org/ftp/Specs/archive/36_series/36.719-01-01/36719-01-01-050.zip	The present document is a technical report on intra-band CA and inter-band CA for x bands DL (1≤x≤6) with y bands UL (y=1,2) under Rel-19 timeframe. The purpose is to gather the relevant background information and studies, in order to address Rel-19 band combinations that are related to x bands (1≤x≤6) DL with y bands UL (y=1,2) bands UL CA requirements. The band combinations are requested in the Excel file of the WID [2] or its revisions.
36.764	LTE IoT NTN operating bands	TR	19.0.0	R4	https://www.3gpp.org/ftp/Specs/archive/36_series/36.764/36764-j00.zip	The present document is a technical report for LTE IoT NTN operating bands.
36.767	Rel-19 High power UE (power class 2) and high power operation (power class 1) for fixed-wireless/vehicle-mounted use cases in a single LTE band	TR	0.0.2	R4	https://www.3gpp.org/ftp/Specs/archive/36_series/36.767/36767-002.zip	The present document is a technical report for Rel-19 High power UE (power class 2) and high power operation (power class 1) for fixed-wireless/vehicle-mounted use cases in a single LTE band WI band under Rel-19 time frame. The purpose is to gather the relevant background information and studies in order to address LTE single band PC1 and PC2 HPUE operation for the Rel-19. This TR contains a general part and specific band combination part. The actual requirements are added to the corresponding technical specifications.
37.104	NR, E-UTRA, UTRA and GSM/EDGE; Multi-Standard Radio (MSR) Base Station (BS) radio transmission and reception	TS	19.0.0	R4	https://www.3gpp.org/ftp/Specs/archive/37_series/37.104/37104-j00.zip	The present document establishes the minimum RF characteristics of NR, E-UTRA, UTRA, GSM/EDGE and NB-IoT Multi-Standard Radio (MSR) Base Station (BS). Requirements for multi-RAT and single-RAT operation of MSR BS are covered in the present document. The requirements in the present document for E-UTRA, UTRA and NB-IoT single-RAT operation of MSR BS are also applicable to E-UTRA, UTRA and NB-IoT multi-carrier capable single-RAT BS. Requirements for GSM BS that are only single-RAT capable in all supported operating bands are not covered.
37.105	Active Antenna System (AAS) Base Station (BS) transmission and reception	TS	19.0.0	R4	https://www.3gpp.org/ftp/Specs/archive/37_series/37.105/37105-j00.zip	The present document establishes 2 sets of minimum requirements and minimum performance requirements; hybrid requirements set which specify requirements for a hybrid AAS BS with both a conducted and a radiated interface and OTA requirements set which specify requirements for an OTA AAS BS which has a radiated interface only. The hybrid AAS BS requirements are specified for E-UTRA AAS Base Station (BS), the FDD mode of UTRA AAS Base Station (BS), the 1,28 Mcps TDD mode of UTRA AAS Base Station (BS) in single RAT and any MSR AAS Base Station (BS) implementation of these RATs (including NR BS type 1-H MSR configurations). The OTA AAS BS requirements are specified for E-UTRA AAS Base Station (BS), the FDD mode of UTRA AAS Base Station (BS), in single RAT and any MSR AAS Base Station (BS) implementation of these RATs (including NR BS type 1-O MSR configurations). NOTE 1: The present document does not establish minimum RF characteristics or minimum performance requirements for Narrow-Band Internet of Things (NB-IoT) in band, NB-IoT guard band, or standalone NB-IoT operation, for AAS BS in single RAT E-UTRA operation or in MSR operation using E-UTRA. NOTE 2: The present document does not establish minimum RF characteristics for MBMS for AAS BS in single RAT E-UTRA operation.
37.141	NR, E-UTRA, UTRA and GSM/EDGE; Multi-Standard Radio (MSR) Base Station (BS) conformance testing	TS	19.0.0	R4	https://www.3gpp.org/ftp/Specs/archive/37_series/37.141/37141-j00.zip	The present document specifies the Radio Frequency (RF) test methods and conformance requirements for NR, E-UTRA, UTRA, GSM/EDGE and NB-IoT Multi-Standard Radio (MSR) Base Station (BS). These have been derived from, and are consistent with the NR, E-UTRA, UTRA, GSM/EDGE and NB-IoT MSR BS specification defined in [2].
37.145-1	Active Antenna System (AAS) Base Station (BS) conformance testing; Part 1: conducted conformance testing	TS	19.0.0	R4	https://www.3gpp.org/ftp/Specs/archive/37_series/37.145-1/37145-1-j00.zip	The present document specifies the conducted test methods and conformance requirements for single RAT E-UTRA operation, single RAT UTRA operation (FDD and TDD) and Multi-Standard Radio (MSR) UTRA, E-UTRA and NR Active Antenna System (AAS) Base Station (BS). These have been derived from, and are consistent with the non-AAS BS specifications in TS 25.104 [2], TS 25.105 [3], TS 36.104 [4], TS 38.104 [36] or TS 37.104 [5]. The technical specification TS 37.145 is in 2 parts, part TS 37.145-1 (the present document) covers conducted requirements and part TS 37.145-2 [40] covers radiated requirements. The present document does not establish conducted test methods and conformance requirements for Band 46 operation as it is not supported by AAS BS, but Band 46 test requirements are still applicable for AAS BS for protection of and against Band 46 operation. The present document does not establish conducted test methods and conformance requirements for Narrow-Band Internet of Things (NB-IoT) in band, NB-IoT guard band, or standalone NB-IoT operation, for AAS BS in single RAT E-UTRA operation as defined in TS 36.141 [14], or for AAS BS in MSR operation using E-UTRA as defined in TS 37.141 [13].
37.145-2	Active Antenna System (AAS) Base Station (BS) conformance testing; Part 2: radiated conformance testing	TS	19.1.0	R4	https://www.3gpp.org/ftp/Specs/archive/37_series/37.145-2/37145-2-j10.zip	The present document specifies radiated test methods and conformance requirements for 2 types of AAS BS; hybrid requirements set which specify requirements for a hybrid AAS BS with both a conducted and a radiated interface and OTA requirements set which specify requirements for an OTA AAS BS which has a radiated interface only. The hybrid AAS BS requirements are specified for E-UTRA AAS Base Station (BS), the FDD mode of UTRA AAS Base Station (BS), the 1,28 Mcps TDD mode of UTRA AAS Base Station (BS) in single RAT and any MSR AAS Base Station (BS) implementation of these RATs including NR operation. The OTA AAS BS requirements are specified for E-UTRA AAS Base Station (BS), the FDD mode of UTRA AAS Base Station (BS), in single RAT and any MSR AAS Base Station (BS) implementation of these RATs and/or NR. The requirements have been derived from, and are consistent with non-AAS BS specifications in TS 25.104 [2], TS 25.105 [3], TS 36.104 [4] or TS 37.104 [5] and where applicable with the NR specification TS 38.104 [33]. The technical specification TS 37.145 is in 2 parts, part TS 37.145-1 [9] covers conducted requirements and part TS 37.145-2 (the present document) covers radiated requirements. The present document does not establish radiated test methods and conformance requirements for Band 46 operation as it is not supported by AAS BS. Conducted Band 46 test requirements are still applicable for AAS BS for protection of and against Band 46 operation, as specified in TS 37.145-1 [9]. The present document does not establish minimum RF characteristics or minimum performance requirements for Narrow-Band Internet of Things (NB-IoT) in band, NB-IoT guard band, or standalone NB-IoT operation, for AAS BS in single RAT E-UTRA operation or in MSR operation using E-UTRA.
37.719-11-10	Rel-19 Dual Connectivity of EN-DC and NE-DC configurations with one or two NR Supplemental Uplink (SUL) band(s) and with/without UL sharing from the UE perspective (ULSUP)	TR	0.1.0	R4	https://www.3gpp.org/ftp/Specs/archive/37_series/37.719-11-10/37719-11-10-010.zip	The present document is a technical report for Rel-19 Dual Connectivity of EN-DC and NE-DC configurations with one or two NR Supplemental Uplink (SUL) band(s) and with/without UL sharing from the UE perspective (ULSUP). The purpose is to gather the relevant background information and studies in order to address SUL for the Rel-19 bands/band combinations. This TR contains a general part and specific band combination part. The actual requirements are added to the corresponding technical specifications.
37.719-11-11	Rel-19 Dual Connectivity of EN-DC and NE-DC configurations consisting of 2 different bands downlink (DL) with 2 different bands uplink (UL) (1 LTE band and 1 NR band)	TR	0.5.0	R4	https://www.3gpp.org/ftp/Specs/archive/37_series/37.719-11-11/37719-11-11-050.zip	The present document is a technical report for Dual Connectivity of EN-DC and NE-DC configurations consisting of 2 different bands downlink (DL) with 2 different bands uplink (UL) (1 LTE band and 1 NR band) under Rel-19 time frame. The purpose is to gather the relevant background information and studies in order to address Dual Connectivity (DC) of 1 LTE band (1DL/1UL) and 1 NR band (1DL/1UL) for the Rel-19 band combinations in Table 1-1, 1-2, 1-3 and 1-4, including EN-DC and NE-DC combinations. The actual requirements are added to the corresponding technical specifications. Table 1-1: Release 19 EN-DC of 1 LTE band (1DL/1UL) and 1 NR band (1DL/1UL) within FR1 DC combination Uplink EN-DC configuration DC_68A_n1A DC_68A_n1A DC_68A_n3A DC_68A_n3A DC_68A_n7A DC_68A_n7A DC_68A_n8A DC_68A_n8A DC_68A_n20A DC_68A_n20A DC_68A_n38A DC_68A_n38A DC_68A_n40A DC_68A_n40A DC_68A_n41A DC_68A_n41A DC_68A_n77A DC_68A_n77A DC_68A_n78A DC_68A_n78A DC_68A_n79A DC_68A_n79A DC_106A_n41A DC_106A_n41A DC_106A_n41C DC_106A_n41A DC_106A_n41(2A) DC_106A_n41A DC_106A_n48A DC_106A_n48A DC_106A_n48C DC_106A_n48A DC_106A_n48(2A) DC_106A_n48A DC_28A_n71A DC_28A_n71A DC_8A_n71A DC_8A_n71A DC_40A_n28A DC_40A_n28A Table 1-2: Release 19 EN-DC of 1 LTE band (1DL/1UL) and 1 NR band (1DL/1UL) including FR2 DC combination Uplink EN-DC configuration Table 1-3: Release 19 NE-DC of 1 LTE band (1DL/1UL) and 1 NR band (1DL/1UL) within FR1 DC combination Uplink NE-DC configuration Table 1-4: Release 19 NE-DC of 1 LTE band (1DL/1UL) and 1 NR band (1DL/1UL) including FR2 DC combination Uplink NE-DC configuration
37.719-21-11	Rel-19 Dual Connectivity of EN-DC and NE-DC configurations consisting of 2 bands LTE inter-band CA (2DL/1UL) and 1 band NR (1DL/1UL), or consisting of 1 band LTE (1DL/1UL) and 2 bands NR inter-band CA (2DL/1UL)	TR	0.6.0	R4	https://www.3gpp.org/ftp/Specs/archive/37_series/37.719-21-11/37719-21-11-060.zip	The present document is a technical report for Dual Connectivity of EN-DC and NE-DC configurations consisting of 2 different bands downlink (DL) with 2 different bands uplink (UL) (1 LTE band and 1 NR band) under Rel-19 time frame. The present document is a technical report for Rel-19 Dual Connectivity of EN-DC and NE-DC configurations consisting of 2 bands LTE inter-band CA (2DL/1UL) and 1 NR band (1DL/1UL), or consisting of 1 band LTE (1DL/1UL) and 2 bands NR inter-band CA (2DL/1UL) under Rel-19 time frame. The purpose is to gather the relevant background information and studies to address DC band combinations consisting of 2 bands LTE inter-band CA (2DL/1UL) and 1 NR band (1DL/1UL), or consisting of 1 band LTE (1DL/1UL) and 2 bands NR inter-band CA (2DL/1UL) in Rel-19 as shown in Table 1-1. Table 1-1: Release 19 Dual Connectivity band combination of LTE xDL/1UL and NR yDL/1UL (x>0, y>0, x+y=3) Combination LTE Bands Combinations(x>0, x+y=3) NR y Bands Combinations (y>0, x+y=3) LTE 1 Band Band X NR 2 Bands CA_nY-nZ LTE 2 Bands CA_W-X NR 1 Band Band nY This TR contains a general part and band-specific combination part. The actual requirements are added to the corresponding technical specifications.
37.862	Rel-19 adding channel bandwidth support to existing NR bands	TR	0.2.0	R4	https://www.3gpp.org/ftp/Specs/archive/37_series/37.862/37862-020.zip	This clause shall start on a new page. The present document is a technical report on adding channel bandwidth in existing NR bands under Rel-19 time frame. The purpose is to gather the relevant background information and studies in order to address the addition of channel bandwidth support in existing NR bands as listed in Table 1-1. Table 1-1: Added channel bandwidth(s) in NR bands during Rel-19 time frame Band Channel bandwidth and SCS n48 50 MHz (15, 30 and 60kHz SCS) 60, 70, 80, 90, 100 MHz (30 and 60 kHz SCS) n80 35, 45, 50 MHz (15, 30 and 60kHz SCS) n84 45 MHz (15, 30 and 60kHz SCS)
37.890	Feasibility Study on 6 GHz for LTE and NR in Licensed and Unlicensed Operations	TR	19.1.0	RP	https://www.3gpp.org/ftp/Specs/archive/37_series/37.890/37890-j10.zip	The present technical report documents the regulatory aspects for the frequency range 5.925-7.125 GHz in different regions for both unlicensed and licensed operations.
37.887	Rel-19 downlink interruption for NR and EN-DC band combinations at dynamic Tx Switching in Uplink	TR	1.0.0	R4	https://www.3gpp.org/ftp/Specs/archive/37_series/37.887/37887-100.zip	The present document is a technical report for WI “Rel-19 downlink interruption for NR and EN-DC band combinations at dynamic Tx Switching in Uplink” under Rel-19 timeframe. The purpose is to gather the relevant background information and studies in order to address the band combinations requested for mandating no DL interruption to conduct dynamic Tx switching in uplink listed in Table 1-1. Table 1-1: Band combinations requested for mandating no DL interruption Configuration Uplink band CA_n1-n5-n78 n1, n5, n78 CA_n3-n5-n78 n3, n5, n78 CA_n1-n3-n5-n78 n1, n3, n5, n78

