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34.121-2
User Equipment (UE) conformance specification; Radio transmission and reception (FDD); Part 2: Implementation Conformance Statement (ICS)
TS
15.1.0
R5
https://www.3gpp.org/ftp/Specs/archive/34_series/34.121-2/34121-2-f10.zip
The present document provides the Implementation Conformance Statement (ICS) proforma for 3rd Generation User Equipment (UE), in compliance with the relevant requirements, and in accordance with the relevant guidance given in ISO/IEC 9646-7 [2] and ETS 300 406 [3]. The present document also specifies a recommended applicability statement for the test cases included in TS 34.121-1. These applicability statements are based on the features implemented in the UE. Special conformance testing functions can be found in 3GPP TS 34.109 [19] and the common test environments are included in 3GPP TS 34.108 [18] and 3GPP TS 36.508 [29]. The present document is valid for UE implemented according to 3GPP releases starting from Release 99 up to the Release indicated on the cover page of the present document.
34.123-1
User Equipment (UE) conformance specification; Part 1: Protocol conformance specification
TS
15.8.0
R5
https://www.3gpp.org/ftp/Specs/archive/34_series/34.123-1/34123-1-f80.zip
The present document specifies the protocol conformance testing for the 3rd Generation User Equipment (UE). 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 - the description of the tests’ procedures, the specific test requirements and the messages exchanged. The following information relevant to the tests described in the present document can be found in accompanying specifications: - the default setting of the test parameters [9]; - the applicability of each test case and the Implementation Conformance Statement (ICS) pro-forma [11]. Note: The present document does not contain any tests on the USIM, or the interface between the UE and the USIM. These tests are documented elsewhere. The present document is valid for UE implemented according to 3GPP releases starting from Release 1999 up to the Release indicated on the cover page of the present document.
34.123-2
User Equipment (UE) conformance specification; Part 2: Implementation conformance statement (ICS) proforma specification
TS
15.7.0
R5
https://www.3gpp.org/ftp/Specs/archive/34_series/34.123-2/34123-2-f70.zip
The present document provides the Implementation Conformance Statement (ICS) proforma for 3rd Generation User Equipment (UE), in compliance with the relevant requirements, and in accordance with the relevant guidance given in ISO/IEC 9646-7 [2] and ETS 300 406 [3]. The present document also specifies a recommended applicability statement for the test cases included in TS 34.123-1. These applicability statements are based on the features implemented in the UE. Special conformance testing functions can be found in 3GPP TS 34.109 [45] and the common test environments are included in 3GPP TS 34.108 [44]. The present document is valid for UE implemented according to 3GPP releases starting from Release 1999 up to the Release indicated on the cover page of the present document.
36.579-3
Mission Critical (MC) services over LTE; Part 3: Mission Critical Push To Talk (MCPTT) Server Application conformance specification
TS
15.0.0
R5
https://www.3gpp.org/ftp/Specs/archive/36_series/36.579-3/36579-3-f00.zip
The present document specifies the protocol conformance testing for testing a MCPTT Server for compliance to the Mission Critical Push To Talk (MCPTT) over LTE protocol requirements defined by 3GPP. The present document addresses only MCPTT Server-Client, and, MCPTT Server-Server communication scenarios. It does not cover e.g. MCPTT Server-EPS, MCPTT Server-SIP Core, etc. scenarios which involve interfaces which implementation may widely vary. In particular the present specification contains: - 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 present document is valid for MCPTT Servers implemented according to 3GPP releases starting from Release 13 up to the Release indicated on the cover page of the present document. The following information relevant to testing specified in the present document could be found in accompanying specifications: - default setting of the test parameters TS 36.579-1 [2]; - Implementation Conformance Statement (ICS) TS 36.579-4 [4] and Implementation eXtra Information for Testing (IXIT) TS 36.579-5 [5]; - the applicability of each test case TS 36.579-4 [4]. The present document does not specify the protocol conformance testing for the EPS (LTE) bearers which carry the MCPTT data sent or received by the MCPTT Server. The specification of such testing is out of the scope of RAN5.
36.715-00-00
Evolved Universal Terrestrial Radio Access (E-UTRA); LTE Advanced intra-band Carrier Aggregation (CA) Rel-15 for x Down Link (DL) / y Up Link (UL) including contiguous and non-contiguous spectrum
TR
15.1.0
R4
https://www.3gpp.org/ftp/Specs/archive/36_series/36.715-00-00/36715-00-00-f10.zip
The present document is a technical report for Intra-band Carrier Aggregation Rel-15 for xDL/yUL including contiguous and non-contiguous spectrum under Rel-15 time frame. The purpose is to gather the relevant background information and studies in order to address Intra-band Carrier Aggregation requirements for the Rel-15 band combinations in Table 1-1. Table 1-1: Release 15 Intra-band carrier aggregation combinations CA combination REL-indep. from CA_2DL_3A-3A_1UL_BCS3 REL-11 CA_3DL_25A-25A-25A_1UL_BCS0 REL-12 CA_2DL_28C_1UL_BCS0 REL-10 CA_2DL_40A-40A_2UL_40A-40A_BCS0 REL-11 CA_3DL_40A-40C_2UL_40C_BCS0 REL-12 CA_4DL_40C-40C_2UL_40C_BCS0 REL-12 CA_5DL_40F_1UL_BCS0 REL-12 CA_3DL_41D_3UL_41D_BCS0 REL-12 CA_3DL_41A-41A-41A_1UL_BCS0 REL-12 CA_4DL_41A-41A-41C_1UL_BCS0 REL-12 CA_4DL_41A-41A-41C_2UL_41C_BCS0 REL-12 CA_4DL_41E_3UL_41D_BCS0 REL-12 CA_5DL_41F_2UL_41C_BCS0 REL-12 CA_5DL_41F_3UL_41D_BCS0 REL-12 CA_3DL_42A-42C_2UL_42C_BCS0 REL-12 CA_4DL_42C-42C_2UL_42C_BCS0 REL-12 CA_2DL_43A-43A_1UL_BCS0 REL-12 CA_4DL_46C-46C_1UL_BCS0 REL-13 CA_3DL_48A-48A-48A_1UL_BCS0 REL-12 CA_4DL_48A-48A-48A-48A_1UL_BCS0 REL-12 CA_4DL_ 48A-48A-48C_1UL_BCS0 REL-11 CA_5DL_ 48A-48A-48D_1UL_BCS0 REL-11 CA_5DL_ 48A-48C-48C_1UL_BCS0 REL-11 CA_3DL_66A-66A-66A_1UL_BCS0 REL-12 CA_2DL_ 66B_2UL_66B_BCS0 REL-11 CA_2DL_ 66C_2UL_66C_BCS0 REL-11 This TR contains a band specific combination part. The actual requirements are added to the corresponding technical specifications.
36.715-00-01
Evolved Universal Terrestrial Radio Access (E-UTRA); LTE Advanced inter-band Carrier Aggregation (CA) Rel-15 for x Down Link (DL) / 1 Up Link (UL) with x>5
TR
15.0.0
R4
https://www.3gpp.org/ftp/Specs/archive/36_series/36.715-00-01/36715-00-01-f00.zip
The present document is a technical report for LTE Advanced 1ULs and xDLs Carrier Aggregation with x>5 under Rel-15 time frame. The purpose is to gather the relevant background information and studies in order to address 1ULs and xDLs Carrier Aggregation requirements. Table 1-1: 6DL/1UL inter-band carrier aggregation combinations CA combination REL independent from CA_6DL_2A-46A-48D-66A_1UL_BCS0 REL- 15 CA_6DL_2A-46A-48E_1UL_BCS0 REL- 15 CA_6DL_2A-46C-48C-66A_1UL_BCS0 REL- 15 CA_6DL_2A-46C-48D_1UL_BCS0 REL- 15 CA_6DL_2A-46D-48A-66A_1UL_BCS0 REL- 15 CA_6DL_2A-46D-48C_1UL_BCS0 REL- 15 CA_6DL_2A-46E-48A_1UL_BCS0 REL- 15 CA_6DL_2A-46E-66A_1UL_BCS0 REL- 15 CA_6DL_46A-48E-66A_1UL_BCS0 REL- 15 CA_6DL_46C-48D-66A_1UL_BCS0 REL- 15 CA_6DL_46C-48E_1UL_BCS0 REL- 15 CA_6DL_46D-48C-66A_1UL_BCS0 REL- 15 CA_6DL_46E-48A-66A_1UL_BCS0 REL- 15 CA_6DL_46E-48C_1UL_BCS0 REL- 15 Table 1-2: 7DL/1UL inter-band carrier aggregation combinations CA combination REL independent from CA_7DL_2A-46C-48D-66A_1UL_BCS0 REL- 15 CA_7DL_2A-46C-48E_1UL_BCS0 REL- 15 CA_7DL_2A-46D-48C-66A_1UL_BCS0 REL- 15 CA_7DL_2A-46E-48C_1UL_BCS0 REL- 15 CA_7DL_46C-48E-66A_1UL_BCS0 REL- 15 CA_7DL_46E-48C-66A_1UL_BCS0 REL- 15 This TR contains a general part and band specific combination part. The actual requirements are added to the corresponding technical specifications.
36.715-00-02
Evolved Universal Terrestrial Radio Access (E-UTRA); LTE Advanced inter-band Carrier Aggregation (CA) Rel-15 for x Down Link (DL) / 2 Up Link (UL) with x=3,4,5
TR
15.0.0
R4
https://www.3gpp.org/ftp/Specs/archive/36_series/36.715-00-02/36715-00-02-f00.zip
The present document is a technical report for LTE Advanced 2ULs and xDLs Carrier Aggregation with x=3,4,5 under Rel-15 time frame. The purpose is to gather the relevant background information and studies in order to address 2ULs and xDLs Carrier Aggregation requirements. This TR covers relevant background information and studies core & performance requirements for the Rel-15 band combinations in Table 1-1, 1-2 and 1-3. Table 1-1: 3DL/2UL CA configurations part of the WI E-UTRA CA configuration / Bandwidth combination set E-UTRA CA Configuration Uplink CA configurations E-UTRA Bands 1.4 MHz 3 MHz 5 MHz 10 MHz 15 MHz 20 MHz Maximum aggregated bandwidth [MHz] Bandwidth combination set CA_1A-3A-3A CA_1A-3A 1 Yes Yes Yes Yes 60 0 3 See CA_3A-3A Bandwidth Combination Set 0 in Table 5.6A.1-3 of TS 36.101 [3] CA_1A-3A-18A CA_1A-3A, CA_1A-18A, CA_3A-18A 1 Yes Yes Yes Yes 55 0 3 Yes Yes Yes Yes 18 Yes Yes Yes CA_1A-3A-20A CA_1A-3A CA_1A-20A CA_3A-20A 1 Yes Yes Yes Yes 60 0 3 Yes Yes Yes Yes 20 Yes Yes Yes Yes CA_1A-3A-26A CA_1A-3A, CA_1A-26A, CA_3A-26A 1 Yes Yes Yes Yes 55 0 3 Yes Yes Yes Yes 26 Yes Yes Yes CA_1A-3A-41A2 CA_1A-3A 1 Yes Yes Yes Yes 60 0 3 Yes Yes Yes Yes 41 Yes Yes Yes Yes CA_1A-7A-26A CA_1A-7A, CA_1A-26A, CA_7A-26A 1 Yes Yes Yes Yes 55 0 7 Yes Yes Yes 26 Yes Yes Yes CA_1A-7C CA_1A-7A CA_7C 1 Yes Yes Yes Yes 60 0 7 See CA_7C Bandwidth Combination Set 2 in Table 5.6A.1-1 of TS 36.101 [3] 1 Yes Yes Yes Yes 60 1 7 See CA_7C Bandwidth Combination Set 1 in Table 5.6A.1-1 of TS 36.101 [3] CA_1A-7A-28A CA_1A-7A CA_1A-28A CA_7A-28A 1 Yes Yes Yes Yes 60 1 7 Yes Yes Yes 28 Yes Yes Yes CA_1A-41A-42A CA_1A-42A 1 Yes Yes Yes Yes 60 0 41 Yes Yes Yes 42 Yes Yes Yes CA_1A-42C CA_42C 1 Yes Yes Yes Yes 60 0 42 See CA_42C Bandwidth Combination Set 0 in Table 5.6A.1-1 CA_1A-42A-42A CA_1A-42A 1 Yes Yes Yes Yes 60 0 42 See CA_42A-42A Bandwidth Combination Set 0 in Table 5.6A.1-3 of TS 36.101 [3] CA_3A-3A-7A CA_3A-7A 3 See CA_3A-3A Bandwidth Combination Set 0 in Table 5.6A.1-3 of TS 36.101 [3] 60 0 7 Yes Yes Yes Yes 3 See CA_3A-3A Bandwidth Combination Set 1 in Table 5.6A.1-3 of TS 36.101 [3] 50 1 7 Yes Yes Yes Yes CA_3A-3A-19A CA_3A-19A 3 See CA_3A-3A Bandwidth Combination Set 0 in Table 5.6A.1-3 of TS 36.101 [3] 55 0 19 Yes Yes Yes CA_3A-3A-21A CA_3A-21A 3 See CA_3A-3A Bandwidth Combination Set 0 in Table 5.6A.1-3 of TS 36.101 [3] 55 0 21 Yes Yes Yes CA_3A-3A-42A CA_3A-42A 3 See CA_3A-3A Bandwidth Combination Set 0 in Table 5.6A.1-3 of TS 36.101 [3] 60 0 42 Yes Yes Yes Yes CA_3A-7A-26A CA_3A-7A, CA_3A-26A, CA_7A-26A 3 Yes Yes Yes Yes 55 0 7 Yes Yes Yes 26 Yes Yes Yes CA_3A-7A-28A CA_3A-28A 3 Yes Yes Yes Yes 60 0 7 Yes Yes Yes Yes 28 Yes Yes Yes Yes CA_3A-7A-32A CA_3A-7A 3 Yes Yes Yes Yes 60 0 7 Yes Yes Yes 32 Yes Yes Yes Yes CA_3A-11A-18A CA_3A-11A or CA_3A-18A or CA_11A-18A 3 Yes Yes Yes Yes 45 0 11 Yes Yes 18 Yes Yes Yes CA_3A-11A-26A CA_3A-11A or CA_3A-26A or CA_11A-26A 3 Yes Yes Yes Yes 45 0 11 Yes Yes 26 Yes Yes Yes CA_3A-20A-32A CA_3A-20A 3 Yes Yes Yes Yes 60 0 20 Yes Yes Yes Yes 32 Yes Yes Yes Yes CA_3A-28A-40A CA_3A-28A 3 Yes Yes Yes Yes 60 0 28 Yes Yes Yes Yes 40 Yes Yes Yes Yes CA_3A-28A-41A CA_3A-41A 3 Yes Yes Yes Yes 60 0 28 Yes Yes