33.127

Lawful Interception (LI) architecture and functions

TS

19.3.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.127/33127-j30.zip

The present document specifies both the architectural and functional system requirements for Lawful Interception (LI) in 3GPP networks. The present document provides an LI architecture supporting both network layer based and service layer based Interception. National regulations determine the specific set of LI functional capabilities that are applicable to a specific 3GPP operator deployment.

33.128

Security; Protocol and procedures for Lawful Interception (LI); Stage 3

TS

19.3.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.128/33128-j30.zip

The present document specifies the protocols and procedures required to perform Lawful Interception within a 3GPP network. The present document addresses both internal interfaces used internally with a 3GPP network and external handover interfaces used to handover intercepted communications to law enforcement. The present document describes the detailed targeting of communications in each point of interception within a 3GPP network and the information that a point of interception needs to be able to capture. Furthermore, the detailed data formats for both the internal and external interfaces are also defined. National regulations determine the applicable set of information that needs to be handed over or excluded from handover to law enforcement for a given 3GPP operator service.

33.180

Security of the Mission Critical (MC) service

TS

19.2.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.180/33180-j20.zip

The present document specifies the security architecture, procedures and information flows needed to protect the mission critical service (MCX). The architecture includes mechanisms to protect the Common Functional Architecture and security mechanisms for mission critical applications. This includes Push-To-Talk (MCPTT), Video (MCVideo) and Data (MCData). Additionally, security mechanisms relating to on-network use, off-network use, roaming, migration, interconnection, interworking and multiple security domains are described. This specification complements the Common Functional Architecture defined in TS 23.280 [36], the functional architecture for MCPTT defined in 3GPP TS 23.379 [2], the functional architecture for MCVideo defined in TS 23.281 [37], the functional architecture for MCData defined in TS 23.282 [38] and mission critical services using 5GS in TS 23.289 [54]. The MC service can be used for public safety applications and also for general commercial applications e.g. utility companies and railways. As the security model is based on the public safety environment, some MC security features may not be applicable for commercial purposes.

33.203

3G security; Access security for IP-based services

TS

19.1.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.203/33203-j10.zip

The scope for this technical specification is to specify the security features and mechanisms for secure access to the IM subsystem (IMS) for the 3G mobile telecommunication system. Since the scope also encompasses the use of these security features and mechanisms for secure access to IMS in the context of fixed broadband networks and 3GPP2 networks, Annex L and Annex S specify how the material in the main body and other normative Annexes of this document apply to the fixed broadband networks and 3GPP2 networks respectively. The IMS supports IP Multimedia applications such as video, audio and multimedia conferences. SIP, Session Initiation Protocol, was chosen as the signalling protocol for creating and terminating Multimedia sessions, cf. RFC 3261 [6]. This specification only deals with how the SIP signalling is protected between the subscriber and the IMS, how the subscriber is authenticated and how the subscriber authenticates the IMS.

33.210

Network Domain Security (NDS); IP network layer security

TS

19.1.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.210/33210-j10.zip

The present document defines the security architecture for network domain IP based control planes, which shall be applied to NDS/IP-networks (i.e. 3GPP and fixed broadband networks). The scope of network domain control plane security is to cover the control signalling on selected interfaces between network elements of NDS/IP networks. . The present document furthermore serves as a central repository for cryptographic profiles for security above IP layer.

33.216

Security Assurance Specification (SCAS) for the evolved Node B (eNB) network product class

TS

19.1.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.216/33216-j10.zip

The present document contains objectives, requirements and test cases that are specific to the eNB network product class. It refers to the Catalogue of General Security Assurance Requirements and formulates specific adaptions of the requirements and test cases given there, as well as specifying requirements and test cases unique to the eNB network product class.

33.246

3G Security; Security of Multimedia Broadcast/Multicast Service (MBMS)

TS

19.0.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.246/33246-j00.zip

The Technical Specification covers the security procedures of the Multimedia Broadcast/Multicast Service (MBMS) for 3GPP systems (UTRAN, GERAN and E-UTRAN). MBMS is a 3GPP system network bearer service over which many different applications could be carried. The actual method of protection may vary depending on the type of MBMS application.

33.250

Security assurance specification for the PGW network product class

TS

19.0.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.250/33250-j00.zip

The present document contains requirements and test cases that are specific to the PGW network product class. It refers to the Catalogue of General Security Assurance Requirements and formulates specific adaptions of the requirements and test cases given there, as well as specifying requirements and test cases unique to the PGW network product class.

33.256

Security aspects of Uncrewed Aerial Systems (UAS)

TS

19.1.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.256/33256-j10.zip

The present document specifies the security features in support of the architecture enhancements for supporting Uncrewed Aerial Systems (UAS) connectivity, identification, tracking and pairing authorization defined in TS 23.256 [3], according to the use cases and service requirements defined in TS 22.125 [6].

33.310

Network Domain Security (NDS); Authentication Framework (AF)

TS

19.4.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.310/33310-j40.zip

The scope of this Technical Specification is limited to authentication of network elements, which are using NDS/IP or TLS, and to Certificate Enrolment for Base Stations as described in the present document. In the case of NDS/IP this specification includes both the authentication of Security Gateways (SEG) at the corresponding Za-interfaces and the authentication between NEs and between NEs and SEGs at the Zb-interface. Authentication of end entities (i.e. NEs and SEGs) in the intra-operator domain is considered an internal issue for operators. This is quite much in line with [1] which states that only Za is mandatory and that the security domain operator can decide if the Zb-interface is deployed or not, as the Zb-interface is optional for implementation. Validity of certificates may be restricted to the operator's domain in case of Zb interface or in case of Za-interface between two security domains of the same operator. NOTE: In case two SEGs interconnect separate network regions under a single administrative authority (e.g. owned by the same mobile operator) then the Za-interface is not subject to interconnect agreements, but the decision on applying Za-interface is left to operators. The NDS architecture for IP-based protocols is illustrated in figure 1. Figure 1: NDS architecture for IP-based protocols [1] In the case of TLS this Specification concentrates on authentication of TLS entities across inter-operator links. For example, TLS is specified for inter-operator communications between IMS and non-IMS networks TS 33.203 [9] and on the Zn' interface in GBA TS 33.220 [10]. Authentication of TLS entities across intra-operator links is considered an internal issue for operators. However, NDS/AF can easily be adapted to the intra-operator use case since it is just a simplification of the inter-operator case when all TLS NEs and the PKI infrastructure belong to the same operator. Validity of certificates may be restricted to the operator's domain. An Annex contains information on the manual handling of TLS certificates in case automatic enrolment and revocation according to NDS/AF for TLS is not implemented.

33.328

IP Multimedia Subsystem (IMS) media plane security

TS

19.0.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.328/33328-j00.zip

The present document presents IMS media plane security for RTP and MSRP based media, IMS data channels (i.e., SCTP over DTLS) as well as security for BFCP as used in IMS conferencing. The security mechanisms are designed to meet the following three main objectives: 1) to provide security for media usable across all access networks 2) to provide an end-to-end (e2e) media security solution for RTP and data channel-based media to satisfy major user categories 3) to provide end-to-end (e2e) media security for important user groups like enterprises, National Security and Public Safety (NSPS) organizations and different government authorities who may have weaker trust in the inherent IMS security and/or may desire to provide their own key management service. The media plane security for RTP based media is based on the well-established protocol SRTP. Key management solutions for SRTP are defined in this specification. The media plane security for MSRP, used in session-based messaging, is based on TLS. TLS is also used to protect BFCP. Key management solutions for MSRP and BFCP security are defined in the present document. The media plane security for IMS data channels, i.e., SCTP over DTLS, is based on DTLS. Two normative Annexes to the present document address IMS media plane security for immediate messaging and conferencing, respectively. The media plane security for session-based messaging is addressed in the main body of this specification.

33.369

Security aspects of ambient IoT services in 5G

TS

0.2.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.369/33369-020.zip

The present document specifies the security and privacy aspects of AIoT services in the 5G System (5GS), complying to the requirements in TS 22.369 [4], applicable to the AIoT Device types, traffic types, use cases and connectivity topologies defined in TS 38.300 [3], and based on the architecture defined in TS 23.369 [2]. Security features for AIoT services include: 1. Network Layer Authentication between AIoT device and 5G core a. AIoTF is the endpoint in the 5G core b. Credentials are securely stored in the ADM on the network side NOTE 1: The credentials are assumed to be stored in a secure environment in the ADM. How this is realized is left to implementation. The requirements will reflect this. c. Secure storage and processing of credentials in the AIoT device. NOTE 2: For SNPN deployment the storage of the credentials of non-AKA based methods is out of scope as described in TS 33.501[5] Annex I 2.2. d. Security aspects of the storage of the credentials at the ADM 2. Confidentiality, anti-replay and integrity protection of information during AIoT service communication 3. Privacy of AIoT device identifiers using the AIoT Temp ID. 4. Security to protect the permanent disabling RF transmission capabilities of AIoT device(s). Editor’s Note: Further refinement is FFS.

33.401

3GPP System Architecture Evolution (SAE); Security architecture

TS

19.0.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.401/33401-j00.zip

The present document specifies the security architecture, i.e., the security features and the security mechanisms for the Evolved Packet System and the Evolved Packet Core, and the security procedures performed within the evolved Packet System (EPS) including the Evolved Packet Core (EPC) and the Evolved UTRAN (E-UTRAN).

33.434

Security aspects of Service Enabler Architecture Layer (SEAL) for verticals

TS

19.0.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.434/33434-j00.zip

The present document specifies the security features and mechanisms to support the Service Enabler Architecture Layer (SEAL) in 5G. Specifically security architecture, functional model(s), security aspects of SEAL reference points (e.g. SEAL-UU, etc.), Key Management (KM) procedures, Identity Management (IdM) procedures and SEAL access authentication and authorization for supporting efficient use and deployment of vertical applications over the 3GPP systems are specified.

33.501

Security architecture and procedures for 5G System

TS

19.3.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.501/33501-j30.zip

The present document specifies the security architecture, i.e., the security features and the security mechanisms for the 5G System and the 5G Core, and the security procedures performed within the 5G System including the 5G Core and the 5G New Radio.

33.503

Security Aspects of Proximity based Services (ProSe) in the 5G System (5GS)

TS

19.1.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.503/33503-j10.zip

The present document specifies the security and privacy aspects of the Proximity based Services (ProSe) in the 5G System (5GS). 5G ProSe security features include: 5G ProSe Direct Discovery security, 5G ProSe Direct communication security, 5G ProSe UE-to-Network Relay security, 5G ProSe UE-to-UE Relay security and security of emergency services for 5G ProSe Remote UE via 5G ProSe UE-to-Network Relay. The 5G ProSe UE-to-Network Relay security includes the security aspects for single-hop and multi-hop scenarios for both Layer-2 and Layer-3 5G ProSe UE-to-Network Relay. The 5G ProSe UE-to-UE Relay security includes the security aspect of single-hop secenario for both Layer-2 and Layer-3 5G ProSe UE-to-UE Relay, and security aspect of Layer-3 multi-hop 5G ProSe UE-to-UE Relay scenario.

33.511

Security Assurance Specification (SCAS) for the next generation Node B (gNodeB) network product class

TS

19.2.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.511/33511-j20.zip

The present document contains objectives, requirements and test cases that are specific to the gNB network product class. It refers to the Catalogue of General Security Assurance Requirements and formulates specific adaptions of the requirements and test cases given there, as well as specifying requirements and test cases unique to the gNB network product class. NOTE: Test cases for the split gNB product classes are specified in TS 33.523 [9].

33.512

5G Security Assurance Specification (SCAS); Access and Mobility management Function (AMF)

TS

19.0.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.512/33512-j00.zip

The present document contains objectives, requirements and test cases that are specific to the AMF network product class. It refers to the Catalogue of General Security Assurance Requirements and formulates specific adaptions of the requirements and test cases given there, as well as specifying requirements and test cases unique to the AMF network product class.

33.513

5G Security Assurance Specification (SCAS); User Plane Function (UPF)

TS

19.0.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.513/33513-j00.zip

The present document contains requirements and test cases that are specific to the UPF network product class. It refers to the Catalogue of General Security Assurance Requirements and formulates specific adaptions of the requirements and test cases. It also specifies the requirements and test cases unique to the UPF network product class.

33.514

5G Security Assurance Specification (SCAS) for the Unified Data Management (UDM) network product class

TS

19.1.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.514/33514-j10.zip

The present document contains requirements and test cases that are specific to the UDM network product class. It refers to the Catalogue of General Security Assurance Requirements and formulates specific adaptions of the requirements and test cases. It also specifies the requirements and test cases unique to the UDM network product class.

33.515

5G Security Assurance Specification (SCAS) for the Session Management Function (SMF) network product class

TS

19.0.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.515/33515-j00.zip

The present document contains requirements and test cases that are specific to the SMF network product class. It refers to the Catalogue of General Security Assurance Requirements and formulates specific adaptions of the requirements and test cases given there, as well as specifying requirements and test cases unique to the SMF network product class.

33.517

5G Security Assurance Specification (SCAS) for the Security Edge Protection Proxy (SEPP) network product class

TS

19.0.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.517/33517-j00.zip

The present document contains objectives, requirements and test cases that are specific to the SEPP network product class. It refers to the Catalogue of General Security Assurance Requirements and formulates specific adaptions of the requirements and test cases given there, as well as specifying requirements and test cases unique to the SEPP network product class.

33.518

5G Security Assurance Specification (SCAS) for the Network Repository Function (NRF) network product class

TS

19.0.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.518/33518-j00.zip

The present document contains objectives, requirements and test cases that are specific to the NRF network product class. It refers to the Catalogue of General Security Assurance Requirements and formulates specific adaptions of the requirements and test cases given there, as well as specifying requirements and test cases unique to the NRF network product class.

33.523

5G Security Assurance Specification (SCAS); Split gNB product classes

TS

19.2.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.523/33523-j20.zip

The gNB can be deployed as more than one entity by splitting the gNB into gNB-CU and gNB-DU(s) and possibly further splitting the gNB-CU into gNB-CU-CP and gNB-CU-UP(s) (see TS 38.401 [5]). The present document contains objectives, requirements and test cases that are specific to the various split gNB network product classes. Test cases for such deployments are provided, are based upon and borrow heavily from the specification for the gNB product class (see TS 33.511 [6]). The main differences are the inclusion of cases for the F1 signalling and user plane connection and the E1 signalling connection on the top of the gNB cases as well as some revised cases to account for the split functionality. The present document also refers to the Catalogue of General Security Assurance Requirements (see TS 33.117 [2]) and formulates specific adaptions of the requirements and test cases given there, as well as specifying requirements and test cases unique to the various split gNB network product class.

33.527

Security Assurance Specification (SCAS) for 3GPP virtualized network products

TS

19.0.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.527/33527-j00.zip

The present document contains objectives, requirements and test cases to virtualized network product classes. Several virtualized network product classes share very similar if not identical security requirements for some aspects. Therefore, these are collected in the present document applicable to many virtualized network product classes. In addition to this catalogue, requirements specific to different network product classes will be captured in separate documents.

33.529

Security Assurance Specification (SCAS) for the Short Message Service Function (SMSF) network product class

TS

19.1.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.529/33529-j10.zip

The present document contains objectives, security assurance requirements and test cases specific to the SMSF network product class. It refers to the Catalogue of General Security Assurance Requirements. It formulates specific adaptations of the requirements and test cases given in the catalogue. It also specifies requirements derived from other technical specifications and test cases unique to the SMSF network product class.

33.530

Security Assurance Specification (SCAS) for the Unified Data Repository (UDR)

TS

19.0.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.530/33530-j00.zip

The present document contains requirements and test cases that are specific to the UDR network product class. It refers to the Catalogue of General Security Assurance Requirements [2] and formulates specific adaptions of the requirements and test cases given there, as well as specifying requirements and test cases unique to the UDR network product class.

33.537

Security Assurance Specification (SCAS) for the Authentication and Key Management for Applications (AKMA) Anchor Function (AAnF)

TS

19.0.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.537/33537-j00.zip

The present document contains requirements and test cases that are specific to the AAnF network product class. It refers to the Catalogue of General Security Assurance Requirements and formulates specific adaptions of the requirements and test cases given there, as well as specifying requirements and test cases unique to the AAnF network product class.

33.545

Security aspects of NR Femto

TS

19.1.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.545/33545-j10.zip

The present document specifies the security architecture for NR Femto subsystem. This includes security requirements on NR Femto, and other NR Femto associated network nodes (e.g. SeGW and NR Femto MS), as well as the procedures and features which are provided to meet those requirements.

33.558

Security aspects of enhancement of support for enabling edge applications

TS

19.0.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.558/33558-j00.zip

The present document specifies the security features and mechanisms to support the application architecture for enabling Edge Applications in 5G, i.e. security for the interfaces, procedures for the authentication and authorization between the entities of the application architecture, and procedures for the EES capability exposure.

33.700-22

Study on security aspects of Common API Framework (CAPIF) Phase3

TR

19.1.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.700-22/33700-22-j10.zip

The present document investigates the security and privacy impacts of the procedures introduced in the study on CAPIF Phase 3. Specifically, it covers the following: - Resource owner authorization management - CAPIF interconnection security - Authorizing API invoker on one UE accessing resources related to another UE - Nested API invocation - Authentication and authorization of multiple API invokers Note: More security and privacy aspects are up to the study progress in SA6.

33.700-29

Study on security aspects of 5G satellite access in the 5G architecture phase 3

TR

19.1.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.700-29/33700-29-j10.zip

The present document studies the security and privacy aspects of 5G satellite access phase 3. It is comprised of the following parts: - Identify and study the security and privacy key issues of the regenerative payload generic architecture in 5GS/EPS. - Identify and study the security and privacy key issues of the Store and Forward (S&F) Satellite operation both for NR NTN (5GS) and for IoT NTN (EPS). - Identify and study the security and privacy key issues of UE-Satellite-UE communication enhancements for 5GS. - The impact on regulatory services in the context of 5G satellite access. In particular, the assessment of the potential impact to lawful intercept in regenerative, Store and Forward (S&F), and UE-satellite-UE communication enhancement architecture.