Yes Yes 41 Yes Yes Yes Yes CA_3A-41C CA_3A-41A, CA_41C 3 Yes Yes Yes Yes 60 0 41 See CA_41C Bandwidth Combination Set 0 in Table 5.6A.1-1 of TS 36.101 [3] CA_3A-41A-42A CA_3A-41A, CA_3A-42A 3 Yes Yes Yes Yes 60 0 41 Yes Yes Yes 42 Yes Yes Yes CA_3A-42A-42A CA_3A-42A 3 Yes Yes Yes Yes 60 0 42 See CA_42A-42A Bandwidth Combination Set 0 in Table 5.6A.1-3 of TS 36.101 [3] CA_7A-7A-8A CA_7A-8A 7 See CA_7A-7A Bandwidth Combination Set 1 in Table 5.6A.1-3 of TS 36.101 [3] 50 0 8 Yes Yes 7 See CA_7A-7A Bandwidth Combination Set 2 in Table 5.6A.1-3 of TS 36.101 [3] 40 1 8 Yes Yes CA_7A-7A-26A CA_7A-26A 7 See CA_7A-7A bandwidth combination set 3 in table 5.6A.1-3 of TS 36.101 [3] 55 0 26 Yes Yes Yes CA_7A-20A-32A CA_7A-20A 7 Yes Yes Yes 60 0 20 Yes Yes Yes Yes 32 Yes Yes Yes Yes CA_40C-42A CA_40C 40 See CA_40C Bandwidth Combination Set 0 in Table 5.6A.1-1 in TS 36.101 [3] 60 0 42 Yes Yes Yes CA_41C-48A 41C 41 See CA_41C Bandwidth combination set 2 in Table 5.6A.1-1 of TS 36.101 [3] 60 0 48 Yes Yes Yes Yes CA_xA-yA-zA CA_xA-yA or CA_yA-zA or CA_xA-zA X Up to 60 0 Y Z NOTE 1: B41 and B42 are assumed to be synchronized (i.e. without simultaneous Rx/Tx) NOTE 2: For the corresponding CA configuration, UL transmission in this E-UTRA band is not allowed Table 1-2: 4DL/2UL CA configurations part of the WI E-UTRA CA configuration / Bandwidth combination set E-UTRA CA Configuration Uplink CA configurations E-UTRA Bands 1.4 MHz 3 MHz 5 MHz 10 MHz 15 MHz 20 MHz Maximum aggregated bandwidth [MHz] Bandwidth combination set CA_1A-3A-3A-19A CA_1A-3A, CA_1A-19A, CA_3A-19A 1 Yes Yes Yes Yes 75 0 3 See CA_3A-3A Bandwidth Combination Set 0 in Table 5.6A.1-3 of TS 36.101 [3] 19 Yes Yes Yes CA_1A-3A-3A-21A CA_1A-3A, CA_1A-21A, CA_3A-21A 1 Yes Yes Yes Yes 75 0 3 See CA_3A-3A Bandwidth Combination Set 0 in Table 5.6A.1-3 of TS 36.101 [3] 21 Yes Yes Yes CA_1A-3A-3A-42A CA_1A-3A, CA_1A-42A, CA_3A-42A 1 Yes Yes Yes Yes 80 0 3 See CA_3A-3A Bandwidth Combination Set 0 in Table 5.6A.1-3 of TS 36.101 [3] 42 Yes Yes Yes Yes CA_1A-3A-7C CA_1A-3A CA_1A-7A CA_3A-7A CA_7C 1 Yes Yes Yes Yes 80 0 3 Yes Yes Yes 7 See CA_7C Bandwidth Combination Set 2 in Table 5.6A.1-1 1 Yes Yes Yes Yes 80 1 3 Yes Yes Yes Yes 7 See CA_7C Bandwidth Combination Set 1 in Table 5.6A.1-1 CA_1A-3C-7A CA_1A-3A CA_1A-7A CA_3A-7A CA_3C 1 Yes Yes Yes Yes 80 0 3 See CA_3C Bandwidth Combination Set 0 in Table 5.6A.1-1 7 Yes Yes Yes 1 Yes Yes Yes Yes 80 1 3 See CA_3C Bandwidth Combination Set 0 in Table 5.6A.1-1 7 Yes Yes Yes Yes CA_1A-3A-7A-26A CA_1A-3A, CA_1A-7A, CA_1A-26A, CA_3A-7A, CA_3A-26A, CA_7A-26A 1 Yes Yes Yes Yes 75 0 3 Yes Yes Yes Yes 7 Yes Yes Yes 26 Yes Yes Yes CA_1A-3A-7A-28A CA_1A-7A CA_1A-3A CA_1A-28A CA_3A-7A CA_3A-28A CA_7A-28A 1 Yes Yes Yes Yes 80 0 3 Yes Yes Yes 7 Yes Yes Yes 28 Yes Yes Yes CA_1A-3A-41C2 CA_1A-3A 1 Yes Yes Yes Yes 80 0 3 Yes Yes Yes Yes 41 See CA_41C Bandwidth Combination Set 0 in Table 5.6A.1-1 of TS 36.101 [3] CA_1A-7A-7A-26A CA_1A-7A, CA_1A-26A, CA_7A-26A 1 Yes Yes Yes Yes 75 0 7 See CA_7A-7A bandwidth combination set 3 in table 5.6A.1-3 of TS 36.101 [3] 26 Yes Yes Yes CA_1A-7C-28A CA_1A-7A CA_7C CA_7A-28A CA_1A-28A 1 Yes Yes Yes Yes 80 0 7C See CA_7C Bandwidth Combination Set 2 in Table 5.6A.1-1 28 Yes Yes Yes CA_1A-41A-42C CA_1A-42A, CA_42C 1 Yes Yes Yes Yes 80 0 41 Yes Yes Yes 42 See CA_42C_BW combination set 1 in Table 5.6A.1-1 of TS 36.101 [3] CA_1A-41C-42A CA_1A-42A 1 Yes Yes Yes Yes 80 0 41 See CA_41C_BW combination set 0 in Table 5.6A.1-1 of TS 36.101 [3] 42 Yes Yes Yes CA_1A-42A-42C CA_1A-42A 1 Yes Yes Yes Yes 80 0 42 See CA_42A-42C Bandwidth Combination Set 0 in Table 5.6A.1-3 of TS 36.101 [3] CA_1A-42D CA_1A-42A 1 Yes Yes Yes Yes 80 0 42 See CA_42D Bandwidth Combination Set 0 in Table 5.6A.1-1 of TS 36.101 [3] CA_3A-3A-7A-7A CA_3A-7A 3 See CA_3A-3A Bandwidth Combination Set 0 in table 5.6A.1-3 of TS 36.101 [3] 80 0 7 See CA_7A-7A Bandwidth Combination Set 1 in table 5.6A.1-3 of TS 36.101 [3] 3 See CA_3A-3A Bandwidth Combination Set 1 in table 5.6A.1-3 of TS 36.101 [3] 60 1 7 See CA_7A-7A Bandwidth Combination Set 2 in table 5.6A.1-3 of TS 36.101 [3] CA_3C-7C CA_3C CA_7C 3 See CA_3C Bandwidth Combination Set 0 in Table 5.6A.1-1 80 0 7 See CA_7C Bandwidth Combination Set 2 in Table 5.6A.1-1 3 See CA_3C Bandwidth Combination Set 0 in Table 5.6A.1-1 80 1 7 See CA_7C Bandwidth Combination Set 1 in Table 5.6A.1-1 CA_3A-3A-7A-8A CA_3A-7A, CA_3A-8A, CA_7A-8A 3 See CA_3A-3A Bandwidth Combination Set 0 in Table 5.6A.1-3 70 0 7 Yes Yes Yes Yes 8 Yes Yes 3 See CA_3A-3A Bandwidth Combination Set 1 in Table 5.6A.1-3 60 1 7 Yes Yes Yes Yes 8 Yes Yes CA_3A-3A-19A-21A CA_3A-19A, CA_3A-21A, CA_19A-21A 3 See CA_3A-3A Bandwidth Combination Set 0 in Table 5.6A.1-3 of TS 36.101 [3] 70 0 19 Yes Yes Yes 21 Yes Yes Yes CA_3A-3A-42C CA_3A-42A 3 See CA_3A-3A Bandwidth Combination Set 0 in Table 5.6A.1-3 of TS 36.101 [3] 80 0 42 See CA_42C Bandwidth Combination Set 0 in Table 5.6A.1-1 of TS 36.101 [3] CA_3A-7A-7A-8A CA_3A-7A, CA_3A-8A, CA_7A-8A 3 Yes Yes Yes Yes 70 0 7 See CA_7A-7A Bandwidth Combination Set 1 in Table 5.6A.1-3 of TS 36.101 [3] 8 Yes Yes 3 Yes Yes Yes Yes 60 1 7 See CA_7A-7A Bandwidth Combination Set 2 in Table 5.6A.1-3 of TS 36.101 [3] 8 Yes Yes CA_3A-7A-7A-26A CA_3A-7A, CA_3A-26A, CA_7A-26A 3 Yes Yes Yes Yes 75 0 7 See CA_7A-7A bandwidth combination set 3 in table 5.6A.1-3 of TS 36.101 [3] 26 Yes Yes Yes CA_3A-7A-20A-32A CA_3A_7A CA_3A_20A CA_7A_20A 3 Yes Yes Yes Yes 80 0 7 Yes Yes Yes 20 Yes Yes Yes Yes 32 Yes Yes Yes Yes CA_3A-28A-40C CA_3A-28A 3 Yes Yes Yes Yes 80 0 28 Yes Yes Yes Yes 40 See CA_40C Bandwidth combination set 0 in Table 5.6A.1-1 of TS 36.101 [3] CA_3A-28A-41A-42A CA_3A-41A 3 Yes Yes Yes Yes 70 0 28 Yes Yes 41 Yes Yes Yes 42 Yes Yes Yes CA_3A-28A-41C CA_3A-41A 3 Yes Yes Yes Yes 80 0 28 Yes Yes Yes Yes 41 See CA_41C Bandwidth combination set 0 in Table 5.6A.1-1 of TS 36.101 [3] CA_3A-41C-42A CA_3A-41A, CA_3A-42A, CA_41C 3 Yes Yes Yes Yes 80 0 41 See CA_41C Bandwidth combination set 0 in Table 5.6A.1-1 of TS 36.101 [3] 42 Yes Yes Yes CA_3A-41A-42C CA_3A-41A, CA_3A-42A 3 Yes Yes Yes Yes 80 0 41 Yes Yes Yes 42 See CA_42C Bandwidth combination set 1 in Table 5.6A.1-1 CA_3A-41D CA_3A-41A, CA_41C 3 Yes Yes Yes Yes 80 0 41 See CA_41D Bandwidth Combination Set 0 in Table 5.6A.1-1 of TS 36.101 [3] CA_3A-42A-42C CA_3A-42A 3 Yes Yes Yes Yes 80 0 42 See CA_42A-42C Bandwidth Combination Set 0 in Table 5.6A.1-3 of TS 36.101 [3] CA_3A-42D CA_3A-42A 3 Yes Yes Yes Yes 80 0 42 See CA_42D Bandwidth Combination Set 0 in Table 5.6A.1-1 of TS 36.101 [3] CA_40C-42C CA_40C, CA_42C 40 See CA_40C Bandwidth combination set 1 in Table 5.6A.1-1 of TS 36.101 [3] 80 0 42 See CA_42C Bandwidth combination set 0 in Table 5.6A.1-1 of TS 36.101 [3] CA_41C-48C 41C 41 See CA_41C Bandwidth combination set 2 in Table 5.6A.1-1 of TS 36.101 [3] 80 0 48 See CA_48C Bandwidth combination set 0 in Table 5.6A.1-1 of TS 36.101 [3] CA_41D-48A 41C 41 See CA_41D Bandwidth combination set 0 in Table 5.6A.1-1 of TS 36.101 [3] 80 0 48 CA_wA-xA-yA-zA CA_wA-xA, CA_wA-yA, CA_wA-zA, CA_xA-yA, CA_xA-zA, CA_yA-zA W Up to 80 X Y Z NOTE 1: B41 and B42 are assumed to be synchronized (i.e. without simultaneous Rx/Tx) NOTE 2: For the corresponding CA configuration, UL transmission in this E-UTRA band is not allowed. Table 1-3: 5DL/2UL CA configurations part of the WI E-UTRA CA configuration / Bandwidth combination set E-UTRA CA Configuration Uplink CA configurations E-UTRA Bands 1.4 MHz 3 MHz 5 MHz 10 MHz 15 MHz 20 MHz Maximum aggregated bandwidth [MHz] Bandwidth combination set CA_1A-3A-3A-19A-21A CA_1A-3A, CA_1A-19A, CA_1A-21A, CA_3A-19A, CA_3A-21A, CA_19A-21A 1 Yes Yes Yes Yes 90 0 3 See CA_3A-3A Bandwidth Combination Set 0 in Table 5.6A.1-3 of TS 36.101 [3] 19 Yes Yes Yes 21 Yes Yes Yes CA_1A-3A-3A-42C CA_1A-3A, CA_1A-42A, CA_3A-42A 1 Yes Yes Yes Yes 100 0 3 See CA_3A-3A Bandwidth Combination Set 0 in Table 5.6A.1-3 of TS 36.101 [3] 42 See CA_42C Bandwidth Combination Set 0 in Table 5.6A.1-1 of TS 36.101 [3] CA_1A-3A-7A-7A-26A CA_1A_3A, CA_1A_7A, CA_1A_26A, CA_3A_7A, CA_3A_26A CA_7A_26A 1 Yes Yes Yes Yes 85 0 3 Yes Yes Yes Yes 7 See CA_7A-7A bandwidth combination set 3 in table 5.6A.1-3 of TS 36.101 [3] 26 Yes Yes Yes CA_1A-3C-7C CA_1A-3A CA_1A-7A CA_3A-7A CA_3C CA_7C 1 Yes Yes Yes Yes 100 0 3 See CA_3C Bandwidth Combination Set 0 in Table 5.6A.1-1 of TS 36.101 [3] 7 See CA_7C Bandwidth Combination Set 1 in Table 5.6A.1-1 of TS 36.101 [3] 1 Yes Yes Yes Yes 100 1 3 See CA_3C Bandwidth Combination Set 0 in Table 5.6A.1-1 of TS 36.101 [3] 7 See CA_7C Bandwidth Combination Set 2 in Table 5.6A.1-1 of TS 36.101 [3] CA_1A-3A-7C-28A CA_1A-3A CA_1A-7A CA_3A-7A CA_7C CA_7A-28A CA_1A-28A CA_3A-28A 1 Yes Yes Yes Yes 100 0 3 Yes Yes Yes 7 See CA_7C Bandwidth Combination Set 2 in Table 5.6A.1-1 28 Yes Yes Yes CA_1A-3A-41D2 CA_1A-3A 1 Yes Yes Yes Yes 100 0 3 Yes Yes Yes Yes 41 See CA_41D Bandwidth Combination Set 0 in Table 5.6A.1-1 of TS 36.101 [3] CA_1A-41C-42C CA_1A-42A CA_42C 1 Yes Yes Yes Yes 100 0 41 See CA_41C_BW combination set 0 in Table 5.6A.1-1 of TS 36.101 [3] 42 See CA_42C_BW combination set 1 in Table 5.6A.1-1 of TS 36.101 [3] CA_1A-42C-42C CA_1A-42A 1 Yes Yes Yes Yes 100 0 42 See CA_42C-42C Bandwidth Combination Set 0 in Table 5.6A.1-3 of TS 36.101 [3] CA_1A-42E CA_1A-42A 1 Yes Yes Yes Yes 100 0 42 See CA_42E Bandwidth Combination Set 0 in Table 5.6A.1-1 of TS 36.101 [3] CA_3A-3A-7A-7A-8A CA_3A-7A, CA_3A-8A, CA_7A-8A 3 See CA_3A-3A Bandwidth Combination Set 0 in table 5.6A.1-3 90 0 7 See CA_7A-7A Bandwidth Combination Set 1 in table 5.6A.1-3 8 Yes Yes 3 See CA_3A-3A Bandwidth Combination Set 1 in table 5.6A.1-3 70 1 7 See CA_7A-7A Bandwidth Combination Set 2 in table 5.6A.1-3 8 Yes Yes CA_3A-41C-42C CA_42C, CA_3A-41A, CA_3A-42A, CA_41A-42A, CA_41C 3 Yes Yes Yes Yes 100 0 41 See CA_41C Bandwidth combination set 0 in TS 36.101 [3] Table 5.6A.1 42 See CA_42C Bandwidth combination set 1 in TS 36.101 [3] Table 5.6A.1 CA_3A-28A-41A-42C CA_42C 3 Yes Yes Yes Yes 90 0 28 Yes Yes 41 Yes Yes Yes 42 See CA_42C Bandwidth combination set 1 in TS 36.101 [3] Table 5.6A.1 CA_3A-42E CA_3A-42A 3 Yes Yes Yes Yes 100 0 42 See CA_42E Bandwidth Combination Set 0 in Table 5.6A.1-1 of TS 36.101 [3] CA_3A-42C-42C CA_3A-42A 3 Yes Yes Yes Yes 100 0 42 See CA_42C-42C Bandwidth Combination Set 0 in Table 5.6A.1-3 of TS 36.101 [3] CA_3A-3A-42D CA_3A-42A 3 See CA_3A-3A Bandwidth Combination Set 0 in Table 5.6A.1-3 of TS 36.101 [3] 100 0 42 See CA_42D Bandwidth Combination Set 0 in Table 5.6A.1-1 of TS 36.101 [3] CA_28A-41C-42C CA_42C 28 Yes Yes 90 0 41 See CA_41C Bandwidth combination set 0 in TS 36.101 [3] Table 5.6A.1 42 See CA_42C Bandwidth combination set 1 in TS 36.101 [3] Table 5.6A.1 CA_41C-48D 41C 41 See CA_41C Bandwidth combination set 2 in Table 5.6A.1-1 of TS 36.101 [3] 100 0 48 See CA_48D Bandwidth combination set 0 in Table 5.6A.1-1 of TS 36.101 [3] CA_41D-48C 41C 41 See CA_41D Bandwidth combination set 0 in Table 5.6A.1-1 of TS 36.101 [3] 100 0 48 See CA_48C Bandwidth combination set 0 in Table 5.6A.1-1 of TS 36.101 [3] CA_vA-wA-xA-yA-zA CA_vA-wA or CA_vA-xA or CA_vA-yA or CA_vA-zA or CA_wA-xA or CA_wA-yA or CA_wA-zA or CA_xA-yA or CA_xA-zA or CA_yA-zA V Up to 100 0 W X Y Z NOTE 1: B41 and B42 are assumed to be synchronized (i.e. without simultaneous Rx/Tx) NOTE 2: For the corresponding CA configuration, UL transmission in this E-UTRA band is not allowed. This TR contains a general part and band specific combination part. The actual requirements are added to the corresponding technical specifications.