33.700-32

Study on security aspects of user identities and authentication

TR

19.1.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.700-32/33700-32-j10.zip

The present document studies the security and privacy aspects for the creation and usage of user identities as studied in 3GPP TR 23.700-32 [2], with the following focus: 1) Study authentication and authorization of: a) a user identifier associated with a subscription and used on a UE (i.e., human user) and b) an identifier associated with a non-3GPP device behind a UE or 5G-RG. 2) Study privacy and security impacts of usage of user identifiers associated with a subscription or with a non-3GPP device behind a UE or 5G-RG, including exposure of user profile related information.

33.700-41

Study on enabling a cryptographic algorithm transition to 256bits

TR

19.0.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.700-41/33700-41-j00.zip

The present document aims to address key requirements for introducing support for 256-bit symmetric algorithms into the 5G System as well as the coexistence of 128-bit and 256-bit cryptographic algorithms. Considering findings and conclusions from preceding work, the following points should be addressed as part of the present document: Studying key issues and candidate solutions concerning the negotiation (selection) of key sizes between UE and network, including: - Potential risks and impacts to the current system when supporting both 128-bit and 256-bit algorithms in parallel and the adoption of 256-bit algorithms in existing deployments where 128 bits is already supported, e.g. handover scenarios within 5G system. - How to prioritise the use of 256-bit algorithms and mitigate bidding-down attacks when negotiating key sizes. - How to ensure 256-bit security is achieved concerning varying levels of support for 256-bit algorithms by different UEs and within the network; potential dependencies in key-length selection of AS and NAS layers. - Study the implications and requirements for the key hierarchies to support 256-bit cryptographic algorithms. - Study the implications and requirements to AKA procedures.

33.701

Study on mitigations against bidding down Attacks

TR

19.0.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.701/33701-j00.zip

The present document focuses on mitigating bidding down attack, i.e. how to prevent UEs that are currently connected to LTE/5G from establishing a connection with a GERAN/UTRAN FBS considering for example the decommissioning of GERAN and UTRAN networks. In particular, the present document aims at: - Identifying attack scenarios and threats in the context of decommissioning of GERAN and UTRAN networks, e.g. cell (re)selection or forced handovers on GERAN or UTRAN once LTE and 5G signalling are blocked when GERAN/UTRAN networks are decommissioned; and - Documenting solutions for the identified security threats and requirements.

33.702

Security for mobility over non-3GPP access to avoid full primary authentication

TR

19.0.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.702/33702-j00.zip

The following objectives are studied in the present document: - Study the security aspects and procedure enhancements needed to support UE connecting to a new target TNAP within the same TNGF without performing full primary authentication. - Study the security aspects and procedure enhancements needed to support AUN3 connecting to a new target RG under the same WAGF without performing full primary authentication. - Study the security aspects and procedure enhancements needed to support N5CW devices connecting to a new target Trusted WLAN AP within the same TWIF without performing full primary authentication. - Study the security aspects and procedure enhancements needed to support UE connecting to a new WLAN AP that shares the same NSWOF without performing full authentication. The present document does not cover actual mobility, where call/session continuity is maintained. I.e. when UE/device is moving from one AP/TNAP/TWAP to another, connectivity can break, and then UE will reconnect.

33.713

Study on security aspects of Ambient Internet of Things (AIoT) services in 5G

TR

1.0.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.713/33713-100.zip

The present document identifies potential threats and security requirements to enable AIoT services for various use cases. Consideration for the energy and complexity constraints of AIoT devices is taken into account in identifying and developing potential security mechanisms to support AIoT services. Specifically, the present document focuses on the following: 1. Identify security and privacy and threats introduced by AIoT services for use cases captured in TS 22.369 [2], for topologies captured in RP-234058[3], and for architecture captured in TR 23-700-13[4]. 2. Identify security requirements to address the identified threats. 3. Develop potential solutions that fulfil the security requirements, taking into account AIoT device constraints agreed upon in other 3GPP working groups. NOTE 1: Enable/disable device operation is within the scope of the present document. NOTE 2: In Release 19, the conclusion of present document focuses on security and privacy of AIoT device 1 and D1T1 with direct and indirect interface options.

33.721

Study on security aspects of 5G mobile metaverse services

TR

19.0.1

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.721/33721-j01.zip

The present document studies security impacts of the procedures introduced in Study on Application enablement architecture for mobile metaverse services studied in TR 23.700-21 [2], specifically, the security aspects that are to be covered in the present document are as follows: - authentication and authorization of digital identity (non-IMS based) NOTE: The term digital identity is defined in clause 3.1. - support security aspects of digital asset container - security and privacy aspects of user sensitive information for Localized Mobile Metaverse Services

33.727

Lawful Intercept Handling of Protected Services

TR

0.0.1

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.727/33727-001.zip

Offering communication services with end-to-end (E2E) cryptographic protection is becoming more desirable and more common. 3GPP-defined services (such as those of the IMS framework) have so far largely relied on trustworthy network infrastructure, complemented by strong cryptographic access security and hop-by-hop protection in the core and service domains. However, also here, E2E protected services are gaining attractivity. Indeed, the solution defined in TS 33.535, Authentication and Key Management for Applications based on 3GPP credentials in the 5G System (AKMA), can be leveraged as a basis for protecting basically any IP-based service provided to a UE (an ME with USIM-credentials). While this trend is both natural and desirable from a user privacy point of view, it creates problems related to regulatory obligations for CSPs to provide Lawful Interception (LI). The problems are particularly emphasised in roaming scenarios, where each of two different CSPs in distinct jurisdictions might independently need to provide LI without reliance on co-operation by the other CSP and/or law enforcement in the other jurisdiction. The currently dominant approach to tackle these issues has been to simply not activate the protection (encryption) when it potentially conflicts with LI requirements. Going forward, this is most likely not a sustainable solution. For example, it potentially exposes the traffic to any 3rd party and, moreover, it typically also results in data integrity being disabled, while the issues are predominantly tied to data confidentiality. The present document provides a technical study on how to enable protected services without negative consequences for LI. The CSP’s LI obligation to provide communication with the encryption removed only applies when the CSP also provides the technical means enabling the protection (e.g. key management), and therefore the scope is limited to that use case.

33.743

Study on Security Aspects of Enhancement for Proximity-based Services (ProSe) in the 5G System (5GS) phase 3

TR

19.0.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.743/33743-j00.zip

The present document investigates and identifies the security (including privacy) threats, corresponding security (including privacy) requirements and potential solutions for Proximity Based Services (ProSe) in 5G System (5GS) phase 3, based on the architecture and system level enhancements studied in TR 23.700-03 [1], including - ProSe multi-hop UE-to-Network Relay (both Layer-2 and Layer-3 Relays). - ProSe multi-hop UE-to-UE Relay (Layer-3 Relay only).

33.745

Study on security aspects of 5G Next Radio (NR) Femto

TR

19.1.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.745/33745-j10.zip

The present document studies the potential security enhancements for supporting 5G NR Femto. More specifically, the study investigates potential security enhancements in the following areas: - With the gap analysis, study the potential updates or enhancements needed for 5G NR Femto over TS 33.320[2]. - Study the security impacts for interworking between CAG and CSG cells. - Study the security impacts of enabling provisioning of subscribers allowed to access 5G NR Femto cells and how to manage 5G NR Femto access control by the Closed Access Group (CAG) owner or an authorized administrator.

33.749

Study on security aspects of enhancement of support for edge computing in the 5G Core (5GC) phase 3

TR

19.0.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.749/33749-j00.zip

The present document studies the security enhancements on the support for Edge Computing in the 5G Core network defined in TR 23.700-49 [2], and enhanced architecture for enabling Edge Applications defined in TS 23.558 [3]. Specifically, the present document focuses on the following: 1) Study the security aspects on the enhancements for EAS (re)discovery and UPF (re)selection with reducing impact on central 5GC NFs, enhancement of EAS and local UPF (re)selection, and EC Traffic Routing between local part of DN and central part of DN the Edge Hosting Environment information management. 2) Study the security on the enhancements to Edge Enabler layer (EEL) to support additional scenarios for edge services. 3) Study the authorization between EESes for both Application Context Relocation (ACR) and Edge Node Sharing (ENS) scenarios. 4) Study the secure retrieval of 5G system UE Ids and privacy related information in the EDGE. The study is based on the work done in the TS 33.558 [4], TR 33.839 [5], TR 33.739 [6].

33.754

Study on security aspects for multi-access(DualSteer +Access Traffic Steering, Switch and Splitting support in the 5G system architecture phase 4 (ATSSS Ph-4)

TR

19.0.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.754/33754-j00.zip

The present document aims to address the security aspects of Multi-Access, focusing on DualSteer devices and ATSSS Phase 4 (ATSSS Ph-4) enhancements, as identified in the FS_MASSS study in TR 23.700-54 [2]. The scope of this study includes the following key areas: - Examine the security implications of a simplified architecture over non-3GPP access, where non-3GPP access does not rely on the current TNGF/N3IWF architecture. This involves assessing: - Whether to keep NAS security context on non-3GPP access. - Whether to keep IPsec on the user plane and/or control plane of non-3GPP access. - Whether new security mechanisms are to be considered in UE procedures, particularly regarding registration and connectivity to the 5G system in the context of ATSSS between 3GPP and non-3GPP access without 5G NAS. The present document leverages insights from the requirements and architectural considerations outlined in the TR 23.700-54 [2].

33.757

Study on security for a PLMN hosting a Non-Public Network (NPN)

TR

19.0.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.757/33757-j00.zip

The present document studies the security when a PLMN hosts an NPN with dedicated NFs deployed in the customer domain. A NPN customer may deploy on-premises NFs, or hosted NFs which reside in third-party premises, or both. A PLMN hosting an NPN is an example of a Public Network Integrated NPN (PNI-NPN). The term PNI-NPN applies to this study of a PLMN hosting an NPN. More specifically, the present document: - identifies key issues and potential security requirements for the scenarios of PLMN hosting an NPN with dedicated NFs deployed in the customer domain. Related dedicated NFs may be described in the key issues. - when necessary, develops solutions to address the identified requirements.

33.759

Study on security enhancements of Uncrewed Aerial Systems (UAS) Phase 3

TR

19.0.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.759/33759-j00.zip

The present document identifies potential security and privacy issues and provides potential security solutions to support additional scenarios and requirements for UAV (Uncrewed Aerial Vehicle) and UAM (Urban Air Mobility) including: - identify potential security issues and provide solutions for the enhanced NEF services to support service exposure and interactions between MNOs and UTM functions, e.g. security impact of supporting multiple USS. - identify potential security and privacy issues related to network-assisted/ground-based mechanism for DAA (Detect And Avoid). - identify potential security and privacy issues related to no-transmit zones for UAVs Furthermore, the present document makes potential recommendations for possible normative work taking into consideration the conclusions of TR 23.700-59 [2].

33.766

Study on security aspects of energy savings in 5G

TR

19.0.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.766/33766-j00.zip

The present document studies the security and privacy aspects of energy savings. More especially the document: - Identifies key issues concerning the privacy and security aspects of collecting energy related information. - Identifies key issues concerning the privacy and security impacts of exposure of energy related information. - If required, develops solutions addressing the identified key issues.

33.776

Study of Automatic Certificate Management Environment (ACME) for the Service Based Architecture (SBA)

TR

19.0.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.776/33776-j00.zip

The scope of this document is to identify key issues and study solutions addressed using ACME for automated certificate management in SBA. Areas of study include: - Automated certificate management protocol and procedures for certificate life cycle events (i.e., enrolment, renewal, and revocation) within 5G SBA (i.e., to be used by operator CAs and all 5GC NFs including NRF, SCP, SEPP, etc.), including the following: - ACME transport and request/response messages for 5G SBA use cases - ACME certificate profiles for all 5G SBA entities - Mechanisms for establishing initial trust and chain of trust of Certificate Authority hierarchies, including the following: - Existing ACME challenge types and if any new challenge types are needed for 3GPP use cases: - Creation, deletion, rotation, revocation and storage of the certificates - Ability to automate ACME challenge validation - Suitability of existing mechanisms when 5G SBA is for standalone NPN (SNPN) - Call flow of the messages exchanged between different entities in the chain of trust. NOTE: Certificate management for the external interface of the SEPP is out of scope.

33.784

Study on security aspects of core network enhanced support for Artificial Intelligence/Machine Learning (AI/ML)

TR

19.0.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.784/33784-j00.zip

The present document studies the security aspects of enablers for network automation for the 5G system based on the outcome of TR 38.843[2] and TR 23.700-84[3]. More specifically, this document identifies security issues and requirements and provides corresponding security solutions related to the following scenarios: - Security aspects on enhancements to LCS to support AI/ML based Positioning considering the conclusions in TR 38.843[2] and TR 23.700-84[3]. - Security aspects of cross-domain (i.e. 5G Core and AF) Vertical Federated Learning, including authorization of members of the VFL group and security aspects of enhancements on the architecture in TR 23.700-84 [3] to support VFL.

33.790

Study on the security support for the next generation real time communication services phase 2

TR

19.0.1

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.790/33790-j01.zip

The present document studies security impacts of the new features of the next generation real time communication studied in TR 23.700-77 [2], specifically, the security aspects that are to be covered in the present document are as follows: - IMS third party identity security handling. - The security handling of the enhancements to support the use cases of IMS based Metaverse services. - The security and privacy issues and solutions related to the IMS data channel exposure.

33.794

Study on enablers for Zero Trust Security

TR

19.1.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.794/33794-j10.zip

The present document studies enablers for Zero-Trust Security in the 5G System. The document specifically includes security analysis with recommendations, key issues, potential security requirements and solutions with respect to the following objectives: 1. Data exposure for security evaluation and monitoring - Identify potential threats and attacks on the 5G SBA layer intended to identify which data may be relevant to be exposed, and whether additional data exposure is necessary to detect the threats and attacks. NOTE 1: The external security evaluation and monitoring is up to operator’s implementation and outside the 3GPP domain. The aspects to enable OAM based data collection are not in scope of the present document. The necessary adaptations specific to exposure services for providing data to the external security function. 2. Security mechanism for dynamic policy enforcement

33.926

Security Assurance Specification (SCAS) threats and critical assets in 3GPP network product classes

TR

19.4.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.926/33926-j40.zip

The present document captures the network product class descriptions, threats and critical assets that have been identified in the course of the work on 3GPP security assurance specifications. The main body of the present document contains generic aspects that are believed to apply to more than one network product class, while Annexes cover the aspects specific to one network product class.

33.928

ADMF logic for provisioning Lawful Interception (LI)

TR

19.0.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.928/33928-j00.zip

The present document provides ADMF provisioning logic for LI in association with the LI functions defined in TS 33.126 [2], TS 33.127 [3] and TS 33.128 [4].

33.929-1

Lawful Interception (LI) implementation guidance; LI for IMS based services

TR

0.0.1

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.929-1/33929-1-001.zip

The present document provides architectural diagrams, conceptual scenarios, flow-diagrams, examples, and other background information which can be useful to implement the LI functions defined in TS 33.126 [2], TS 33.127 [3] and TS 33.128 [4]. The present document covers the LI for IMS based services that focus on illustrating the LI aspects of session-based IMS sessions which include the architecture topologies and the call flows covering basic sessions, redirected sessions, target non-local ID, conferencing, roaming (Local Breakout and Home-routed) scenarios. The IMS based STIR/SHAKEN related LI reporting are illustrated in TR 33.929-2 [10]. The LI for IMS-based services is agnostic to the packet core network.

33.929-2

Lawful Interception (LI) implementation guidance; LI for IMS based STIR/SHAKEN

TR

0.0.1

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.929-2/33929-2-001.zip

The present document provides architectural diagrams, conceptual scenarios, flow-diagrams, examples, and other background information which can be useful to implement the LI functions defined in TS 33.126 [2], TS 33.127 [3] and TS 33.128 [4]. The present document covers the LI for IMS based STIR/SHAKEN that focus on illustrating various STIR/SHAKEN related LI reporting scenarios that go along with the LI for IMS based services (TR 33.929-1 [10]).

33.929-3

Lawful Interception (LI) implementation guidance; LI for messaging services

TR

0.0.1

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.929-3/33929-3-001.zip

The present document provides architectural diagrams, conceptual scenarios, flow-diagrams, examples, and other background information which can be useful to implement the LI functions defined in TS 33.126 [2], TS 33.127 [3] and TS 33.128 [4]. The present document covers the illustrations related LI for Messaging Services that include SMS over NAS and SMS over IP.

33.929-4

Lawful Interception (LI) implementation guidance; LI for data in 5G core

TR

0.0.2

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.929-4/33929-4-002.zip

The present document provides architectural diagrams, conceptual scenarios, flow-diagrams, examples, and other background information which can be useful to implement the LI functions defined in TS 33.126 [2], TS 33.127 [3], TS 33.128 [4] and TR 33.928 [5]. The present document that covers the illustrations for LI for Data in 5G Core include the LI aspects of data interception focussing on the PDU session related events including the handover cases.

33.929-5

Lawful Interception (LI) implementation guidance; LI for ID association caching

TR

0.0.2

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.929-5/33929-5-002.zip

The present document provides architectural diagrams, conceptual scenarios, flow-diagrams, examples, and other background information which can be useful to implement the LI functions defined in TS 33.126 [2], TS 33.127 [3], TS 33.128 [4] and TR 33.928 [5]. The present document that covers illustrations of ID Association Caching focus on the capabilities used to provide the temporary identity to permanent identity (and vice-versa) associations known to the CSP network. The illustrations include the architectural concepts and few examples of use-cases encountering various timing scenarios.

33.929-6

Lawful Interception (LI) implementation guidance; LI for IMS based RCS

TR

0.0.2

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.929-6/33929-6-002.zip

The present document provides architectural diagrams, conceptual scenarios, flow-diagrams, examples, and other background information which can be useful to implement the LI functions defined in TS 33.126 [2], TS 33.127 [3] and TS 33.128 [4]. The present document covers the LI for IMS based RCS that include the illustrations covering the architecture topologies and the call flows when the RCS service is offered by the CSP or by a Third Party Provider. The LI for IMS based services are illustrated in TR 33.929-1 [10]. The LI for IMS-based RCS is agnostic to the packet core network.

33.929-7

Lawful Interception (LI) implementation guidance; LI location acquisition capabilities

TR

0.0.2

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.929-7/33929-7-002.zip

The present document provides architectural diagrams, conceptual scenarios, flow-diagrams, examples, and other background information which can be useful to implement the LI functions defined in TS 33.126 [2], TS 33.127 [3] and TS 33.128 [4]. The present document covers the LI for Location Services that include the illustrations covering the conceptual overview and the flow diagrams for location reporting, LALS and Location Acquisition.

33.929-8

Lawful Interception (LI) implementation guidance; LI for MMS

TR

0.0.2

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.929-8/33929-8-002.zip

The present document provides architectural diagrams, conceptual scenarios, flow-diagrams, examples, and other background information which can be useful to implement the LI functions defined in TS 33.126 [2], TS 33.127 [3] and TS 33.128 [4]. The present document covers the LI for MMS that include the illustrations covering the conceptual overview and the flow diagrams for MMS.

33.929-9

Lawful Interception (LI) implementation guidance; LI for PTC

TR

0.0.1

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.929-9/33929-9-001.zip

The present document provides architectural diagrams, conceptual scenarios, flow-diagrams, examples, and other background information which can be useful to implement the LI functions defined in TS 33.126 [2], TS 33.127 [3] and TS 33.128 [4]. The present document covers the LI for PTC that include the illustrations covering the conceptual overview and the flow diagrams for MCPTT and PoC commonly referred to as Push to Talk over Cellular.

33.938

3GPP Cryptographic Inventory

TR

19.0.0

S3

https://www.3gpp.org/ftp/Specs/archive/33_series/33.938/33938-j00.zip

The present document lists the security protocols that use cryptography in 3GPP specifications for the 5G System in the Standalone mode. They • include the type of cryptography used by the protocol (symmetric/asymmetric) • include the pointers to the protocol specification • include the pointers to the relevant 3GPP cryptographic profiles • include usage type (e.g., integrity, confidentiality, and/or authentication) NOTE: the present document does not include resolution to PQC migration, and does not contain solutions that lead to any specification/normative work.

34.229-1

Internet Protocol (IP) multimedia call control protocol based on Session Initiation Protocol (SIP) and Session Description Protocol (SDP); User Equipment (UE) conformance specification; Part 1: Protocol conformance specification

TS

19.1.0

R5

https://www.3gpp.org/ftp/Specs/archive/34_series/34.229-1/34229-1-j10.zip

The present document specifies the protocol conformance testing for the User Equipment (UE) supporting the Internet Protocol (IP) multimedia call control protocol based on Session Initiation Protocol (SIP) and Session Description Protocol (SDP). This is the first part of a multi-part test specification. The following information can be found in this part: - the overall test structure; - the test configurations; - the conformance requirement and reference to the core specifications; - the test purposes; and - a brief description of the test procedure, the specific test requirements and short message exchange table. The following information relevant to testing can be found in accompanying specifications: - the applicability of each test case [5]. A detailed description of the expected sequence of messages can be found in the 3rd part of present test specification [6]. The Implementation Conformance Statement (ICS) pro-forma can be found in the 2nd part of the present test specification [5]. The present document is valid for UE implemented according to 3GPP Releases starting from Release 5 up to the Release indicated on the cover page of the present document. Also, for clauses 8-18, 20 and 22, it is generally assumed that an IMS capable UE is compliant to GSMA PRD IR.92 [133] and GSMA PRD IR.94 [134]; any update of requirements in these GSMA PRD documents, which are relevant to the present document will be handled on a case by case basis, with due consideration given for grace period to be granted for the UE to comply to any updated requirements. Editor's Note: it is to be clarified if we need to elaborate on clauses 19 and 21 here. Test cases specified in Annexes G-K are targeted as indicated in their respective Scope sections.