36.715-02-01
Evolved Universal Terrestrial Radio Access (E-UTRA); LTE Advanced inter-band Carrier Aggregation (CA) Rel-15 for 2 Down Link (DL) / 1 Up Link (UL)
TR
15.0.0
R4
https://www.3gpp.org/ftp/Specs/archive/36_series/36.715-02-01/36715-02-01-f00.zip
The present document is a technical report for 2DL/1UL Inter-band Carrier Aggregation under Rel-15 time frame. The purpose is to gather the relevant background information and studies in order to address 2DL/1UL Inter-band Carrier Aggregation requirements for the Rel-15 band combinations in Table 1-1. Table 1-1: Release 15 2DL/1UL inter-band carrier aggregation combinations CA combination REL independent from CA_20A-40A 12 CA_38A-40A 10 CA_1A-7A 10 CA_7A-20A 10 CA_8A-20A 10 CA_34A-39A 10 CA_34A-41A 10 CA_40A-43A 10 CA_42A-43A 10 CA_8A-32A 10 CA_8A-38A 12 CA_66A-70A 10 CA_11A-26A 10 CA_4A-71A 10 CA_66A-71A 10 CA_2A-14A 10 CA_14A-66A 10 CA_14A-30A 10 CA_2A-71A 10 This TR contains a band specific combination part. The actual requirements are added to the corresponding technical specifications.
36.715-02-02
Evolved Universal Terrestrial Radio Access (E-UTRA); LTE Advanced inter-band Carrier Aggregation (CA) Rel-15 for 2 Down Link (DL) / 2 Up Link (UL)
TR
15.0.0
R4
https://www.3gpp.org/ftp/Specs/archive/36_series/36.715-02-02/36715-02-02-f00.zip
The present document is a technical report for 2DL/2UL Inter-band Carrier Aggregation under Rel-15 time frame according to the New CA WI approach in Release 14 [1]. The purpose is to gather the relevant background information and studies in order to address 2DL/2UL Inter-band Carrier Aggregation requirements for the Rel-15 band combinations in Table 1-1. Table 1-1: Release 15 2DL/2UL inter-band carrier aggregation combinations CA combination REL independent from CA_7A-26A REL-11 CA_26A-46A REL-14 CA_28A-41A REL-12 CA_1A-20A REL-11 CA_13A-66A REL-11 CA_2A-48A REL-14 CA_5A-48A REL-14 CA_13A-48A REL-14 CA_48A-66A REL-14 CA_5A-46A REL-14 CA_13A-46A REL-14 CA_46A-66A REL-14 CA_1A-11A REL-11 CA_11A-18A REL-11 CA_11A-26A REL-11 CA_40A-42A REL-11 CA_3A-18A REL-11 CA_26A-48A REL-14 This TR contains a general part and band specific combination part. The actual requirements are added to the corresponding technical specifications.
36.715-03-01
Evolved Universal Terrestrial Radio Access (E-UTRA); LTE Advanced inter-band Carrier Aggregation (CA) Rel-15 for 3 Down Link (DL) / 1 Up Link (UL)
TR
15.0.0
R4
https://www.3gpp.org/ftp/Specs/archive/36_series/36.715-03-01/36715-03-01-f00.zip
The present document is a technical report for 3DL/1UL Inter-band Carrier Aggregation under Rel-15 time frame. The purpose is to gather the relevant background information and studies in order to address 3DL/1UL Inter-band Carrier Aggregation requirements for the Rel-15 band combinations in Table 1-1. Table 1-1: Release 15 3DL/1UL inter-band carrier aggregation combinations CA combination REL independent from CA_1A-1A-7A_BCS0 Rel-11 CA_1A-3A-7A_BCS1 Rel-10 CA_3A-7A-20A_BCS1 Rel-10 CA_3A-8A-32A_BCS0 Rel-10 CA_8A-39A-41A _BCS0 Rel-12 CA_3A-28A-38A_BCS0 Rel-12 CA_7A-28A-38A_BCS0 Rel-12 CA_25A-25A-26A_BCS0 Rel-11 CA_48A-66A-66A _BCS0 Rel-11 CA_48A-66B_BCS0 Rel-10 CA_48A-66C_BCS0 Rel-10 CA_2A-5A-46A _BCS0 Rel-13 CA_5A-46A-66A _BCS0 Rel-13 CA_2A-13A-46A _BCS0 Rel-13 CA_13A-46A-66A _BCS0 Rel-13 CA_2C-66A_BCS0 Rel-10 CA_7A-66A-66A_BCS0 Rel-11 CA_7C-28A_BCS1 Rel -10 CA_7C-66A_BCS0 Rel -10 CA_2A-4A-28A_BCS0 Rel -10 CA_8A-20A-28A_BCS0 Rel-10 CA_1A-7A-8A_BCS1 Rel-10 CA_1A-7A-20A_BCS2 Rel-10 CA_2A-14A-30A_BCS0 Rel-10 CA_14A-66A-66A_BCS0 Rel -11 CA_2A-2A-46A_BCS0 Rel-13 CA_3A-3A-42A_BCS0 Rel-12 CA_3A-3A-19A_BCS0 Rel-11 CA_3A-3A-21A_BCS0 Rel-11 CA_1A-42A-42A_BCS0 Rel-12 CA_3A-42A-42A_BCS0 Rel-12 CA_20A-38A-40A_BCS0 Rel-12 CA_20A-40C_BCS0 Rel-12 CA_20A-40A-40A_BCS0 Rel-12 CA_38A-40C_BCS1 Rel-10 CA_38A-40A-40A_BCS1 Rel-11 CA_1C-5A_BCS0 Rel-10 CA_7A-8A-40A_BCS0 Rel-12 CA_8A-40C_BCS0 Rel-12 CA_1A-8A-38A_BCS0 Rel-12 CA_3A-8A-38A_BCS0 Rel-12 CA_3A-3A-46A_BCS0 Rel-13 CA_7A-7A-46A_BCS0 Rel-13 CA_1C-41A_BCS0 Rel-12 CA_1C-8A_BCS0 Rel-10 CA_3C-32A_BCS0 Rel-10 CA_1A-3A-32A_BCS0 Rel-10 CA_2A-5A-48A _BCS0 Rel -10 CA_2A-13A-48A _BCS0 Rel -10 CA_5A-48A-66A _BCS0 Rel -10 CA_5A-48A-48A _BCS0 Rel -11 CA_5A-48C_BCS0 Rel -10 CA_13A-48A-66A _BCS0 Rel -10 CA_13A-48A-48A _BCS0 Rel -11 CA_13A-48C_BCS0 Rel -10 CA_20A-38C_BCS0 Rel-12 CA_7C-20A_BCS0 Rel-10 CA_1A-20A_32A_BCS0 Rel-11 CA_29A-70C_BCS0 Rel-11 CA_66A-66A-70A_BCS0 Rel-11 CA_66C-70A_BCS0 Rel-10 CA_66A-70C_BCS0 Rel-10 CA_29A-66A-70A_BCS0 Rel-10 CA_1A-7A-32A_BCS0 Rel-11 CA_3DL_2A-4A-71A_1UL_BCS0 Rel-10 CA_3DL_2A-66A-71A_1UL_BCS0 Rel-10 CA_3DL_66A-66A-71A_1UL_BCS0 Rel-11 CA_3DL_66C-71A_1UL_BCS0 Rel-10 CA_3DL_4A-4A-71A_1UL_BCS0 Rel-11 CA_3DL_2A-2A-71A_1UL_BCS0 Rel-11 CA_3DL_3C-38A_1UL_BCS0 Rel-12 CA_3DL_7A-8A-38A_1UL_BCS0 Rel-12 CA_3DL_66A-70A-71A_1UL_BCS0 Rel-10 CA_3DL_70C-71A_1UL_BCS0 Rel-10 CA_3DL_2A-14A-66A_1UL_BCS0 Rel-11 CA_3DL_2A-2A-14A_1UL_BCS0 Rel-11 CA_3DL_14A-30A-66A_1UL_BCS0 Rel-11 CA_3DL_7A-12A-66A_1UL_BCS0 Rel-11 CA_3DL_2A-2A-7A_1UL_BCS0 Rel-11 CA_3DL_7A-12B_1UL_BCS0 Rel-11 CA_3DL_12A-46C_1UL_BCS0 Rel-13 CA_3DL_5A-12A-46A_1UL_BCS0 Rel-13 CA_3DL_48C-71A_1UL_BCS0 Rel-12 CA_3DL_48A-48A-71A_1UL_BCS0 Rel-12 CA_3DL_46C-71A_1UL_BCS0 Rel-13 CA_3DL_1A-7A-7A_1UL_BCS1 Rel-11 CA_3DL_26A-48A-48A_1UL_BCS0 Rel-14 CA_3DL_26A-48C_1UL_BCS0 Rel-14 CA_3DL_41A-48C_1UL_BCS0 Rel-10 CA_3DL_41C-48A_1UL_BSC0 Rel-10 CA_3DL_1A-3A-43A_1UL_BCS0 Rel-12 CA_3DL_1A-20A-43A_1UL_BCS0 Rel-12 CA_3DL_1A-32A-42A_1UL_BCS0 Rel-12 CA_3DL_1A-32A-43A_1UL_BCS0 Rel-12 CA_3DL_1A-42A-43A_1UL_BCS0 Rel-12 CA_3DL_3A-20A-43A_1UL_BCS0 Rel-12 CA_3DL_3A-32A-42A_1UL_BCS0 Rel-12 CA_3DL_3A-32A-43A_1UL_BCS0 Rel-12 CA_3DL_3A-42A-43A_1UL_BCS0 Rel-12 CA_3DL_20A-32A-42A_1UL_BCS0 Rel-12 CA_3DL_20A-32A-43A_1UL_BCS0 Rel-12 CA_3DL_32A-42A-43A_1UL_BCS0 Rel-12 CA_3DL_3C-46A_1UL_BCS0 Rel-13 CA_3DL_7A-7A-66A_1UL_BCS0 Rel-11 CA_3DL_3A-7A-46A_1UL_BCS0 Rel-13 CA_3DL_4A-48C_1UL_BCS0 Rel-13 CA_3DL_5B-46A_1UL_BCS0 Rel-11 CA_3DL_ 2A-13A-48A_1UL_BCS0 Rel-11 CA_3DL_25A-46C_1UL_BCS0 Rel-13 CA_3DL_25A-25A-41A_1UL_BSC0 Rel-13 CA_3DL_5A_12A-48A_1UL_BCS0 Rel-12 CA_3DL_12A-48C_1UL_BCS0 Rel-12 CA_3DL_1A-3A-18A_1UL_BCS0 Rel-10 CA_3DL_3A-11A-18A_1UL_BCS0 Rel-10 CA_3DL_3A-11A-26A_1UL_BCS0 Rel-10 CA_3DL_3A-3A-28A_1UL_BCS0 Rel-11 CA_3DL_4A-7A-28A_1UL_BCS0 Rel-10 CA_3DL_2A-4A-28A_1UL_BCS0 Rel-10 CA_3DL_2A-7A-28A_1UL_BCS0 Rel-10 CA_3DL_5A-7A-28A_1UL_BCS0 Rel-10 CA_3DL_2A-5A-7A_1UL_BCS0 Rel-10 CA_3DL_2A-5A-28A_1UL_BCS0 Rel-10 CA_3DL_2A-7A-30A_1UL_BCS0 Rel-11 CA_3DL_7A-30A-66A_1UL_BCS0 Rel-11 CA_3DL_2A-7A-66A_1UL_BCS0 Rel-11 CA_3DL_2A-7A-46A_1UL_BCS0 Rel-12 CA_3DL_7A-46A-66A_1UL_BCS0 Rel-12 CA_3DL_46A_48C_1UL_BCS0 Rel-13 CA_3DL_46A_48A_48A_1UL_BCS0 Rel-13 CA_3DL_46C_48A_1UL_BCS0 Rel-13 CA_3DL_46A_48A_ 71A_1UL_BCS0 Rel-13 CA_3DL_25A-26A-41A_1UL_BCS0 Rel-12 3DL_2A-46A-48A REL-13 3DL_46A-48A-66A REL-13 This TR contains a general part and band specific combination part. The actual requirements are added to the corresponding technical specifications.