34.229-2

Internet Protocol (IP) multimedia call control protocol based on Session Initiation Protocol (SIP) and Session Description Protocol (SDP); User Equipment (UE) conformance specification; Part 2: Implementation Conformance Statement (ICS) specification

TS

19.1.0

R5

https://www.3gpp.org/ftp/Specs/archive/34_series/34.229-2/34229-2-j10.zip

The present document provides the Implementation Conformance Statement (ICS) proforma for 3rd Generation User Equipment (UE) supporting the Internet Protocol (IP) multimedia call control protocol based on Session Initiation Protocol (SIP) and Session Description Protocol (SDP), in compliance with the relevant requirements, and in accordance with the relevant guidance given in ISO/IEC 9646-7 [8] and ETS 300 406 [9]. The present document also specifies a recommended applicability statement for the test cases included in TS 34.229-1 [5] and TS 34.229-5 [95]. These applicability statements are based on the features implemented in the UE. The present document is valid for UE implemented according to 3GPP releases starting from Release 5 up to the Release indicated on the cover page of the present document. Also, it is generally assumed that an IMS capable UE is compliant to at least one of the following GSMA PRD IR.92 [83], GSMA PRD IR.94 [75] or GSMA PRD NG.114 [99]: any update of requirements in these GSMA PRD documents, which are relevant to the present document will be handled on a case by case basis, with due consideration given for grace period and/or conditions to be granted for the UE to comply to any updated requirements.

34.229-3

Internet Protocol (IP) multimedia call control protocol based on Session Initiation Protocol (SIP) and Session Description Protocol (SDP); User Equipment (UE) conformance specification; Part 3: Abstract test suite (ATS)

TS

19.0.0

R5

https://www.3gpp.org/ftp/Specs/archive/34_series/34.229-3/34229-3-j00.zip

The present document specifies the protocol conformance testing in TTCN for the 3GPP User Equipment (UE) at the Gm interface. The present document is the 3rd part of a multi-part test specification, 3GPP TS 34.229. The following TTCN test specification and design considerations can be found in the present document: - the overall test suite structure; - the testing architecture; - the test methods and PCO definitions; - the test configurations; - the design principles, assumptions, and used interfaces to the TTCN tester (System Simulator); - TTCN styles and conventions; - the partial PIXIT proforma; - the TTCN files for the mentioned protocols tests. The Abstract Test Suites designed in the document are based on the test cases specified in prose (3GPP TS 34.229‑1 [5] and TS 34.229-5 [55]). The present document is valid for UE implemented according 3GPP Releases starting from Release 5 up to the Release indicated on the cover page of the present document.

34.229-5

Internet Protocol (IP) multimedia call control protocol based on Session Initiation Protocol (SIP) and Session Description Protocol (SDP); User Equipment (UE) conformance specification; Part 5: Protocol conformance specification using 5G System (5GS)

TS

19.1.0

R5

https://www.3gpp.org/ftp/Specs/archive/34_series/34.229-5/34229-5-j10.zip

The present document specifies the protocol conformance testing for the User Equipment (UE) supporting the Internet Protocol (IP) multimedia call control protocol based on Session Initiation Protocol (SIP) and Session Description Protocol (SDP) when using the 5G System (5GS). This is the fifth part of a multi-part test specification. The following information can be found in this part: - the overall test structure; - the test configurations; - the conformance requirement and reference to the core specifications; - the test purposes; and - the test procedure. The following information relevant to testing can be found in accompanying specifications: - Implementation Conformance Statement (ICS) pro-forma and the applicability of each test case [3]. The present document is valid for UE implemented according to 3GPP Releases starting from Release 15 up to the Release indicated on the cover page of the present document.

35.205

3G Security; Specification of the MILENAGE algorithm set: An example algorithm set for the 3GPP authentication and key generation functions f1, f1*, f2, f3, f4, f5 and f5*; Document 1: General

TS

19.0.0

S3

https://www.3gpp.org/ftp/Specs/archive/35_series/35.205/35205-j00.zip

This report is a description of the work undertaken by an ETSI SAGE Task Force on the design of the Milenage Algorithm Set: an example set of 3GPP Authentication and Key Generation Functions. The 3GPP Authentication and Key Generation Functions are not standardized. An example set of these algorithms has been produced on request from 3GPP with the intent that it shall be offered to the UMTS operators, to utilise instead of developing their own. An ETSI SAGE Task Force has carried out this work. The requirement specification from 3GPP stated that operator personalisation of the example set shall be possible and that the basic kernel shall be possible to replace. The example set is based on the block cipher Rijndael, which at the time was one of the AES candidates and the specification describes how the 7 algorithms used in 3GPP authentication and key generation are scheduled around this basic kernel. The specification and associated test data for the example algorithm set is documented in three documents: - A formal specification of both the modes and the example kernel [3] - A detailed test data document, covering modes and the example kernel [4] - A "black box" test data document [5] A detailed summary of the evaluation is provided in a public evaluation report [6] This report gives an overview of the overall work by the task force.

35.231

Specification of the TUAK algorithm set: A second example algorithm set for the 3GPP authentication and key generation functions f1, f1*, f2, f3, f4, f5 and f5*; Document 1: Algorithm specification

TS

19.0.0

S3

https://www.3gpp.org/ftp/Specs/archive/35_series/35.231/35231-j00.zip

The present document and the other Technical Specifications in the series, TS 35.232 [15] and 35.233 [16] contain an example set of algorithms which could be used as the authentication and key generation functions f1, f1*, f2, f3, f4, f5 and f5* for 3GPP systems. All seven functions are operator-specifiable rather than being fully standardised and other algorithms could be envisaged.

35.234

Specification of the MILENAGE-256 algorithm set; An example set of 256-bit 3GPP authentication and key generation functions f1, f1*, f2, f3, f4, f5, f5* and f5**; Document 1: General

TS

19.0.0

S3

https://www.3gpp.org/ftp/Specs/archive/35_series/35.234/35234-j00.zip

The present document contains a high level specification of the MILENAGE-256 algorithm set which constitutes an example set of 3GPP authentication and key generation functions with a 256-bit target security level. The example set is based on the block cipher Rijndael-256-256 with 256-bit key and 256-bit block size [8, 14] (recall that the 128 bit Advanced Encryption Standard, AES-128, corresponds to Rijndael-128-128 [8]). An optional-to-use function, f5**, was designed according to candidate solutions discussed in 3GPP SA3 [12], with the aim of countering certain replay attacks that can lead to traceability of subscribers [13]. When used, the optional function f5** replaces f5*. The specification and associated test data for the example algorithm set is documented in two documents: - A formal specification of the mode and the example kernel [2]. - A detailed test data document, covering mode and the example kernel [3]. A detailed summary of the evaluation is provided in a public evaluation report [4]. The present document provides an overview of the overall work.

35.235

Specification of the MILENAGE-256 algorithm set; An example set of 256-bit 3GPP authentication and key generation functions f1, f1*, f2, f3, f4, f5, f5* and f5**; Document 2: algorithm specification

TS

19.0.0

S3

https://www.3gpp.org/ftp/Specs/archive/35_series/35.235/35235-j00.zip

This document contains a detailed specification of the general framework for the MILENAGE-256 algorithm set, together with specification for the cryptographic kernel used to instantiate the algorithm set. The main new requirement for the MILENAGE-256 algorithm set, compared to previous 3GPP authentication and key generation functions, is to provide a 256-bit target security level, mainly motivated by future proofing 3GPP networks in case larger scale quantum computers become practical in the future. While this level of security can already be provided by the previously defined TUAK algorithm set [10], having another algorithm set, based on a different cryptographic kernel, provides a fallback, in case of future advances in conventional (non-quantum-computing based) cryptanalysis of the hash-function Keccak, the kernel used in TUAK. The framework for MILENAGE-256 largely mirrors that of the previously defined MILENAGE algorithm set [9], but with a few important differences as discussed later in the present document. In terms of the cryptographic kernel, MILENAGE-256 requires the use of a kernel mapping 256-bit inputs to 256-bit outputs, under the control of a 256-bit secret key. The present document provides kernel based on direct use of the Rijndael-256-256 block cipher with 256-bit block and key size. The reader may recall that Rijndael was the candidate algorithm selected by NIST as the Advanced Encryption Standard, though the option to use a 256-bit block size was not adopted as part of the NIST AES requirements [5]. The algorithm set is named MILENAGE-256 since the intention is to provide full 256-bit security, which requires the use of 256-bit keys. Nonetheless MILENAGE-256 supports both 128-bit and 256-bit keys, to facilitate the transition to 256-bit security. If MILENAGE-256 is employed in a context containing components that do not yet support 256-bit keys, 128-bit keys can initially be employed, though it is recommended that the implementation supports a mechanism for transitioning to 256-bit keys in the future. Associated test data for the MILENAGE-256 example algorithm set appears in a partner document comprising detailed test data, covering modes and the example kernel, and general design conformance test data [3]. Provisions are further made so that operators who so desire can customise the algorithm set to different degrees, providing some level of separation/isolation between implementations used by different operators.

35.236

Specification of the MILENAGE-256 algorithm set; An example set of 256-bit 3GPP authentication and key generation functions f1, f1*, f2, f3, f4, f5, f5* and f5**; Document 3: Implementors’ test data and design conformance test data

TS

19.0.0

S3

https://www.3gpp.org/ftp/Specs/archive/35_series/35.236/35236-j00.zip

The present document provides test data (also known as test vectors) that implementors can use to help verify that their implementations are correct, according to the technical specifications of MILENAGE-256 algorithm set [2,3]. A reference implementation in C/C++ is also provided in the Annex.

35.246

Specification of the ZUC based 256-bits algorithm set: Specification of the 256-NEA6 encryption, the 256-NIA6 integrity, and the 256-NCA6 authenticated encryption algorithm for 5G; Document 1: algorithm specification

TS

19.0.0

S3

https://www.3gpp.org/ftp/Specs/archive/35_series/35.246/35246-j00.zip

The present document contains the algorithm specification which could be used as the encryption and integrity protection function 256-NEA6, 256-NIA6 and the combined authenticated encryption 256-NCA6 protection function for 3GPP systems.

35.249

Specification of an example algorithm for f5** function for MILENAGE and Tuak; Algorithm specification and test data

TS

19.1.0

S3

https://www.3gpp.org/ftp/Specs/archive/35_series/35.249/35249-j10.zip

The present document presents an optional security enhancement for the MILENAGE [5, 6, 12, 13] and Tuak example algorithm set [7, 14, 15] for the 3GPP authentication and key agreement functions. The enhancement addresses a subscriber traceability issue discovered by academic researchers [9] and is provided as an alternative anonymity key generation function f5** that, when enabled, replaces the f5* function of the aforementioned example algorithm sets. A functionally equivalent security enhancement is already included in the new MILENAGE-256 example algorithm set [8].

35.937

Specification of the MILENAGE-256 algorithm set; An example set of 256-bit 3GPP authentication and key generation functions f1, f1*, f2, f3, f4, f5, f5* and f5**; Document 4: summary and results of design and evaluation

TR

19.0.0

S3

https://www.3gpp.org/ftp/Specs/archive/35_series/35.937/35937-j00.zip

The present document contains a detailed summary of the work performed during the design and evaluation of MILENAGE-256 algorithm set. It contains results and findings from this work and should be read as a supplement to the specifications of the algorithms [3] and the general project report [2]. The example set is based on the block cipher Rijndael-256-256 with 256-bit key and block size [8, 24] (recall that the 128-bit Advanced Encryption Standard, AES-256, corresponds to Rijndael-128-256 [9], where the notation Rijndael-b-n is defined in clause 3.2 below). An optional-to-use function, f5** with the aim of countering certain replay attacks that can lead to traceability of subscribers [20], was designed according to candidate solutions discussed in 3GPP TR 33.846 [12]. When used, the optional function f5** replaces f5*. The specification and associated test data for the example algorithm set is documented in two documents: - A formal specification of the mode and the example kernel [3] - A test data document, covering mode and the example kernel [4]

36.101

Evolved Universal Terrestrial Radio Access (E-UTRA); User Equipment (UE) radio transmission and reception

TS

19.2.0

R4

https://www.3gpp.org/ftp/Specs/archive/36_series/36.101/36101-j20.zip

The present document establishes the minimum RF characteristics and minimum performance requirements for E-UTRA User Equipment (UE).

36.102

Evolved Universal Terrestrial Radio Access (E-UTRA); User Equipment (UE) radio transmission and reception for satellite access

TS

19.0.0

R4

https://www.3gpp.org/ftp/Specs/archive/36_series/36.102/36102-j00.zip

The present document establishes the minimum RF characteristics and minimum performance requirements for E-UTRA User Equipment (UE) operating satellite access.

36.104

Evolved Universal Terrestrial Radio Access (E-UTRA); Base Station (BS) radio transmission and reception

TS

19.1.0

R4

https://www.3gpp.org/ftp/Specs/archive/36_series/36.104/36104-j10.zip

The present document establishes the minimum RF characteristics and minimum performance requirements of E-UTRA, E-UTRA with NB-IoT or NB-IoT Base Station (BS).

36.108

Evolved Universal Terrestrial Radio Access (E-UTRA); Satellite Access Node radio transmission and reception

TS

19.0.0

R4

https://www.3gpp.org/ftp/Specs/archive/36_series/36.108/36108-j00.zip

The present document establishes the minimum RF characteristics and minimum performance requirements of Satellite Access Node (SAN) supporting standalone NB-IoT operation or E-UTRA or NB-IoT operation in NTN NR in-band. NOTE: Minimum requirements for NB-IoT operation in NTN NR guardband are not specified and guardband operation is SAN implementation specific.

36.133

Evolved Universal Terrestrial Radio Access (E-UTRA); Requirements for support of radio resource management

TS

19.1.0

R4

https://www.3gpp.org/ftp/Specs/archive/36_series/36.133/36133-j10.zip

The present document specifies requirements for support of Radio Resource Management for the FDD and TDD modes of Evolved UTRA. These requirements include requirements on measurements in UTRAN and the UE as well as requirements on node dynamical behaviour and interaction, in terms of delay and response characteristics.

36.141

Evolved Universal Terrestrial Radio Access (E-UTRA); Base Station (BS) conformance testing

TS

19.0.0

R4

https://www.3gpp.org/ftp/Specs/archive/36_series/36.141/36141-j00.zip

The present document specifies the Radio Frequency (RF) test methods and conformance requirements for E-UTRA, E-UTRA with NB-IoT or NB-IoT Base Stations (BS) operating either in the FDD mode (used in paired bands) or the TDD mode (used in unpaired bands). These have been derived from, and are consistent with the E-UTRA, E-UTRA with NB-IoT or NB-IoT Base Station (BS) specifications defined in [2].

36.171

Evolved Universal Terrestrial Radio Access (E-UTRA); Requirements for Support of Assisted Global Navigation Satellite System (A-GNSS)

TS

19.0.0

R4

https://www.3gpp.org/ftp/Specs/archive/36_series/36.171/36171-j00.zip

The present document establishes the minimum performance requirements for A-GNSS (including A-GPS) for FDD or TDD mode of E-UTRA for the User Equipment (UE).

36.181

Evolved Universal Terrestrial Radio Access (E-UTRA); Satellite Access Node conformance testing

TS

19.0.0

R4

https://www.3gpp.org/ftp/Specs/archive/36_series/36.181/36181-j00.zip

The present document specifies the Radio Frequency (RF) test methods and conformance requirements for Satellite Access Node (SAN) type 1-H and SAN type 1-O, supporting standalone NB-IoT operation or E-UTRA or NB-IoT operation in NTN NR in-band. These have been derived from and are consistent with the conducted requirements for SAN type 1-H, and radiated requirement for SAN type 1-H and SAN type 1-O in SAN specification defined in TS 36.108 [2].

36.211

Evolved Universal Terrestrial Radio Access (E-UTRA); Physical channels and modulation

TS

19.0.0

R1

https://www.3gpp.org/ftp/Specs/archive/36_series/36.211/36211-j00.zip

The present document describes the physical channels for evolved UTRA.

36.212

Evolved Universal Terrestrial Radio Access (E-UTRA); Multiplexing and channel coding

TS

19.0.0

R1

https://www.3gpp.org/ftp/Specs/archive/36_series/36.212/36212-j00.zip

The present document specifies the coding, multiplexing and mapping to physical channels for E-UTRA.

36.213

Evolved Universal Terrestrial Radio Access (E-UTRA); Physical layer procedures

TS

19.0.0

R1

https://www.3gpp.org/ftp/Specs/archive/36_series/36.213/36213-j00.zip

The present document specifies and establishes the characteristics of the physicals layer procedures in the FDD and TDD modes of E-UTRA.

36.307

Evolved Universal Terrestrial Radio Access (E-UTRA); Requirements on User Equipments (UEs) supporting a release-independent frequency band

TS

19.1.0

R4

https://www.3gpp.org/ftp/Specs/archive/36_series/36.307/36307-j10.zip

The present document specifies requirements for Rel-18 UEs supporting release independent features like: - additional E-UTRA operating frequency bands on top of Rel-18 of TS 36.101 [2], TS 36.102 [6] and TS 36.133 [3]; - additional E-UTRA CA configurations (intra-band/inter-band) on top of Rel-18 of TS 36.101 [2] and TS 36.133 [3]; - additional operating bands and/or CA configurations for specific features (like UE category 0, M1, NB1); - other release independent features (like 4Rx antenna port, high speed scenario, 8Rx antenna port, NB-IoT or eMTC operation over NTN).

36.719-01-01

LTE REL-19 CA for x bands (1<=x<=6)DL with y bands (y=1,2) UL

TR

0.5.0

R4

https://www.3gpp.org/ftp/Specs/archive/36_series/36.719-01-01/36719-01-01-050.zip

The present document is a technical report on intra-band CA and inter-band CA for x bands DL (1≤x≤6) with y bands UL (y=1,2) under Rel-19 timeframe. The purpose is to gather the relevant background information and studies, in order to address Rel-19 band combinations that are related to x bands (1≤x≤6) DL with y bands UL (y=1,2) bands UL CA requirements. The band combinations are requested in the Excel file of the WID [2] or its revisions.

36.764

LTE IoT NTN operating bands

TR

19.0.0

R4

https://www.3gpp.org/ftp/Specs/archive/36_series/36.764/36764-j00.zip

The present document is a technical report for LTE IoT NTN operating bands.

36.767

Rel-19 High power UE (power class 2) and high power operation (power class 1) for fixed-wireless/vehicle-mounted use cases in a single LTE band

TR

0.0.2

R4

https://www.3gpp.org/ftp/Specs/archive/36_series/36.767/36767-002.zip

The present document is a technical report for Rel-19 High power UE (power class 2) and high power operation (power class 1) for fixed-wireless/vehicle-mounted use cases in a single LTE band WI band under Rel-19 time frame. The purpose is to gather the relevant background information and studies in order to address LTE single band PC1 and PC2 HPUE operation for the Rel-19. This TR contains a general part and specific band combination part. The actual requirements are added to the corresponding technical specifications.

37.104

NR, E-UTRA, UTRA and GSM/EDGE; Multi-Standard Radio (MSR) Base Station (BS) radio transmission and reception

TS

19.0.0

R4

https://www.3gpp.org/ftp/Specs/archive/37_series/37.104/37104-j00.zip

The present document establishes the minimum RF characteristics of NR, E-UTRA, UTRA, GSM/EDGE and NB-IoT Multi-Standard Radio (MSR) Base Station (BS). Requirements for multi-RAT and single-RAT operation of MSR BS are covered in the present document. The requirements in the present document for E-UTRA, UTRA and NB-IoT single-RAT operation of MSR BS are also applicable to E-UTRA, UTRA and NB-IoT multi-carrier capable single-RAT BS. Requirements for GSM BS that are only single-RAT capable in all supported operating bands are not covered.

37.105

Active Antenna System (AAS) Base Station (BS) transmission and reception

TS

19.0.0

R4

https://www.3gpp.org/ftp/Specs/archive/37_series/37.105/37105-j00.zip

The present document establishes 2 sets of minimum requirements and minimum performance requirements; hybrid requirements set which specify requirements for a hybrid AAS BS with both a conducted and a radiated interface and OTA requirements set which specify requirements for an OTA AAS BS which has a radiated interface only. The hybrid AAS BS requirements are specified for E-UTRA AAS Base Station (BS), the FDD mode of UTRA AAS Base Station (BS), the 1,28 Mcps TDD mode of UTRA AAS Base Station (BS) in single RAT and any MSR AAS Base Station (BS) implementation of these RATs (including NR BS type 1-H MSR configurations). The OTA AAS BS requirements are specified for E-UTRA AAS Base Station (BS), the FDD mode of UTRA AAS Base Station (BS), in single RAT and any MSR AAS Base Station (BS) implementation of these RATs (including NR BS type 1-O MSR configurations). NOTE 1: The present document does not establish minimum RF characteristics or minimum performance requirements for Narrow-Band Internet of Things (NB-IoT) in band, NB-IoT guard band, or standalone NB-IoT operation, for AAS BS in single RAT E-UTRA operation or in MSR operation using E-UTRA. NOTE 2: The present document does not establish minimum RF characteristics for MBMS for AAS BS in single RAT E-UTRA operation.