36.715-04-01
Evolved Universal Terrestrial Radio Access (E-UTRA); LTE Advanced inter-band Carrier Aggregation (CA) Rel-15 for 4 Down Link (DL) / 1 Up Link (UL)
TR
15.0.0
R4
https://www.3gpp.org/ftp/Specs/archive/36_series/36.715-04-01/36715-04-01-f00.zip
The present document is a technical report for 4DL/1UL Inter-band Carrier Aggregation under Rel-15 time frame. The purpose is to gather the relevant background information and studies in order to address 4DL/1UL Inter-band Carrier Aggregation requirements for the Rel-15 band combinations in Table 1-1. Table 1-1: Release 15 4DL/1UL inter-band carrier aggregation combinations CA combination REL-independent from CA_4DL_1C-3A-5A_1UL_BCS0 REL-11 CA_4DL_1A-1A-3A-7A_1UL_BCS0 REL- 11 CA_4DL_1A-3A-3A-7A_1UL_BCS0 REL- 11 CA_4DL_1A-3A-7A-7A_1UL_BCS1 REL- 11 CA_4DL_1A-3A-7A-8A_1UL_BCS1 REL- 11 CA_4DL_1A-3A-7A-20A_1UL_BCS1 REL- 11 CA_4DL_1A-3C-7A_1UL_BCS1 REL- 11 CA_4DL_1A-3A-7A-32A_BCS0 REL-12 CA_4DL_1A-3A-8A-20A_1UL_BCS0 REL-12 CA_4DL_1A-3A-8A-28A_1UL_BCS0 REL-11 CA_4DL_1A-3A-8A-38A_1UL_BCS0 REL-12 CA_4DL_1C-3A-8A_1UL_BCS0 REL-11 CA_4DL_1A-3A-8A-41A_1UL_BCS0 REL-12 CA_4DL_1A-3C-20A_1UL_BCS0 REL-11 CA_4DL_1A-3A-11A-28A_1UL_BCS0 REL-11 CA_4DL_1A-3A-20A-32A_1UL_BCS0 REL- 11 CA_4DL_1A-3A-3A-19A_1UL_BCS0 REL-11 CA_4DL_1A-3A-3A-21A_1UL_BCS0 REL-11 CA_4DL_1C-3A-41A_1UL_BCS0 REL-12 CA_4DL_1A-3C-41A_1UL_BCS0 REL-12 CA_4DL_1A-3A-41C_1UL_BCS0 REL-12 CA_4DL_1A-3A-3A-42A_1UL_BCS0 REL-12 CA_4DL_1A-3A-20A-32A_1UL_BCS1 REL-11 CA_4DL_1A-3A-32A-42A _1UL_BCS0 REL-12 CA_4DL_1A-3A-3A-20A_1UL_BCS0 REL-11 CA_4DL_1A-3A-3A-28A_1UL_BCS0 REL-11 CA_4DL_1A-3A-46C_1UL_BCS0 REL-13 CA_4DL_1A-7A-7A-8A_1UL_BCS0 REL-11 CA_4DL_1A-20A-32A-42A _1UL_BCS0 REL-12 CA_4DL_3A-20A-32A-42A _1UL_BCS0 REL-12 CA_4DL_1A-3A-20A-43A _1UL_BCS0 REL-12 CA_4DL_1A-3A-32A-43A _1UL_BCS0 REL-12 CA_4DL_1A-20A-32A-43A _1UL_BCS0 REL-12 CA_4DL_1A-32A-42A-43A _1UL_BCS0 REL-12 CA_4DL_3A-20A-32A-43A _1UL_BCS0 REL-12 CA_4DL_3A-32A-42A-43A _1UL_BCS0 REL-12 CA_4DL_1A-3A-42A-43A _1UL_BCS0 REL-12 CA_4DL_1A-7A-8A-20A_1UL_BCS0 REL-11 CA_4DL_1A-7A-8A-40A_1UL_BCS0 REL-12 CA_4DL_1A-7C-20A_1UL_BCS0 REL-11 CA_4DL_1A-7A-20A-32A_1UL_BCS0 REL-12 CA_4DL_1A-7A-40C_1UL_BCS0 REL-12 CA_4DL_1A-8A-11A-28A_1UL_BCS0 REL-11 CA_4DL_1A-8A-20A-28A_1UL_BCS0 REL- 11 CA_4DL_1A-8A-40C_1UL_BCS0 REL-12 CA_4DL_1A-41D_1UL_BCS0 REL-12 CA_4DL_1A-42A-42C_1UL_BCS0 REL-12 CA_4DL_1A-42D_1UL_BCS0 REL-12 CA_4DL_2A-4A-4A-13A_1UL_BCS0 REL-11 CA_4DL_2A-2A-4A-13A _1UL_BCS0 REL-11 CA_4DL_2A-2A-4A-71A_1UL_BCS0 REL-11 CA_4DL_2A-2A-5B_1UL_BCS0 REL-11 CA_4DL_2A-5A-7A-28A_1UL_BCS0 REL-10 CA_4DL_2A-5A-46C_1UL_BCS0 REL-13 CA_4DL_2A-5A-48A-48A_1UL_BCS0 REL-11 CA_4DL_2A-5A-48C_1UL_BCS0 REL-11 CA_4DL_2A-5A-48A-66A_1UL_BCS0 REL-12 CA_4DL_2A-2A-7A-12A_1UL_BCS0 REL-11 CA_4DL_2A-7A-12B_1UL_BCS0 REL-11 CA_4DL_2A-7A-12A-66A_1UL_BCS0 REL-11 CA_4DL_2A-7A-30A-66A_1UL_BSC0 REL-11 CA_4DL_2A-7A-46A-66A_1UL_BSC0 REL-13 CA_4DL_2A-2A-7A-66A_1UL_BCS0 REL-11 CA_4DL_2A-7A-7A-66A_1UL_BCS0 REL-11 CA_4DL_2A-7C-66A_1UL_BCS0 REL-11 CA_4DL_2A-7A-66A-66A_1UL_BCS0 REL-11 CA_4DL_2A-14A-30A-66A_1UL_BCS0 REL-11 CA_4DL_2A-2A-14A-30A_1UL_BCS0 REL-11 CA_4DL_2A-2A-14A-66A_1UL_BCS0 REL-11 CA_4DL_2A-14A-66A-66A_1UL_BCS0 REL-11 CA_4DL_2A-29A-30A-66A_1UL_BCS0 REL-11 CA_4DL_2A-66A-66A-66A_1UL_BCS0 REL-11 CA_4DL_2A-13A-46C_1UL_BCS0 REL-13 CA_4DL_2A-13A-48A-48A_1UL_BCS0 REL-11 CA_4DL_2A-13A-48C_1UL_BCS0 REL-11 CA_4DL_2A-13A-48A-66A_1UL_BCS0 REL-12 CA_4DL_2A-2A-46C_1UL_BCS0 REL-13 CA_4DL_2A-46C-48A_1UL_BCS0 REL-13 CA_4DL_2A-46A-48C_1UL_BCS0 REL-13 CA_4DL_2A-46A-48A-66A_1UL_BCS0 REL-13 CA_4DL_2A-48A-48C _1UL_BCS0 REL-11 CA_4DL_2A-48C-66A_1UL_BCS0 REL-11 CA_4DL_2A-48D _1UL_BCS0 REL-11 CA_4DL_2A-2A-66A-71A_1UL_BCS0 REL-11 CA_4DL_2A-66C-71A_1UL_BCS0 REL-11 CA_4DL_2A-66A-66A-71A_1UL_BCS0 REL-11 CA_4DL_2C-66A-66A_1UL_BCS0 REL-11 CA_4DL_3C-7A-8A_1UL_BCS0 REL-11 CA_4DL_3A-7A-8A-20A_1UL_BCS0 REL-12 CA_4DL_3A-7A-8A-38A_1UL_BCS0 REL-12 CA_4DL_3A-7A-8A-40A_1UL_BCS0 REL-12 CA_4DL_3C-7A-20A_1UL_BCS1 REL-11 CA_4DL_3A-7C-20A_1UL_BCS0 REL-11 CA_4DL_3A-3A-20A-28A_1UL_BCS0 REL-11 CA_4DL_3A-3A-7A-20A_1UL_BCS0 REL-11 CA_4DL_3A-3A-7A-28A_1UL_BCS0 REL-11 CA_4DL_3A-7C-28A_1UL_BCS1 REL-11 CA_4DL_3A-7A-28A-38A_1UL_BCS0 REL-12 CA_4DL_3C-7A-32A_1UL_BCS0 REL-12 CA_4DL_3C-7A-38A_1UL_BCS0 REL-12 CA_4DL_3A-7A-46C_1UL_BCS0 REL-13 CA_4DL_3A-8A-11A-28A_1UL_BCS0 REL-11 CA_4DL_3A-8A-20A-28A_1UL_BCS0 REL-11 CA_4DL_3C-8A-38A_1UL_BCS0 REL-12 CA_4DL_3A-8A-40C_1UL_BCS0 REL-12 CA_4DL_3A-3A-19A-21A_1UL_BCS0 REL-11 CA_4DL_3A-3A-19A-42A_1UL_BCS0 REL-12 CA_4DL_3C-20A-28A_1UL_BCS0 REL- 11 CA_4DL_3A-21A-28A-42A_1UL_BCS0 REL-12 CA_4DL_3A-3A-21A-42A_1UL_BCS0 REL-12 CA_4DL_3C-28A-38A_1UL_BCS0 REL-12 CA_4DL_3A-3A-28A-42A_1UL_BCS0 REL-12 CA_4DL_3A-3A-42C_1UL_BCS0 REL-12 CA_4DL_3A-42A-42C_1UL_BCS0 REL-12 CA_4DL_3A-42D_1UL_BCS0 REL-12 CA_4DL_3C-46C_1UL_BCS0 REL-13 CA_4DL_4A-48D_1UL_BCS0 REL-11 CA_4DL_5A-12A-46C_1UL_BCS0 REL-13 CA_4DL_5A-12A-48C_1UL_BCS0 REL-12 CA_4DL_5A-46C-66A_1UL_BCS0 REL-13 CA_4DL_5B-46C_1UL_BCS0 REL-13 CA_4DL_5A-48A-48A-66A_1UL_BCS0 REL-11 CA_4DL_5A-48C-66A_1UL_BCS0 REL-11 CA_4DL_5A-48A-48C _1UL_BCS0 REL-11 CA_4DL_5A-48D _1UL_BCS0 REL-11 CA_4DL_7A-8A-40C_1UL_BCS0 REL-12 CA_4DL_7A-12B-66A_1UL_BCS0 REL-11 CA_4DL_7A-40D_1UL_BCS0 REL-12 CA_4DL_7A-7A-46C_1UL_BCS0 REL-13 CA_4DL_7A-7A-66A-66A_1UL_BCS0 REL-11 CA_4DL_7C-66A-66A-1UL_BCS0 REL-11 CA_4DL_12A-46D_1UL_BCS0 REL-13 CA_4DL_12A-48D_1UL_BCS0 REL-12 CA_4DL_13A-46C-66A_1UL_BCS0 REL-13 CA_4DL_13A-48A-48C _1UL_BCS0 REL-11 CA_4DL_13A-48A-48A-66A_1UL_BCS0 REL-11 CA_4DL_13A-48D _1UL_BCS0 REL-11 CA_4DL_13A-48A-66B_1UL_BCS0 REL-11 CA_4DL_13A-48A-66C_1UL_BCS0 REL-11 CA_4DL_13A-48C-66A_1UL_BCS0 REL-11 CA_4DL_13A-66A-66A-66A_1UL_BCS0 REL-11 CA_4DL_14A-30A-66A-66A_1UL_BCS0 REL-11 CA_4DL_14A-66A-66A-66A_1UL_BCS0 REL-11 CA_4DL_19A-42D_1UL_BCS0 REL-12 CA_4DL_20A-38A-40C_1UL_BCS0 REL-12 CA_4DL_20A-38A-40A-40A_1UL_BCS0 REL-12 CA_4DL_20A-40D_1UL_BCS0 REL-12 CA_4DL_21A-42D_1UL_BCS0 REL-12 CA_4DL_25A-25A-26A-41A_1UL_BCS0 REL-12 CA_4DL_25A-46D_1UL_BCS0 REL-13 CA_4DL_25A-25A-41C_1UL_BSC0 REL-13 CA_4DL_28A-42D_1UL_BCS0 REL-12 CA_4DL_29A-30A-66A-66A_1UL_BSC0 REL-11 CA_4DL_29A-66A-66A-70A_1UL_BCS0 REL-11 CA_4DL_29A-66C-70A_1UL_BCS0 REL-10 CA_4DL_29A-66A-70C_1UL_BCS0 REL-10 CA_4DL_38A-40D_1UL_BCS0 REL-10 CA_4DL_41C-48C_1UL_BCS0 REL-11 CA_4DL_41A-48D_1UL_BCS0 REL-11 CA_4DL_41D-48A_1UL_BCS0 REL-11 CA_4DL_46C-66A-66A_1UL_BCS0 REL-13 CA_4DL_46A-66A-66A-66A_1UL_BCS0 REL-13 CA_4DL_46C-48A-48A_1UL_BCS0 REL-13 CA_4DL_46C-48C_1UL_BCS0 REL-13 CA_4DL_46D-48A_1UL_BCS0 REL-13 CA_4DL_46C-48A-71A_1UL_BCS0 REL-13 CA_4DL_46D-71A_1UL_BCS0 REL-13 CA _4DL_46A-48C-71A_1UL_BCS0 REL-13 CA_4DL_46A-48A-48A-71A_1UL_BCS0 REL-13 CA_4DL_46C-48A-66A_1UL_BCS0 REL-13 CA_4DL_46A-48C-66A_1UL_BCS0 REL-13 CA_4DL_46A-48D_1UL_BCS0 REL-13 CA_4DL_48D-66A_1UL_BCS0 REL-13 CA_4DL_48A-48A-48C_1UL_BCS0 REL-11 CA_4DL_48A-48A-66A-66A_1UL_BCS0 REL-11 CA_4DL_48A-48A-66B_1UL_BCS0 REL-11 CA_4DL_48A-48A-66C_1UL_BCS0 REL-11 CA_4DL_48C-66B_1UL_BCS0 REL-11 CA_4DL_48C-66C_1UL_BCS0 REL-11 CA_4DL_48A-66A-66A-66A_1UL_BCS0 REL-11 CA_4DL_48C-66A-66A_1UL_BCS0 REL-11 CA_4DL_66A-66A-70C_1UL_BCS0 REL-11 CA_4DL_66C-70C_1UL_BCS0 REL-10 CA_4DL_66C-70A-71A_1UL_BCS0 REL-11 CA_4DL_66A-70C-71A_1UL_BCS0 REL-11 CA_4DL_66A-66A-70A-71A_1UL_BCS0 REL-11 This TR contains a band specific combination part. The actual requirements are added to the corresponding technical specifications.
36.715-04-04
Evolved Universal Terrestrial Radio Access (E-UTRA); LTE Advanced Inter-band Carrier Aggregation (4DL/4UL) of Band 41C and Band 42C
TR
15.0.0
R4
https://www.3gpp.org/ftp/Specs/archive/36_series/36.715-04-04/36715-04-04-f00.zip
The present document is a technical report for the work item on LTE Advanced Inter-band Carrier Aggregation (4DL/4UL) of Band 41C and Band 42C. The purpose is to gather the relevant background information and studies in order to address up to 4DL/4UL Inter-band Carrier Aggregation requirements of Band 41 and Band 42.
36.715-05-01
Evolved Universal Terrestrial Radio Access (E-UTRA); LTE Advanced inter-band Carrier Aggregation (CA) Rel-15 for 5 Down Link (DL) / 1 Up Link (UL)
TR
15.0.0
R4
https://www.3gpp.org/ftp/Specs/archive/36_series/36.715-05-01/36715-05-01-f00.zip
The present document is a technical report for 5DL/1UL Inter-band Carrier Aggregation under Rel-15 time frame. The purpose is to gather the relevant background information and studies in order to address 5DL/1UL Inter-band Carrier Aggregation requirements for the Rel-15 band combinations in Table 1-1. Table 1-1: Release 15 5DL/1UL inter-band carrier aggregation combinations CA combination REL independent from CA_5DL_1A-1A-3C-7A_1UL_BCS0 REL-12 CA_5DL_1A-3A-3A-7A-7A_1UL_BCS0 REL-12 CA_5DL_1A-3C-7A-8A_1UL_BCS0 REL-12 CA_5DL_1A-3A-7C-20A_1UL_BCS0 Rel-12 CA_5DL_1A-3C-7A-20A_1UL_BCS0 REL-12 CA_5DL_1A-3A-3A-7A-20A_1UL_BCS0 Rel-12 CA_5DL_1A-3A-3A-7A-28A_1UL_BCS0 Rel-12 CA_5DL_1A-3A-8A-11A-28A_1UL_BCS0 REL-12 CA_5DL_1A-3A-3A-19A-21A_1UL_BCS0 Rel-12 CA_5DL_1A-3A-3A-20A-28A_1UL_BCS0 Rel-12 CA_5DL_1A-3A-20A-32A-42A_1UL_BCS0 Rel-12 CA_5DL_1A-3A-20A-32A-43A_1UL_BCS0 Rel-12 CA_5DL_1A-3A-32A-42A-43A_1UL_BCS0 Rel-12 CA_5DL_1A-3A-41D_1UL_BCS0 Rel-12 CA_5DL_1A-3A-3A-42C_1UL_BCS0 Rel-12 CA_5DL_1A-7A-8A-40C_1UL_BCS0 Rel-12 CA_5DL_1A-21A-42D_1UL_BCS0 Rel-12 CA_5DL_1A-42E_1UL_BCS0 Rel-12 CA_5DL_1A-42C-42C_1UL_BCS0 Rel-12 CA_5DL_2A-5A-46D _1UL_BCS0 REL-13 CA_5DL_2A-5B-66A-66A_1UL_BCS0 REL-12 CA_5DL_2A-2A-7A-12A-66A_1UL_BCS0 REL-12 CA_5DL_2A-7A-12B-66A_1UL_BCS0 REL-12 CA_5DL_2A-12A-30A-66A-66A_1UL_BCS0 REL-12 CA_5DL_2A-2A-12A-66A-66A_1UL_BCS0 REL-12 CA_5DL_2A-13A-46D _1UL_BCS0 REL-13 CA_5DL_2A-13A-48A-48C_1UL_BCS0 REL-12 CA_5DL_2A-13A-48D_1UL_BCS0 REL-12 CA_5DL_2A-13A-48A-48A-66A_1UL_BCS0 REL-12 CA_5DL_2A-13A-48C-66A_1UL_BCS0 REL-12 CA_5DL_2A-2A-14A-30A-66A_1UL_BCS0 REL-12 CA_5DL_2A-14A-30A-66A-66A_1UL_BCS0 REL-12 CA_5DL_2A-2A-14A-66A-66A_1UL_BCS0 REL-12 CA_5DL_2A-14A-66A-66A-66A_1UL_BCS0 REL-12 CA_5DL_2A-46E_1UL_BCS0 REL-13 CA_5DL_2A-2A-46D_1UL_BCS0 REL-13 5DL_2A-46D-48A REL-13 5DL_2A-46C-48C REL-13 5DL_2A-46A-48D REL-13 5DL_2A-46A-48C-66A REL-13 5DL_2A-46C-48A-66A REL-13 CA_5DL_2A-48C-48C_1UL_BCS0 REL-12 CA_5DL_2A-48A-48D_1UL_BCS0 REL-12 CA_5DL_2A-48E_1UL_BCS0 REL-12 CA_5DL_2A-48A-48C-66A_1UL_BCS0 REL-12 CA_5DL_2A-48D-66A_1UL_BCS0 REL-12 CA_5DL_3C-7A-8A-38A_1UL_BCS0 REL-12 CA_5DL_3A-7A-8A-40C_1UL_BCS0 Rel-12 CA_5DL_3C-7C-20A_1UL_BCS0 Rel-12 CA_5DL_3C-7A-20A-28A_1UL_BCS0 Rel-12 CA_5DL_3C-7A-28A-38A_1UL_BCS0 REL-12 CA_5DL_3A-7A-46D_1UL_BCS0 Rel-13 CA_5DL_3A-19A-21A-42C_1UL_BCS0 Rel-12 CA_5DL_3A-19A-42D_1UL_BCS0 Rel-12 CA_5DL_3A-21A-28A-42C_1UL_BCS0 Rel-12 CA_5DL_3A-21A-42D_1UL_BCS0 Rel-12 CA_5DL_3A-28A-42D_1UL_BCS0 Rel-12 CA_5DL_3A-42E_1UL_BCS0 Rel-12 CA_5DL_3A-42C-42C_1UL_BCS0 Rel-12 CA_5DL_3A-3A-42D_1UL_BCS0 Rel-12 CA_5DL_3C-46D_1UL_BCS0 REL-13 CA_5DL_4A-48E_1UL_BCS0 REL-12 CA_5DL_5A-12A-46D_1UL_BCS0 REL-13 CA_5DL_5A-12A-48D_1UL_BCS0 REL-12 CA_5DL_5B-30A-66A-66A_1UL_BCS0 REL-12 CA_5DL_5A-46D-66A _1UL_BCS0 REL-13 CA_5DL_7A-40E_1UL_BCS0 Rel-12 CA_5DL_7A-7A-46D_1UL_BCS0 REL-13 CA_5DL_12A-46E_1UL_BCS0 REL-13 CA_5DL_12A-48E_1UL_BCS0 REL-12 CA_5DL_13A-46D-66A _1UL_BCS0 REL-13 CA_5DL_13A-48C-48C_1UL_BCS0 REL-12 CA_5DL_13A-48A-48D_1UL_BCS0 REL-12 CA_5DL_13A-48E_1UL_BCS0 REL-12 CA_5DL_20A-38A-40D_1UL_BCS0 Rel-12 CA_5DL_21A-42E_1UL_BCS0 Rel-12 CA_5DL_25A-25A-26A-41C_1UL_BCS0 REL-12 CA_5DL_25A-25A-41D_1UL_BSC0 REL-12 CA_5DL_29A-66A-66A-70C_1UL_BCS0 REL-12 CA_5DL_29A-66C-70C_1UL_BCS0 REL-12 CA_5DL_41C-48D_1UL_BCS0 REL-12 CA_5DL_41D-48C_1UL_BCS0 REL-12 CA_5DL_46D-48A-48A_1UL_BCS0 REL-13 CA_5DL_46D-48C_1UL_BCS0 REL-13 5DL_46C-48D REL-13 5DL_46A-48E REL-13 5DL_46E-48A REL-13 5DL_46A-48D-66A REL-13 5DL_46D-48A-66A REL-13 5DL_46C-48C-66A REL-13 CA_5DL_46C-48C-71A_1UL_BCS0 REL-13 CA_5DL_46C-48A-48A-71A_1UL_BCS0 REL-13 CA_5DL_46D-66A-66A_1UL_BCS0 REL-13 CA_5DL_48A-48C-66B_1UL_BCS0 REL-12 CA_5DL_48A-48C-66C_1UL_BCS0 REL-12 CA_5DL_48C-48C-66A_1UL_BCS0 REL-12 CA_5DL_48A-48D-66A_1UL_BCS0 REL-12 CA_5DL_48E-66A_1UL_BCS0 REL-12 CA_5DL_66C-70C-71A_1UL_BCS0 REL-12 CA_5DL_66A-66A-70C-71A_1UL_BCS0 REL-12 This TR contains a band specific combination part. The actual requirements are added to the corresponding technical specifications.
36.742
Study on Self-Organizing Networks (SON) for enhanced Coordinated Multi-Point (eCoMP)
TR
15.0.0
R3
https://www.3gpp.org/ftp/Specs/archive/36_series/36.742/36742-f00.zip
This Technical Report covers the outcome of the study item “Study on SON for eCoMP for LTE” [2]. The present document provides use-case descriptions, possible solutions relative to the described use cases, and analysis of these solutions. The document is intended to gather all information and draw a conclusion on way forward. This activity involves the Radio Access work area of the 3GPP studies and has potential impact on the E-UTRAN.
36.746
Study on further enhancements to LTE Device to Device (D2D), UE to network relays for Internet of Things (IoT) and wearables
TR
15.1.1
R2
https://www.3gpp.org/ftp/Specs/archive/36_series/36.746/36746-f11.zip
The present document is the technical report for the study item "Further Enhancements LTE Device to Device, UE to Network Relays for IoT and Wearables" [2]. The objective of this SI is to study enhancements to ProSe UE-to-network relaying and to the LTE D2D framework for commercial and public safety applications such as wearable and IoT devices. It is assumed that evolved ProSe Remote UEs can support both WAN and D2D connection, and that evolved ProSe Remote UEs have 3GPP subscription credentials. The D2D connection is realized by either LTE sidelink or non-3GPP technology. All non-3GPP technologies should be considered transparent for generic relay architecture over them. The primary objective of the study is to address power efficiency for evolved ProSe Remote UEs (e.g. wearable devices).
36.748
Technical report for 450MHz E-UTRA FDD Band for LTE PPDR and PMR/PAMR in Europe
TR
15.0.0
R4
https://www.3gpp.org/ftp/Specs/archive/36_series/36.748/36748-f00.zip
The present document is a technical report for the work item “450MHz E-UTRA FDD Band for LTE PPDR and PMR/PAMR in Europe”, which was approved at TSG RAN#74 [3].
36.751
FDD operating band in the L-band for LTE
TR
15.0.0
R4
https://www.3gpp.org/ftp/Specs/archive/36_series/36.751/36751-f00.zip
The present document is a technical report for FDD operating band in the L-band for LTE to: - Specify a new LTE FDD operating band to include band numbering and core requirements with support of 1.4, 3, 5, 10, 15 and 20 MHz channel bandwidths to operate in at least Japan and possibly some other countries outside of Japan by considering that - UE transmit: 1 427 – 1 470 MHz, BS transmit: 1 475 – 1 518 MHz - Both Bands 11 and 21 requirements shall be met in order to achieve economies of scale considering the existing FDD-LTE deployment market in Japan, - If not, the upper edges of the band (1 470 and 1 518 MHz) are reconsidered. - Specify relevant requirements for protection of the EESS below 1 427 MHz based on the results of studies of the Study Item “Feasibility study on global application of LTE Band 11 and of LTE Band 21 UEs”, - Specify relevant requirements for Category M1 and NB1 for the developed FDD band,
36.753
TDD operating band in the L-band for LTE
TR
15.0.0
R4
https://www.3gpp.org/ftp/Specs/archive/36_series/36.753/36753-f00.zip
The present document is a technical report for the work item of introduction of TDD operating band in the L-band for LTE, which was approved at TSG RAN#74. The objective of this work item is to specify technical requirements for deploying LTE TDD operation in the L-band.
36.754
Study on Uplink (UL) data compression in LTE
TR
15.1.0
R2
https://www.3gpp.org/ftp/Specs/archive/36_series/36.754/36754-f10.zip
The present document is related to the study item "Study on UL data compression in LTE" [2]. This Technical Report constitutes performance evaluation of potential data compression schemes to support increased uplink capacity for E-UTRA. This document captures descriptions related to the evaluation methodology used technical outcomes of the study, analysis of potential UL data compression solutions and a conclusion on the way forward.
36.755
US 600 MHz Band for LTE
TR
15.0.0
R4
https://www.3gpp.org/ftp/Specs/archive/36_series/36.755/36755-f00.zip
The present document is a technical report for the work item of US 600 MHz LTE FDD band.
36.756
Study on architecture evolution for Evolved Universal Terrestrial Radio Access Network (E-UTRAN)
TR
1.0.0
R3
https://www.3gpp.org/ftp/Specs/archive/36_series/36.756/36756-100.zip
The present document captures the results of Study on architecture evolution for E-UTRAN in RP-170843 [2]. It identifies to study LTE CU and DU split architecture, including new interface and relative procedures.
36.757
Study on LTE DL 8Rx antenna ports
TR
15.0.0
R4
https://www.3gpp.org/ftp/Specs/archive/36_series/36.757/36757-f00.zip
The study item should fulfil the following objectives: - Evaluation of PDSCH demodulation performance with 8Rx for the transmission with rank lower than or equal to 4 - Identify the scenarios for the evaluations - Identify the necessary parameters including MCS, rank (≤4), antenna configuration and MIMO channel correlation, and propagation conditions - Minimize the evaluation case numbers as much as possible - Run link level simulations, and compare 8Rx performance with 4Rx under the identified scenarios to investigate the performance gain - Use MMSE-IRC as the reference receiver - Evaluation of PDSCH demodulation performance with 8Rx for the transmissions with rank higher than 4 - Identify the scenarios for the evaluations - Identify the necessary parameters including MCS, rank (>4), antenna configuration and MIMO channel correlation, and propagation conditions - Minimize the evaluation case numbers as much as possible - Run link level simulations, and investigate the operating SNR for higher layer transmission - Use MMSE-IRC as the reference receiver - Evaluation of PCFICH/PDCCH demodulation performance with 8Rx - Identify the scenarios for the evaluations - Identify the necessary parameters including CCE levels, antenna configuration and MIMO channel correlation, and propagation conditions - Minimize the evaluation case numbers as much as possible - Run link level simulations, and compare 8Rx performance with 4Rx performance under the identified scenarios to investigate the performance gain - Use MMSE as the reference receiver - Based on the above evaluation results, identify the UE RF, RRM and UE performance requirements, which will be specified. - Identify the scope and objectives of UE RF requirements for 8Rx - Decide the supported LTE bands for 8Rx - Identify the scope and objectives of RRM core requirements for 8Rx - Identify the scope and objectives of RRM performance requirements for 8Rx - Identify the scope and objectives of UE performance requirements for 8Rx - UE demodulation requirements - CSI requirements
36.758
TDD 3300-3400 MHz band for LTE
TR
15.0.0
R4
https://www.3gpp.org/ftp/Specs/archive/36_series/36.758/36758-f00.zip
The present document is a technical report for the work item of introduction of TDD operating band in the 3300-3400 MHz band for LTE, which was approved at TSG RAN#76. The objective of this work item is to specify technical requirements for deploying LTE TDD operation in the 3300-3400MHz band for Africa countries.
36.759
450 MHz Band for LTE in Region 3
TR
15.0.0
R4
https://www.3gpp.org/ftp/Specs/archive/36_series/36.759/36759-f00.zip
The present document is a technical report for the work item “450 MHz Band for LTE in Region 3”, which was approved at TSG RAN#75 [3].
36.760
LTE Advanced high power TDD UE (power class 2) for Rel-15
TR
15.0.0
R4
https://www.3gpp.org/ftp/Specs/archive/36_series/36.760/36760-f00.zip
The present document is the Technical Report for LTE Advanced power class 2 TDD UE. The purpose of this TR is to study the radio requirements for LTE Advanced power class 2 TDD UE as part of the Rel-15 work item in order to add power Class 2 UE to the bands in table 1-1. Table 1-1: Bands for power class 2 UE in Release 15 Band Power class 38 2 40 2 42 2
36.761
Extended-Band 12 new E-UTRA Band
TR
15.0.0
R4
https://www.3gpp.org/ftp/Specs/archive/36_series/36.761/36761-f00.zip
The present document is a technical report for the work item of Extended-Band 12 new E-UTRA Band, including in the first part, as stated in the WID [2], the outcome of the study phase looking at the co-existence impacts of the removal of the 1MHz guard between E block and A block (728-729 MHz).
36.766
Study on interference cancellation receiver for LTE BS
TR
15.0.0
R4
https://www.3gpp.org/ftp/Specs/archive/36_series/36.766/36766-f00.zip
The study item should fulfil the following objectives: - Identify the target deployment scenarios and the co-channel intra-cell interference conditions. The following scenario is to be considered: - Intra-cell inter-user interference scenario where multiple users are co-scheduled on the same resource elements. - Identify the reference receiver structures for PUSCH - Receiver structures based on interference cancellation is considered as a starting point, and practical and realizable implementation should be taken into account. - Agree on the interference models, interference levels and simulation parameters for link level evaluations - Evaluate the link-level gain for PUSCH over baseline receiver - Evaluate the link-level gain over baseline Rel-8 MMSE receiver for intra-cell inter-user interference scenarios. - The prioritization of number of Rx antennas will be discussed and decided in study phase.
36.777
Enhanced LTE support for aerial vehicles
TR
15.0.0
R2
https://www.3gpp.org/ftp/Specs/archive/36_series/36.777/36777-f00.zip
The present document contains the results and findings from the study item “Study on Enhanced Support for Aerial Vehicles” [2]. The purpose of this TR is to capture TSG RAN WG1 and WG2 understanding of the performance of Release-14 LTE networks when used to serve aerial vehicles like drones and to document the identified further performance enhancing solutions to optimize the LTE connectivity for aerial vehicles. This activity involves the Radio Access work area of the 3GPP studies and has impacts both on the Mobile Equipment and Access Network of the 3GPP systems. This document is a ‘living’ document, i.e. it is permanently updated and presented to TSG-RAN meetings.
36.783
Evolved Universal Terrestrial Radio Access (E-UTRA); Introduction of 1024 Quadrature Amplitude Modulation (QAM) in LTE downlink
TR
15.0.0
R1
https://www.3gpp.org/ftp/Specs/archive/36_series/36.783/36783-f00.zip
The present document captures the finding of the study of performance benefits and feasibility of 1024QAM for LTE downlink channels, as defined in Work Item “Enhancements for high capacity stationary wireless link and introduction of 1024 QAM for LTE” [2]. This activity involves the Radio Access work area of the 3GPP studies and has impacts both on the Mobile Equipment and Access Network of the 3GPP systems. This document is intended to gather all information and draw a conclusion on way forward. This document is a ‘living’ document, i.e. it is permanently updated and presented to TSG-RAN meetings.