37.141

NR, E-UTRA, UTRA and GSM/EDGE; Multi-Standard Radio (MSR) Base Station (BS) conformance testing

TS

19.0.0

R4

https://www.3gpp.org/ftp/Specs/archive/37_series/37.141/37141-j00.zip

The present document specifies the Radio Frequency (RF) test methods and conformance requirements for NR, E-UTRA, UTRA, GSM/EDGE and NB-IoT Multi-Standard Radio (MSR) Base Station (BS). These have been derived from, and are consistent with the NR, E-UTRA, UTRA, GSM/EDGE and NB-IoT MSR BS specification defined in [2].

37.145-1

Active Antenna System (AAS) Base Station (BS) conformance testing; Part 1: conducted conformance testing

TS

19.0.0

R4

https://www.3gpp.org/ftp/Specs/archive/37_series/37.145-1/37145-1-j00.zip

The present document specifies the conducted test methods and conformance requirements for single RAT E-UTRA operation, single RAT UTRA operation (FDD and TDD) and Multi-Standard Radio (MSR) UTRA, E-UTRA and NR Active Antenna System (AAS) Base Station (BS). These have been derived from, and are consistent with the non-AAS BS specifications in TS 25.104 [2], TS 25.105 [3], TS 36.104 [4], TS 38.104 [36] or TS 37.104 [5]. The technical specification TS 37.145 is in 2 parts, part TS 37.145-1 (the present document) covers conducted requirements and part TS 37.145-2 [40] covers radiated requirements. The present document does not establish conducted test methods and conformance requirements for Band 46 operation as it is not supported by AAS BS, but Band 46 test requirements are still applicable for AAS BS for protection of and against Band 46 operation. The present document does not establish conducted test methods and conformance requirements for Narrow-Band Internet of Things (NB-IoT) in band, NB-IoT guard band, or standalone NB-IoT operation, for AAS BS in single RAT E-UTRA operation as defined in TS 36.141 [14], or for AAS BS in MSR operation using E-UTRA as defined in TS 37.141 [13].

37.145-2

Active Antenna System (AAS) Base Station (BS) conformance testing; Part 2: radiated conformance testing

TS

19.1.0

R4

https://www.3gpp.org/ftp/Specs/archive/37_series/37.145-2/37145-2-j10.zip

The present document specifies radiated test methods and conformance requirements for 2 types of AAS BS; hybrid requirements set which specify requirements for a hybrid AAS BS with both a conducted and a radiated interface and OTA requirements set which specify requirements for an OTA AAS BS which has a radiated interface only. The hybrid AAS BS requirements are specified for E-UTRA AAS Base Station (BS), the FDD mode of UTRA AAS Base Station (BS), the 1,28 Mcps TDD mode of UTRA AAS Base Station (BS) in single RAT and any MSR AAS Base Station (BS) implementation of these RATs including NR operation. The OTA AAS BS requirements are specified for E-UTRA AAS Base Station (BS), the FDD mode of UTRA AAS Base Station (BS), in single RAT and any MSR AAS Base Station (BS) implementation of these RATs and/or NR. The requirements have been derived from, and are consistent with non-AAS BS specifications in TS 25.104 [2], TS 25.105 [3], TS 36.104 [4] or TS 37.104 [5] and where applicable with the NR specification TS 38.104 [33]. The technical specification TS 37.145 is in 2 parts, part TS 37.145-1 [9] covers conducted requirements and part TS 37.145-2 (the present document) covers radiated requirements. The present document does not establish radiated test methods and conformance requirements for Band 46 operation as it is not supported by AAS BS. Conducted Band 46 test requirements are still applicable for AAS BS for protection of and against Band 46 operation, as specified in TS 37.145-1 [9]. The present document does not establish minimum RF characteristics or minimum performance requirements for Narrow-Band Internet of Things (NB-IoT) in band, NB-IoT guard band, or standalone NB-IoT operation, for AAS BS in single RAT E-UTRA operation or in MSR operation using E-UTRA.

37.719-11-10

Rel-19 Dual Connectivity of EN-DC and NE-DC configurations with one or two NR Supplemental Uplink (SUL) band(s) and with/without UL sharing from the UE perspective (ULSUP)

TR

0.1.0

R4

https://www.3gpp.org/ftp/Specs/archive/37_series/37.719-11-10/37719-11-10-010.zip

The present document is a technical report for Rel-19 Dual Connectivity of EN-DC and NE-DC configurations with one or two NR Supplemental Uplink (SUL) band(s) and with/without UL sharing from the UE perspective (ULSUP). The purpose is to gather the relevant background information and studies in order to address SUL for the Rel-19 bands/band combinations. This TR contains a general part and specific band combination part. The actual requirements are added to the corresponding technical specifications.

37.719-11-11

Rel-19 Dual Connectivity of EN-DC and NE-DC configurations consisting of 2 different bands downlink (DL) with 2 different bands uplink (UL) (1 LTE band and 1 NR band)

TR

0.5.0

R4

https://www.3gpp.org/ftp/Specs/archive/37_series/37.719-11-11/37719-11-11-050.zip

The present document is a technical report for Dual Connectivity of EN-DC and NE-DC configurations consisting of 2 different bands downlink (DL) with 2 different bands uplink (UL) (1 LTE band and 1 NR band) under Rel-19 time frame. The purpose is to gather the relevant background information and studies in order to address Dual Connectivity (DC) of 1 LTE band (1DL/1UL) and 1 NR band (1DL/1UL) for the Rel-19 band combinations in Table 1-1, 1-2, 1-3 and 1-4, including EN-DC and NE-DC combinations. The actual requirements are added to the corresponding technical specifications. Table 1-1: Release 19 EN-DC of 1 LTE band (1DL/1UL) and 1 NR band (1DL/1UL) within FR1 DC combination Uplink EN-DC configuration DC_68A_n1A DC_68A_n1A DC_68A_n3A DC_68A_n3A DC_68A_n7A DC_68A_n7A DC_68A_n8A DC_68A_n8A DC_68A_n20A DC_68A_n20A DC_68A_n38A DC_68A_n38A DC_68A_n40A DC_68A_n40A DC_68A_n41A DC_68A_n41A DC_68A_n77A DC_68A_n77A DC_68A_n78A DC_68A_n78A DC_68A_n79A DC_68A_n79A DC_106A_n41A DC_106A_n41A DC_106A_n41C DC_106A_n41A DC_106A_n41(2A) DC_106A_n41A DC_106A_n48A DC_106A_n48A DC_106A_n48C DC_106A_n48A DC_106A_n48(2A) DC_106A_n48A DC_28A_n71A DC_28A_n71A DC_8A_n71A DC_8A_n71A DC_40A_n28A DC_40A_n28A Table 1-2: Release 19 EN-DC of 1 LTE band (1DL/1UL) and 1 NR band (1DL/1UL) including FR2 DC combination Uplink EN-DC configuration Table 1-3: Release 19 NE-DC of 1 LTE band (1DL/1UL) and 1 NR band (1DL/1UL) within FR1 DC combination Uplink NE-DC configuration Table 1-4: Release 19 NE-DC of 1 LTE band (1DL/1UL) and 1 NR band (1DL/1UL) including FR2 DC combination Uplink NE-DC configuration

37.719-21-11

Rel-19 Dual Connectivity of EN-DC and NE-DC configurations consisting of 2 bands LTE inter-band CA (2DL/1UL) and 1 band NR (1DL/1UL), or consisting of 1 band LTE (1DL/1UL) and 2 bands NR inter-band CA (2DL/1UL)

TR

0.6.0

R4

https://www.3gpp.org/ftp/Specs/archive/37_series/37.719-21-11/37719-21-11-060.zip

The present document is a technical report for Dual Connectivity of EN-DC and NE-DC configurations consisting of 2 different bands downlink (DL) with 2 different bands uplink (UL) (1 LTE band and 1 NR band) under Rel-19 time frame. The present document is a technical report for Rel-19 Dual Connectivity of EN-DC and NE-DC configurations consisting of 2 bands LTE inter-band CA (2DL/1UL) and 1 NR band (1DL/1UL), or consisting of 1 band LTE (1DL/1UL) and 2 bands NR inter-band CA (2DL/1UL) under Rel-19 time frame. The purpose is to gather the relevant background information and studies to address DC band combinations consisting of 2 bands LTE inter-band CA (2DL/1UL) and 1 NR band (1DL/1UL), or consisting of 1 band LTE (1DL/1UL) and 2 bands NR inter-band CA (2DL/1UL) in Rel-19 as shown in Table 1-1. Table 1-1: Release 19 Dual Connectivity band combination of LTE xDL/1UL and NR yDL/1UL (x>0, y>0, x+y=3) Combination LTE Bands Combinations(x>0, x+y=3) NR y Bands Combinations (y>0, x+y=3) LTE 1 Band Band X NR 2 Bands CA_nY-nZ LTE 2 Bands CA_W-X NR 1 Band Band nY This TR contains a general part and band-specific combination part. The actual requirements are added to the corresponding technical specifications.

37.862

Rel-19 adding channel bandwidth support to existing NR bands

TR

0.2.0

R4

https://www.3gpp.org/ftp/Specs/archive/37_series/37.862/37862-020.zip

This clause shall start on a new page. The present document is a technical report on adding channel bandwidth in existing NR bands under Rel-19 time frame. The purpose is to gather the relevant background information and studies in order to address the addition of channel bandwidth support in existing NR bands as listed in Table 1-1. Table 1-1: Added channel bandwidth(s) in NR bands during Rel-19 time frame Band Channel bandwidth and SCS n48 50 MHz (15, 30 and 60kHz SCS) 60, 70, 80, 90, 100 MHz (30 and 60 kHz SCS) n80 35, 45, 50 MHz (15, 30 and 60kHz SCS) n84 45 MHz (15, 30 and 60kHz SCS)

37.890

Feasibility Study on 6 GHz for LTE and NR in Licensed and Unlicensed Operations

TR

19.1.0

RP

https://www.3gpp.org/ftp/Specs/archive/37_series/37.890/37890-j10.zip

The present technical report documents the regulatory aspects for the frequency range 5.925-7.125 GHz in different regions for both unlicensed and licensed operations.

37.887

Rel-19 downlink interruption for NR and EN-DC band combinations at dynamic Tx Switching in Uplink

TR

1.0.0

R4

https://www.3gpp.org/ftp/Specs/archive/37_series/37.887/37887-100.zip

The present document is a technical report for WI “Rel-19 downlink interruption for NR and EN-DC band combinations at dynamic Tx Switching in Uplink” under Rel-19 timeframe. The purpose is to gather the relevant background information and studies in order to address the band combinations requested for mandating no DL interruption to conduct dynamic Tx switching in uplink listed in Table 1-1. Table 1-1: Band combinations requested for mandating no DL interruption Configuration Uplink band CA_n1-n5-n78 n1, n5, n78 CA_n3-n5-n78 n3, n5, n78 CA_n1-n3-n5-n78 n1, n3, n5, n78