36.787
Vehicle-to-Everything (V2X) new band combinations
TR
15.0.0
R4
https://www.3gpp.org/ftp/Specs/archive/36_series/36.787/36787-f00.zip
The present document is the Technical Report on TR on V2X new ban combinations for LTE. The purpose of the present document is to study the extension of the band combinations for V2X service to grow the LTE V2X ecosystem. Specially, analyze the harmonics/IMDs problems on the own Rx frequency bands for daul transmission. (e.g. transmission of Band 47 on PC5 operation and transmission of licensed band on Uu operation). Also RAN4 study on increasing of the number of multi-carrier for LTE-based V2X service. It can support concurrent operation of LTE CA band combinations on Uu interface and Band 47 on PC5 interface. Operator propose new band combinations up to 3CCs during the work item. In future study, the number of multiple carrier can be increased up to 5CCs.
36.788
Vehicle-to-Everything (V2X) Phase 2; User Equipment (UE) radio transmission and reception
TR
15.0.0
R4
https://www.3gpp.org/ftp/Specs/archive/36_series/36.788/36788-f00.zip
The present document is the Technical Report on V2X phase 2 for LTE. The purpose of the present document is to study the radio requirements on V2X phase 2 based on LTE sidelink as part of the Rel-15 work item. The normative requirements resulting from the present document will be addressed in the applicable release 15 Technical Specifications (TS).
36.790
LAA/eLAA for the “CBRS” 3.5GHz band in the United States
TR
15.0.0
R4
https://www.3gpp.org/ftp/Specs/archive/36_series/36.790/36790-f00.zip
The present document describes the work performed in defining usage of LAA/eLAA (i.e. LTE Frame Structure 3) in the same 3550-3700 MHz CBRS band as already defined for TDD in Band 48. This work only includes applicability for CBSD’s with a maximum conducted transmit power of 24 dBm and a maximum EIRP of 30 dBm in 10 MHz. Channel bandwidths to be supported are: 10MHz and 20MHz.
37.843
Evolved Universal Terrestrial Radio Access (E-UTRA) and Universal Terrestrial Radio Access (UTRA); Radio Frequency (RF) requirement background for Active Antenna System (AAS) Base Station (BS) radiated requirements
TR
15.7.0
R4
https://www.3gpp.org/ftp/Specs/archive/37_series/37.843/37843-f70.zip
The present document is the Technical Report for the Work Item on Base Station (BS) radiated Radio Frequency (RF) requirements for Active Antenna System (AAS) [2]. The present document captures the background and the decisions on the specification of radiated RF requirements that are applicable to AAS BS. The AAS BS specification contains requirements for both single RAT UTRA FDD, UTRA TDD and E-UTRA as well as MSR (including single RAT MSR requirements for each of the RATS), it was agreed that it may not be necessary to support so many variants for the OTA AAS BS hence a specification complexity reduction investigation was carried out. It was found the following was not needed for the OTA AAS BS requirements: 1. Radiated requirements applicable for eAAS not support UTRA TDD. 2. Radiated requirements applicable for eAAS not include UTRA pilot requirements. NOTE: In Rel-15, multiple clauses related to the OTA measurements of the BS were shifted to the OTA BS testing TR 37.941 [36], which includes such aspects as e.g., test tolerance and measurement uncertainty derivations, OTA test chambers descriptions, calibration and test procedure descriptions, etc..
37.863-01-01
E-UTRA (Evolved Universal Terrestrial Radio Access) - NR Dual Connectivity (EN-DC) of LTE 1 Down Link (DL) / 1 Up Link (UL) and 1 NR band
TR
15.4.0
R4
https://www.3gpp.org/ftp/Specs/archive/37_series/37.863-01-01/37863-01-01-f40.zip
The present document is a technical report for Dual connectivity (DC) band combinations of LTE 1DL/1UL + one NR band under Rel-15 time frame. The purpose is to gather the relevant background information and studies in order to address Dual connectivity (DC) band combinations of LTE 1DL/1UL + one NR band for the Rel-15 band combinations in Table 1-1. Table 1-1: Release 15 DC band combination of LTE 1DL/1UL + one NR band DC combination REL independent from Single UL allowed (NOTE 1) DC_1A-n77A Rel-15 Yes DC_1A-n78A Rel-15 No DC_1A-n79A Rel-15 No DC_3A-n77A Rel-15 Yes DC_3A-n78A Rel-15 Yes DC_3A-n79A Rel-15 No DC_11A-n77A Rel-15 No DC_11A-n78A Rel-15 No DC_11A-n79A Rel-15 No DC_11A-n257A Rel-15 No DC_18A-n77A Rel-15 No DC_18A-n78A Rel-15 No DC_18A-n79A Rel-15 No DC_18A-n257A Rel-15 No DC_19A-n77A Rel-15 No DC_19A-n78A Rel-15 No DC_19A-n79A Rel-15 No DC_21A-n77A Rel-15 No DC_21A-n78A Rel-15 No DC_21A-n79A Rel-15 No DC_26A-n77A Rel-15 No DC_26A-n78A Rel-15 No DC_26A-n79A Rel-15 No DC_26A-n257A Rel-15 No DC_28A-n77A Rel-15 No DC_28A-n78A Rel-15 No DC_28A-n79A Rel-15 No DC_41A-n257A Rel-15 No DC_42A-n77A Rel-15 No DC_42A-n78A Rel-15 No DC_42A-n79A Rel-15 No DC_20A-n28A Rel-15 No DC_39A-n78A Rel-15 No DC_39A-n258A Rel-15 No DC_1A_n257 Rel-15 No DC_3A_n257 Rel-15 No DC_3A-n258A Rel-15 No DC_5A-n257A Rel-15 No DC_7A-n78 Rel-15 No DC_7A-n258A Rel-15 No DC_8A-n78A Rel-15 No DC_8A-n79A Rel-15 No DC_8A-n258A Rel-15 No DC_19A-n257 Rel-15 No DC_20A-n78A Rel-15 No DC_21A-n257 Rel-15 No DC_28A-n257 Rel-15 No DC_28A-n258A Rel-15 No DC_38A-n78A Rel-15 No DC_39A-n79A Rel-15 No DC_41A-n77A Rel-15 No DC_41A-n78A Rel-15 No DC_41A-n79A Rel-15 No DC_41A-n258A Rel-15 No DC_42A-n257 Rel-15 No DC_1A-n28 Rel-15 No DC_3A-n7 Rel-15 No DC_3A-n28 Rel-15 No DC_5A-n78A Rel-15 No DC_7A_n28 Rel-15 No DC_7A-n257A Rel-15 No DC_66A-n257A Rel-15 No DC_8A_n77A Rel-15 No DC_8A_n257A Rel-15 No DC_25A_n41A Rel-15 No DC_26A_n41A Rel-15 No DC_41A_n41A Rel-15 No DC_66A_n71A Rel-15 No DC_(n)71B Rel-15 No DC_20A_n8A Rel-15 No DC_46A_n78A Rel-15 No DC_1A_n50A Rel-15 No DC_1A_n51A Rel-15 No DC_2A_n71A Rel-15 No DC_3A_n50A Rel-15 No DC_3A_n51A Rel-15 No DC_7A_n50A Rel-15 No DC_7A_n51A Rel-15 No DC_20A_n50A Rel-15 No DC_20A_n51A Rel-15 No DC_28A_n50A Rel-15 Yes DC_28A_n51A Rel-15 No DC_42A_n50A Rel-15 No DC_42A_n51A Rel-15 No DC_66A_n260 Rel-15 No DC_2A_n257A Rel-15 No DC_13A_n257A Rel-15 No DC_48A_n257A Rel-15 No DC_5A_n260 Rel-15 No DC_13A_n260A Rel-15 No DC_48A_n260A Rel-15 No DC_(n)41AA Rel-15 No DC_5A_n261 Rel-15 No DC_66A_n261 Rel-15 No DC_1A_n40A Rel-15 No DC_2A_n66A Rel-15 No DC_2A_n78A Rel-15 No DC_2A_n260A Rel-15 No DC_3A_n3A(NOTE 2) Rel-15 Yes DC_3A_n40A Rel-15 No DC_5A_n40A Rel-15 No DC_5A_n66A Rel-15 No DC_8A_n40A Rel-15 No DC_12A_n260A Rel-15 No DC_12A_n5A Rel-15 No DC_20A_n77A Rel-15 No DC_20A_n258A Rel-15 No DC_30A_n66A Rel-15 No DC_30A_n260A Rel-15 No DC_40A_n77A Rel-15 No DC_66A_n5A Rel-15 No DC_66A_n78A Rel-15 No NOTE 1: Details on how to support it can be found in Section 5.2. NOTE 2: only single tx switched UL mode is supported in Rel.15. This TR contains a general part and band specific combination part. The actual requirements are added to the corresponding technical specifications.
37.863-02-01
E-UTRA (Evolved Universal Terrestrial Radio Access) - NR Dual Connectivity (EN-DC) of LTE 2 Down Link (DL) / 1 Up Link (UL) and 1 NR band
TR
15.2.0
R4
https://www.3gpp.org/ftp/Specs/archive/37_series/37.863-02-01/37863-02-01-f20.zip
The present document is a technical report for Dual connectivity (DC) band combinations of LTE 2DL/1UL + one NR band under Rel-15 time frame. The purpose is to gather the relevant background information and studies in order to address Dual connectivity (DC) band combinations of LTE 2DL/1UL + one NR band for the Rel-15 band combinations in Table 1-1. Table 1-1: Release 15 DC band combination of LTE 2DL/1UL + one NR band DC combination REL independent from UL Band in LTE Difficult for Simultaneous UL(*) DC_1A-3A-n28 Rel-15 1 No 3 No DC_1A-7A-n28 Rel-15 1 No 7 No DC_1A-20A-n28 Rel-15 1 No 20 No DC_3A-7A-n28 Rel-15 3 No 7 No DC_3A-20A-n28 Rel-15 3 No 20 No DC_7A-20A-n28 Rel-15 7 No 20 No DC_41C-n41 Rel-15 No DC_1A-3A-n50 Rel-15 DC_1A-20A-n50 Rel-15 DC_1A-28A-n50 Rel-15 DC_3A-20A-n50 Rel-15 DC_3A-28A-n50 Rel-15 DC_7C-n50 Rel-15 DC_1A-7A-n50 Rel-15 DC_3A-7A-n50 Rel-15 DC_20A-28A-n50 Rel-15 DC_42C-n50 Rel-15 DC_1A-3A-n51 Rel-15 DC_1A-20A-n51 Rel-15 DC_1A-28A-n51 Rel-15 DC_3A-20A-n51 Rel-15 DC_3A-28A-n51 Rel-15 DC_7C-n51 Rel-15 DC_1A-7A-n51 Rel-15 DC_3A-7A-n51 Rel-15 DC_20A-28A-n51 Rel-15 DC_42C-n51 Rel-15 DC_66A-71A-n71 Rel-15 DC_2A-66A-n71 Rel-15 DC_2A-(n)71B Rel-15 2 No 71 No DC_1A-18A-n77 Rel-15 DC_1A-28A-n77 Rel-15 DC_18A-28A-n77 Rel-15 DC_1A-3A-n77 Rel-15 1 Yes 3 Yes DC_1A-19A-n77 Rel-15 1 Yes 19 No DC_1A-21A-n77 Rel-15 1 Yes 21 No DC_3A-19A-n77 Rel-15 3 Yes 19 No DC_3A-21A-n77 Rel-15 3 Yes 21 No DC_19A-21A-n77 Rel-15 19 No 21 No DC_3A-7A-n78 Rel-15 3 Yes 7 No DC_3A-28A-n78 Rel-15 DC_7A-28A-n78 Rel-15 DC_7C-n78 Rel-15 DC_1A-18A-n78 Rel-15 DC_1A-28A-n78 Rel-15 DC_18A-28A-n78 Rel-15 DC_1A-5A-n78 Rel-15 1 No 5 No DC_5A-7A-n78 Rel-15 DC_1A-19A-n78 Rel-15 1 No 19 No DC_1A-21A-n78 Rel-15 1 No 21 No DC_3A-19A-n78 Rel-15 3 Yes 19 No DC_3A-21A-n78 Rel-15 3 Yes 21 No DC_19A-21A-n78 Rel-15 19 No 21 No DC_1A-3A-n78 Rel-15 1 No 3 Yes DC_1A-5A-n78 Rel-15 DC-3C-n78 Rel-15 DC_7C-n78 Rel-15 DC_1A-7A-n78 Rel-15 1 No 7 No DC_3A-5A-n78 Rel-15 3 Yes 5 No DC_5A-7A-n78 Rel-15 5 No 7 No DC_7A-7A-n78 Rel-15 7 No 7 No DC_1A-20A-n78 Rel-15 1 No 20 No DC_3A-20A-n78 Rel-15 3 Yes 20 No DC_7A-20A-n78 Rel-15 7 No 20 No DC_3C-n78 Rel-15 DC_3A-38A-n78 Rel-15 3 Yes 38 No DC_1A-41A-n79 Rel-15 DC_1A-42A-n79 Rel-15 DC_41A-42A-n79 Rel-15 DC_42C-n79 Rel-15 DC_1A-3A-n79 Rel-15 1 No 3 No DC_1A-19A-n79 Rel-15 1 No 19 No DC_1A-21A-n79 Rel-15 1 No 21 No DC_3A-19A-n79 Rel-15 3 No 19 No DC_3A-21A-n79 Rel-15 3 No 21 No DC_19A-21A-n79 Rel-15 19 No 21 No DC_1A-41A-n257 Rel-15 DC_1A-42A-n257 Rel-15 DC_41A-42A-n257 Rel-15 DC_42C-n257 Rel-15 DC_1A-3A-n257 Rel-15 1 No 3 No DC_1A-19A-n257 Rel-15 1 No 19 No DC_1A-21A-n257 Rel-15 1 No 21 No DC_3A-19A-n257 Rel-15 3 No 19 No DC_3A-21A-n257 Rel-15 3 No 21 No DC_19A-21A-n257 Rel-15 19 No 21 No DC_1A-3A-n257 Rel-15 DC_1A-5A-n257 Rel-15 1 No 5 No DC_1A-7A-n257 Rel-15 1 No 7 No DC_3A-5A-n257 Rel-15 3 No 5 No DC_3A-7A-n257 Rel-15 3 No 7 No DC_5A-7A-n257 Rel-15 5 No 7 No DC_7A-7A-n257 Rel-15 7 No 7 No DC_1A-20A_n78 Rel-15 DC_3A-20A_n78 Rel-15 DC_7A-20A_n78 Rel-15 DC_3C_n78 Rel-15 DC_3A-38A_n78 Rel-15 DC_1A-3A_n50 Rel-15 DC_1A-20A_n50 Rel-15 DC_1A-28A_n50 Rel-15 DC_3A-20A_n50 Rel-15 DC_3A-28A_n50 Rel-15 DC_7C_n50 Rel-15 DC_1A-7A_n50 Rel-15 DC_3A-7A_n50 Rel-15 DC_20A-28A_n50 Rel-15 DC_42C_n50 Rel-15 DC_1A-3A_n51 Rel-15 DC_1A-20A_n51 Rel-15 DC_1A-28A_n51 Rel-15 DC_3A-20A_n51 Rel-15 DC_3A-28A_n51 Rel-15 DC_7C_n51 Rel-15 DC_1A-7A_n51 Rel-15 DC_3A-7A_n51 Rel-15 DC_20A-28A_n51 Rel-15 DC_42C_n51 Rel-15 DC_3A-41A_n78 Rel-15 DC_1A-8A_n78 Rel-15 DC_3A-8A_n78 Rel-15 DC_2A-12A_n260 Rel-15 DC_2A-5A_n260 Rel-15 DC_2A-66A_n260 Rel-15 DC_2A-30A_n260 Rel-15 DC_12A-66A_n260 Rel-15 DC_12A-30A_n260 Rel-15 DC_30A-66A_n260 Rel-15 DC_66A-66A_n260 Rel-15 DC_5A-30A_n260 Rel-15 DC_5A-66A_n260 Rel-15 DC_2A-12A_n5 Rel-15 DC_2A-66A_n5 Rel-15 DC_2A-30A_n5 Rel-15 DC_12A-30A_n5 Rel-15 DC_12A-66A_n5 Rel-15 DC_30A-66A_n5 Rel-15 DC_66A-66A_n5 Rel-15 DC_2A-12A_n66 Rel-15 DC_2A-5A_n66 Rel-15 DC_2A-30A_n66 Rel-15 DC_12A-30A_n66 Rel-15 DC_5A-30A_n66 Rel-15 DC_1A-42A_n77 Rel-15 DC_3A-42A_n77 Rel-15 DC_19A-42A_n77 Rel-15 DC_21A-42A_n77 Rel-15 DC_42C_n77 Rel-15 DC_1A-42A_n78 Rel-15 DC_3A-42A_n78 Rel-15 DC_19A-42A_n78 Rel-15 DC_21A-42A_n78 Rel-15 DC_42C_n78 Rel-15 DC_1A-42A_n79 Rel-15 DC_3A-42A_n79 Rel-15 DC_19A-42A_n79 Rel-15 DC_21A-42A_n79 Rel-15 DC_42C_n79 Rel-15 DC_1A-42A_n257 Rel-15 DC_3A-42A_n257 Rel-15 DC_19A-42A_n257 Rel-15 DC_21A-42A_n257 Rel-15 DC_42C_n257 Rel-15 DC_(n)41D Rel-15 No DC_42C_n258 Rel-15 DC_42A-42A_n258 Rel-15 DC_2A-2A_n257A Rel-15 DC_2C_n257A Rel-15 DC_2A-5A_n257A Rel-15 DC_2A-13A_n257A Rel-15 DC_2A-66A_n257A Rel-15 DC_5A-5A_n257A Rel-15 DC_5B_n257A Rel-15 DC_5A-66A_n257A Rel-15 DC_13A-66A_n257A Rel-15 DC_48A-48A_n257A Rel-15 DC_48C_n257A Rel-15 DC_66A-66A_n257A Rel-15 DC_66C_n257A Rel-15 DC_2A-2A_n260A Rel-15 DC_2C_n260A Rel-15 DC_2A-13A_n260A Rel-15 DC_5A-5A_n260A Rel-15 DC_5B_n260A Rel-15 DC_13A-66A_n260A Rel-15 DC_48A-48A_n260A Rel-15 DC_48C_n260A Rel-15 DC_66A-66A_n260A Rel-15 DC_66C_n260A Rel-15 DC_1A-20A_n78 Rel-15 DC_3A-20A_n78 Rel-15 DC_7A-20A_n78 Rel-15 DC_3C_n78 Rel-15 DC_3A-38A_n78 Rel-15 DC_1A-3A_n50 Rel-15 DC_1A-20A_n50 Rel-15 DC_1A-28A_n50 Rel-15 Note(*): Details on how to support it can be found in Section 5.1. This TR contains a general part and band specific combination part. The actual requirements are added to the corresponding technical specifications.
37.863-03-01
E-UTRA (Evolved Universal Terrestrial Radio Access) - NR Dual Connectivity (EN-DC) of LTE 3 Down Link (DL) / 1 Up Link (UL) and 1 NR band
TR
15.0.0
R4
https://www.3gpp.org/ftp/Specs/archive/37_series/37.863-03-01/37863-03-01-f00.zip
The present document is a technical report for Dual connectivity (DC) band combinations of LTE 3DL/1UL + one NR band under Rel-15 time frame. The purpose is to gather the relevant background information and studies in order to address Dual connectivity (DC) band combinations of LTE 3DL/1UL + one NR band for the Rel-15 band combinations in Table 1-1. Table 1-1: Release 15 DC band combination of LTE 3DL/1UL + one NR band DC combination REL independent from UL Band in LTE Difficult for Simultaneous UL(*) DC_1A-3A-5A_n78A Rel-15 1 No 3 Yes 5 No DC_1A-3A-5A_n257A Rel-15 1 No 3 No 5 No DC_1A-3C_n78A Rel-15 DC_1A-3C_n50A Rel-15 DC_1A-3C_n51A Rel-15 DC_1A-3A-7A_n78A Rel-15 1 No 3 Yes 7 No DC_1A-3A-7A_n257A Rel-15 1 No 3 No 7 No DC_1A-3A-7A_n50A Rel-15 DC_1A-3A-7A_n51A Rel-15 DC_1A-3A-7A_n28A Rel-15 1 No 3 No 7 No DC_1A-3A-20A_n78A Rel-15 1 No 3 Yes 20 No DC_1A-3A-20A_n28A Rel-15 1 No 3 No 20 No DC_1A-3A-20A_n50A Rel-15 DC_1A-3A-28A_n50A Rel-15 DC_1A-20A-28A_n50A Rel-15 DC_1A-7A-20A_n50A Rel-15 DC_3A-7A-20A_n50A Rel-15 DC_3A-7A-28A_n50A Rel-15 DC_1A-3A-20A_n51A Rel-15 DC_1A-3A-28A_n51A Rel-15 DC_1A-20A-28A_n51A Rel-15 DC_1A-7A-20A_n51A Rel-15 DC_3A-7A-20A_n51A Rel-15 DC_3A-7A-28A_n51A Rel-15 DC_1A-7A-20A_n78A Rel-15 1 No 7 No 20 No DC_1A-7A-20A_n28A Rel-15 1 No 7 No 20 No DC_3A-7A-20A_n78A Rel-15 3 Yes 7 No 20 No DC_3A-7A-20A_n28A Rel-15 3 No 7 No 20 No DC_1A-3A-19A_n77A Rel-15 1 Yes 3 Yes 19 No DC_1A-3A-21A_n77A Rel-15 1 Yes 3 Yes 21 No DC_1A-19A-21A_n77A Rel-15 1 Yes 19 No 21 No DC_3A-19A-21A_n77A Rel-15 3 Yes 19 No 21 No DC_1A-3A-19A_n78A Rel-15 1 No 3 Yes 19 No DC_1A-3A-21A_n78A Rel-15 1 No 3 Yes 21 No DC_1A-19A-21A_n78A Rel-15 1 No 19 No 21 No DC_3A-19A-21A_n78A Rel-15 3 Yes 19 No 21 No DC_1A-3A-19A_n79A Rel-15 1 No 3 No 19 No DC_1A-3A-21A_n79A Rel-15 1 No 3 No 21 No DC_1A-19A-21A_n79A Rel-15 1 No 19 No 21 No DC_1A-41A-42A_n79A Rel-15 DC_1A-42C_n79A Rel-15 DC_41A-42C_n79A Rel-15 DC_1A-41A-42A_n257 Rel-15 DC_1A-42C_n257A Rel-15 DC_41A-42C_n257A Rel-15 DC_3A-7C_n78A Rel-15 DC_3A-19A-21A_n79A Rel-15 3 No 19 No 21 No DC_1A-3A-19A_n257A Rel-15 1 No 3 No 19 No DC_1A-3A-21A_n257A Rel-15 1 No 3 No 21 No DC_1A-19A-21A_n257A Rel-15 1 No 19 No 21 No DC_3A-19A-21A_n257A Rel-15 3 No 19 No 21 No DC_3A-5A-7A_n78A Rel-15 3 Yes 5 No 7 No DC_3A-5A-7A_n257A Rel-15 3 No 5 No 7 No DC_3A-7A-7A_n78A Rel-15 3 Yes 7 No 7 No DC_3A-7A-7A_n257A Rel-15 3 No 7 No 7 No DC_5A-7A-7A_n78A Rel-15 5 No 7 No 7 No DC_5A-7A-7A_n257A Rel-15 5 No 7 No 7 No DC_3C-20A_n78A Rel-15 DC_3C-7A_n78A Rel-15 DC_3A-7A-28A_n78A Rel-15 DC_7C-28A_n78A Rel-15 DC_7A-46C_n78A Rel-15 DC_46D_n78A Rel-15 DC_41D_n41A Rel-15 DC_41C-41A_n41A Rel-15 DC_1A-18A-28A_n78A Rel-15 DC_1A-18A-28A_n77A Rel-15 DC_1A-5A-7A_n78A Rel-15 1 No 5 No 7 No DC_1A-5A-7A_n257A Rel-15 1 No 5 No 7 No DC_2A-66A-(n)71B Rel-15 2 No 66 No 71 No DC_3C-41A_n78 Rel-15 DC_1A-3A-8A_n78 Rel-15 DC_1A-3A-42A_n77 Rel-15 DC_1A-21A-42A_n77 Rel-15 DC_3A-21A-42A_n77 Rel-15 DC_1A-42C_n77 Rel-15 DC_3A-42C_n77 Rel-15 DC_21A-42C_n77 Rel-15 DC_1A-19A-42A_n77 Rel-15 DC_19A-21A-42A_n77 Rel-15 DC_19A-42C_n77 Rel-15 DC_1A-3A-42A_n78 Rel-15 DC_1A-21A-42A_n78 Rel-15 DC_3A-21A-42A_n78 Rel-15 DC_1A-42C_n78 Rel-15 DC_3A-42C_n78 Rel-15 DC_21A-42C_n78 Rel-15 DC_1A-19A-42A_n78 Rel-15 DC_19A-21A-42A_n78 Rel-15 DC_19A-42C_n78 Rel-15 DC_1A-3A-42A_n79 Rel-15 DC_1A-21A-42A_n79 Rel-15 DC_3A-21A-42A_n79 Rel-15 DC_1A-42C_n79 Rel-15 DC_3A-42C_n79 Rel-15 DC_21A-42C_n79 Rel-15 DC_1A-19A-42A_n79 Rel-15 DC_19A-21A-42A_n79 Rel-15 DC_19A-42C_n79 Rel-15 DC_1A-3A-42A_n257 Rel-15 DC_1A-21A-42A_n257 Rel-15 DC_3A-21A-42A_n257 Rel-15 DC_1A-42C_n257 Rel-15 DC_3A-42C_n257 Rel-15 DC_21A-42C_n257 Rel-15 DC_1A-19A-42A_n257 Rel-15 DC_19A-21A-42A_n257 Rel-15 DC_19A-42C_n257 Rel-15 DC_(n)41E Rel-15 No DC_41C-41A_n41 Rel-15 DC_3A-7A-20A_n1A Rel-15 DC_1A-7A-20A_n3A Rel-15 DC_42D_n258 Rel-15 DC_42A-42C_n258 Rel-15 Note(*): Details on how to support it can be found in Section 5.1. This TR contains a general part and band specific combination part. The actual requirements are added to the corresponding technical specifications.
37.863-04-01
E-UTRA (Evolved Universal Terrestrial Radio Access) - NR Dual Connectivity (EN-DC) of LTE 4 Down Link (DL) / 1 Up Link (UL) and 1 NR band
TR
15.0.0
R4
https://www.3gpp.org/ftp/Specs/archive/37_series/37.863-04-01/37863-04-01-f00.zip
The present document is a technical report for Dual connectivity (DC) band combinations of LTE 4DL/1UL + one NR band under Rel-15 time frame. The purpose is to gather the relevant background information and studies in order to address Dual connectivity (DC) band combinations of LTE 4DL/1UL + one NR band for the Rel-15 band combinations in Table 1-1. Table 1-1: Release 15 DC band combination of LTE 4DL/1UL + one NR band DC_1A-3A-7A-20A_n28 Rel-15 DC_1A-3A-5A-7A-n78A DC_3A-5A-7A-7A_n78A DC_1A-3A-5A-7A_n257A DC_3A-5A-7A-7A-n257A DC_1A-3A-19A-21A-n78 DC_1A-3A-19A-21A-n79 DC_1A-3A-19A-21A-n257 DC_1A-3A-19A-21A-n77 DC_41E_n41A_BCS0 DC_41C-41C_n41A_BCS0 DC_41A-41D_n41A_BCS0 DC_1A-19A-42C_n77 DC_1A-19A-42C_n78 DC_1A-19A-42C_n79 DC_1A-19A-42C_n257 DC_1A-41A-42C-n79A DC_1A-41A-42C-n257A DC_1A-19A-21A-42A_n77 DC_1A-19A-21A-42A_n78 DC_1A-19A-21A-42A_n79 DC_1A-19A-21A-42A_n257 DC_1A-21A-42C_n77 DC_1A-21A-42C_n78 DC_1A-21A-42C_n79 DC_1A-21A-42C_n257 DC_19A-21A-42C_n77 DC_19A-21A-42C_n78 DC_19A-21A-42C_n79 DC_19A-21A-42C- n257 DC_1A-3A-42C_n77 DC_3A-21A-42C_n77 DC_1A-3A-42C_n78 DC_3A-21A-42C_n78 DC_1A-3A-42C-n79 DC_3A-21A-42C_n79 DC_1A-3A-42C_n257 DC_3A-21A-42C_n257 DC_3A-19A-42C_n77A DC_46E_n78A DC_7A-46D_n78A DC_1A-3A-7A-7A_n78A DC_1A-3A-7A-7A_n257A DC_1A-5A-7A-7A_n78A DC_1A-5A-7A-7A_n257A DC_1A-41A-42C-n77A DC_1A-41A-42C-n78A DC_1A-41C-42A-n77A DC_1A-41C-42A-n78A DC_1A-41C-42A-n79A DC_1A-41C-42A-n257A DC_3A-7C-28A_n78A DC_41C-42C-n77A DC_41C-42C-n78A DC_41C-42C-n79A DC_41C-42C-n257A DC_3C-7C_n78A DC_1A-3C-7A_n78A DC_21A-28A-42C_n257A DC_21A-28A-42C_n78A DC_21A-28A-42C_n77A DC_3A-28A-42C_n257A DC_3A-28A-42C_n79A DC_21A-28A-42C_n79A DC_3A-28A-42C_n78A DC_3A-28A-42C_n77A DC_1A-28A-42C_n257A DC_1A-28A-42C_n79A DC_1A-28A-42C_n78A DC_1A-28A-42C_n77A DC_1A-21A-28A-42A_n257A DC_1A-21A-28A-42A_n79A DC_1A-21A-28A-42A_n78A DC_1A-21A-28A-42A_n77A DC_1A-3A-28A-42A_n257A DC_1A-3A-28A-42A_n79A DC_1A-3A-28A-42A_n78A DC_1A-3A-28A-42A_n77A Note(*): Details on how to support it can be found in Section 5.1. This TR contains a general part and band specific combination part. The actual requirements are added to the corresponding technical specifications.
37.863-05-01
E-UTRA (Evolved Universal Terrestrial Radio Access) - NR Dual Connectivity (EN-DC) of LTE 5 Down Link (DL) / 1 Up Link (UL) and 1 NR band
TR
15.0.0
R4
https://www.3gpp.org/ftp/Specs/archive/37_series/37.863-05-01/37863-05-01-f00.zip
The present document is a technical report for Dual connectivity (DC) band combinations of LTE 5DL/1UL + one NR band under Rel-15 time frame. The purpose is to gather the relevant background information and studies in order to address Dual connectivity (DC) band combinations of LTE 5DL/1UL + one NR band for the Rel-15 band combinations in Table 1-1. Table 1-1: Release 15 DC band combination of LTE 5DL/1UL + one NR band DC combination REL independent from DC_1A-42E_n77A Rel-15 DC_1A-42E_n78A Rel-15 DC_1A-42E_n79A Rel-15 DC_1A-42E_n257A Rel-15 DC_3A-42E_n77A Rel-15 DC_3A-42E_n78A Rel-15 DC_3A-42E_n79A Rel-15 DC_3A-42E_n257A Rel-15 DC_7A-46E_n78A Rel-15 DC_1A-41C-42C_n77A Rel-15 DC_1A-41C-42C_n78A Rel-15 DC_1A-41C-42C_n79A Rel-15 DC_1A-41C-42C_n257A Rel-15 DC_1A-3A-5A-7A-7A_n78A Rel-15 DC_1A-3A-5A-7A-7A_n257A Rel-15 DC_1A-3A-19A-42C_n77A/C Rel-15 DC_1A-3A-19A-42C_n78A/C Rel-15 DC_1A-3A-19A-42C_n79A/C Rel-15 DC_1A-3A-19A-42C_n257A/D/E/F Rel-15 DC_1A-3A-21A-42C_n77A/C Rel-15 DC_1A-3A-21A-42C_n78A/C Rel-15 DC_1A-3A-21A-42C_n79A/C Rel-15 DC_1A-3A-21A-42C_n257A/D/E/F Rel-15 DC_1A-3A-28A-42C_n77A Rel-15 DC_1A-3A-28A-42C_n78A Rel-15 DC_1A-3A-28A-42C_n79A Rel-15 DC_1A-3A-28A-42C_n257A Rel-15 DC_1A-19A-21A-42C_n77A/C Rel-15 DC_1A-19A-21A-42C_n78A/C Rel-15 DC_1A-19A-21A-42C_n79A/C Rel-15 DC_1A-19A-21A-42C_n257A/D/E/F Rel-15 DC_1A-21A-28A-42C_n77A Rel-15 DC_1A-21A-28A-42C_n78A Rel-15 DC_1A-21A-28A-42C_n79A Rel-15 DC_1A-21A-28A-42C_n257A Rel-15 This TR contains a general part and band specific combination part. The actual requirements are added to the corresponding technical specifications.
37.864-11-22
E-UTRA (Evolved Universal Terrestrial Radio Access) - NR Dual Connectivity (EN-DC) of LTE 1 Down Link (DL) / 1 Up Link (UL) and inter- / intra-band NR 2 Down Link (DL) / 2 Up Link (UL) bands (Frequency Range 1 (FR1) + Frequency Range 2 (FR2))
TR
15.0.0
R4
https://www.3gpp.org/ftp/Specs/archive/37_series/37.864-11-22/37864-11-22-f00.zip
The present document is a technical report for Dual connectivity (DC) band combinations of LTE 1DL/1UL + inter-/intra-band NR 2DL/2UL bands (FR1+FR2) under Rel-15 time frame. The purpose is to gather the relevant background information and studies in order to address Dual connectivity (DC) band combinations of LTE 1DL/1UL + inter-/intra-band NR 2DL/2UL bands (FR1+FR2)in Rel-15 as shown in Table 1-1. Table 1-1: Release 15 DC band combination of LTE 1DL/1UL + inter-/intra-band NR 2DL/2UL bands (FR1+FR2) Combination LTE bands NR band combinations (2 Bands) 1 CA_n77-n257 1 CA_n78-n257 1 CA_n79-n257 3 CA_n77-n257 3 CA_n78-n257 3 CA_n79-n257 19 CA_n77-n257 19 CA_n78-n257 19 CA_n79-n257 This TR contains a general part and band specific combination part. The actual requirements are added to the corresponding technical specifications.
37.864-41-21
E-UTRA (Evolved Universal Terrestrial Radio Access) - NR Dual Connectivity (EN-DC) of LTE x Down Link (DL) / 1 Up Link (UL) (x=1, 2, 3, 4) and Inter-band NR 2 Down Link (DL) / 1 Up Link (UL)
TR
15.0.0
R4
https://www.3gpp.org/ftp/Specs/archive/37_series/37.864-41-21/37864-41-21-f00.zip
The present document is a technical report for Dual connectivity (DC) band combinations of LTE xDL/1UL (x=1,2,3,4) + inter-band NR 2DL/1UL under Rel-15 time frame. The purpose is to gather the relevant background information and studies in order to address Dual connectivity (DC) band combinations of LTE xDL/1UL (x=1,2,3,4) + inter-band NR 2DL/1UL in Rel-15 as shown in Table 1-1. Table 1-1: Release 15 DC band combination of LTE xDL/1UL (x=1,2,3,4) + inter-band NR 2DL/1UL Combination LTE bands NR band combinations (2CC) LTE 1CC 1 CA_n28-n78 1 CA_n78-n79 1 CA_n77-n257 1 CA_n78-n257 1 CA_n79-n257 1 CA_n1-n78 1 CA_n3-n78 2 CA_n257-n257 2 CA_n260-n260 3 CA_n28-n78 3 CA_n258C 3 CA_n77-n79 3 CA_n78-n79 3 CA_n77-n257 3 CA_n78-n257 3 CA_n79-n257 3 CA_n1-n78 3 CA_n3-n77 3 CA_n3-n78 3 CA_n20-n78 5 CA_n78-n257 7 CA_n28-n78 7 CA_n258C 7 CA_n1-n3 7 CA_n1-n78 7 CA_n3-n78 7 CA_n78-n257 8 CA_n8-n78 13 CA_n5-n260 19 CA_n77-n79 19 CA_n78-n79 19 CA_n77-n257 19 CA_n78-n257 19 CA_n79-n257 20 CA_n28-n78 20 CA_n75/76-n78 20 CA_n1-n3 20 CA_n1-n78 20 CA_n3-n78 20 CA_n20-n78 20 CA_n8-n75 20 CA_n28-n75 21 CA_n77-n79 21 CA_n78-n79 21 CA_n77-n257 21 CA_n78-n257 21 CA_n79-n257 25 CA_n41C 26 CA_n41C 28 CA_n8-n78 28 CA_n8-n258 28 CA_n28-n78 28 CA_n258C 41 CA_n41C 66 CA_n5-n260 66 CA_n71-n257 66 CA_n71-n260 66 CA_n257-n257 66 CA_n260-n260 71 CA_n71A-n257 71 CA_n71A-n260 LTE 2CC CA_1A-3A CA_n28-n78 CA_1A-3A CA_n78-n257 CA_1A-5A CA_n78-n257 CA_1A-7A CA_n28-n78 CA_1A-7A CA_n3-n78 CA_1A-7A CA_n78-n257 CA_1A-20A CA_n28-n78 CA_1A-20A CA_n3-n78 CA_3A-5A CA_n78-n257 CA_3A-7A CA_n1-n78 CA_3A-7A CA_n28-n78 CA_3A-7A CA_n78-n257 CA_3A-20A CA_n1-n78 CA_3A-20A CA_n28-n78 CA_5A-7A CA_n78-n257 CA_7A-7A CA_n78-n257 CA_7A-20A CA_n28-n78 CA_7A-20A CA_n1-n3 CA_7A-20A CA_n1-n78 CA_7A-20A CA_n3-n78 CA_41C CA_n41C LTE 3CC CA_1A-3A-5A CA_n78-n257 CA_1A-3A-7A CA_n28-n78 CA_1A-3A-7A CA_n78-n257 CA_1A-3A-20A CA_n28-n78 CA_1A-5A-7A CA_n78-n257 CA_1A-7A-7A CA_n78-n257 CA_1A-7A-20A CA_n28-n78 CA_1A-7A-20A CA_n3-n78 CA_3A-5A-7A CA_n78-n257 CA_3A-7A-7A CA_n78-n257 CA_5A-7A-7A CA_n78-n257 CA_3A-7A-20A CA_n28-n78 CA_3A-7A-20A CA_n1-n78 LTE 4CC CA_1A-3A-5A-7A CA_n78-n257 CA_1A-3A-7A-7A CA_n78-n257 CA_1A-3A-7A-20A CA_n28-n78 CA_1A-5A-7A-7A CA_n78-n257 CA_3A-5A-7A-7A CA_n78-n257 This TR contains a general part and band specific combination part. The actual requirements are added to the corresponding technical specifications.
37.865-01-01
NR Carrier Aggregation for intra-band (m Down Link (DL) / 1 Up Link (UL) bands) and inter-band (n Down Link (DL) / 1 Up Link (UL) bands)
TR
15.3.0
R4
https://www.3gpp.org/ftp/Specs/archive/37_series/37.865-01-01/37865-01-01-f30.zip
The present document is a technical report for Intra-band NR CA (mDL/1UL) and inter-band NR CA (nDL/1UL) (m and n are FFS) under Rel-15 time frame. The purpose is to gather the relevant background information and studies in order to address Intra-band NR CA (mDL/1UL) and inter-band NR CA (nDL/1UL) (m and n are FFS) for the Rel-15 band combinations in Table 1-1. Table 1-1: Release 15 Intra-band NR CA Contiguous CA combination REL independent from n257 Rel-15 n41 Rel-15 n258 Rel-15 n77 Rel-15 n78 Rel-15 n79 Rel-15 n41 Rel-15 Table 1-2: Release 15 Intra-band NR CA Non-contiguous CA combination REL independent from n257-n257 Rel-15 n260-n260 Rel-15 n260-n260-n260-n260-n260-n260-n260-n260 Rel-15 Table 1-3: Release 15 Inter-band NR CA CA combination REL independent from n71-n257 Rel-15 n71-n260 Rel-15 n66-n257 Rel-15 n66-n260 Rel-15 n2-n257 Rel-15 n2-n260 Rel-15 n66-n71 Rel-15 n2-n71 Rel-15 n28-n78 Rel-15 n75-n78 Rel-15 n76-n78 Rel-15 n50-n78 Rel-15 n51-n78 Rel-15 n8-n78 Rel-15 n8-n258 Rel-15 n77-n79 Rel-15 n78-n79 Rel-15 n77-n257 Rel-15 n78-n257 Rel-15 n79-n257 Rel-15 This TR contains a general part and band specific combination part. The actual requirements are added to the corresponding technical specifications.
37.866-00-02
NR Carrier Aggregation for inter-band n Down Link (DL) / 2 Up Link (UL) bands
TR
15.0.0
R4
https://www.3gpp.org/ftp/Specs/archive/37_series/37.866-00-02/37866-00-02-f00.zip
The present document is a technical report for inter-band NR CA (nDL/2UL bands) (n are FFS) under Rel-15 time frame. The purpose is to gather the relevant background information and studies in order to address inter-band NR CA (nDL/2UL bands) (n are FFS) for the Rel-15 band combinations in Table 1-1. Table 1-1: Release 15 Inter-band NR CA CA combination REL independent from CA_n8A-n78A Rel-15 CA_n8A-n258A Rel-15 CA_n77A-n257A Rel-15 CA_n78A-n257A Rel-15 CA_n79A-n257A Rel-15 CA_n77A-n79A Rel-15 CA_n78A-n79A Rel-15 CA_n3A-n78A Rel-15 This TR contains a general part and band specific combination part. The actual requirements are added to the corresponding technical specifications.
37.872
Supplementary uplink (SUL) and LTE-NR co-existence
TR
15.1.0
R4
https://www.3gpp.org/ftp/Specs/archive/37_series/37.872/37872-f10.zip
The present document is a technical report for SUL and LTE-NR DC with SUL under Rel-15 time frame. The purpose is to gather the relevant background information and studies in order to address SUL and LTE-NR DC with SUL for the Rel-15 bands/band combinations in Table 1-1 to Table 1-3. Table 1-1: Release 15 SUL bands Band number UL DL Duplex mode n80 1710 – 1785 MHz N/A SUL n81 880 – 915 MHz N/A SUL n82 832 – 862 MHz N/A SUL n83 703 – 748 MHz N/A SUL n84 1920 – 1980 MHz N/A SUL n86 1710 – 1780 MHz N/A SUL Table 1-2: Release 15 SUL band combinations SUL combination REL independent from SUL_n78-n80 Rel-15 SUL_n78-n81 Rel-15 SUL_n78-n82 Rel-15 SUL_n78-n83 Rel-15 SUL_n78-n84 Rel-15 SUL_n78-n86 Rel-15 SUL_n79-n80 Rel-15 SUL_n79-n81 Rel-15 Table 1-3: Release 15 LTE-NR DC with SUL band combinations LTE-NR DC combination REL independent from DC_3-SUL_n78-n80 Rel-15 DC_8-SUL_n78-n81 Rel-15 DC_20-SUL_n78-n82 Rel-15 DC_28-SUL_n78-n83 Rel-15 DC_1-SUL_n78-n84 Rel-15 DC_66-SUL_n78-n86 Rel-15 DC_3-SUL_n78-n82 Rel-15 DC_3-SUL_n79-n80 Rel-15 DC_8-SUL_n79-n81 Rel-15 DC_20-SUL_n78-n83 Rel-15 This TR contains a general part and band specific combination part. The actual requirements are added to the corresponding technical specifications.
37.876
Study on eNB(s) Architecture Evolution for E-UTRAN and NG-RAN
TR
15.0.0
R3
https://www.3gpp.org/ftp/Specs/archive/37_series/37.876/37876-f00.zip
The present document captures the results of Study on architecture evolution for E-UTRAN in RP-170843 [2]. It identifies to study LTE CU and DU split architecture, including new interface and relative procedures.
37.885
Study on evaluation methodology of new Vehicle-to-Everything (V2X) use cases for LTE and NR
TR
15.3.0
R1
https://www.3gpp.org/ftp/Specs/archive/37_series/37.885/37885-f30.zip
The present document captures the findings of the study item, "Study on evaluation methodology of new V2X use cases for LTE and NR" [2]. The purpose of this TR is to document the evaluation methodology to be used in evaluating technical solutions to support the full set of 5G V2X use cases as identified in [3] and the full set of 5G RAN requirements in [4]. This document addresses completion of the evaluation methodology in [4] and [5] to compare the performance of different technical options for the new 5G V2X use cases. This document captures identification of the regulatory requirements and design considerations of potential operation of direct communications between vehicles in spectrum allocated to ITS beyond 6GHz in different regions. This document is a 'living' document, i.e. it is permanently updated and presented to TSG-RAN meetings.
37.901
User Equipment (UE) application layer data throughput performance
TR
15.1.0
R5
https://www.3gpp.org/ftp/Specs/archive/37_series/37.901/37901-f10.zip
The present document contains the findings of the Study Item on UE Application Layer Data Throughput Performance and the Study Item on UE Application Layer Data Throughput Performance Expansion for Carrier Aggregation and the proposed test procedures.
38.806
Study of separation of NR Control Plane (CP) and User Plane (UP) for split option 2
TR
15.0.0
R3
https://www.3gpp.org/ftp/Specs/archive/38_series/38.806/38806-f00.zip
The purpose of the present document is to record the discussion and agreements that arise from the study item "Separation of CP and UP for split option 2 of NR" in RP-171421 [1].
38.811
Study on New Radio (NR) to support non-terrestrial networks
TR
15.4.0
RP
https://www.3gpp.org/ftp/Specs/archive/38_series/38.811/38811-f40.zip
This technical report is related to a study item New Radio to support Non-Terrestrial Networks. The purpose of this TR is to collect the TSG RAN and RAN WG1 findings related to the study. The objectives for the study are the following - Definition of the Non-Terrestrial Networks deployment scenarios and related system parameters such as architecture, altitude, orbit etc. - Adaptation of the 3GPP channel models for non-terrestrial networks (propagation conditions, mobility, …). - For the described deployment scenarios, identification of any key impact areas on the New Radio interface that may need further evaluations.
38.813
New frequency range for NR (3.3-4.2 GHz)
TR
15.0.0
R4
https://www.3gpp.org/ftp/Specs/archive/38_series/38.813/38813-f00.zip
The present document is a technical report for New frequency range for NR (3.3-4.2 GHz). The purpose of this technical report is to provide specification support for NR bands 3.3-3.8 GHz and 3.3-4.2 GHz.
38.814
New frequency range for NR (4.4-5.0 GHz)
TR
15.0.0
R4
https://www.3gpp.org/ftp/Specs/archive/38_series/38.814/38814-f00.zip
The present document is a technical report for Work Item on New Radio (NR) Access Technology, covering the new frequency range between 4.4 – 5.0 GHz for NR.
38.815
New frequency range for NR (24.25-29.5 GHz)
TR
15.1.0
R4
https://www.3gpp.org/ftp/Specs/archive/38_series/38.815/38815-f10.zip
The present document is a technical report for Work Item on New Radio (NR) Access Technology, covering the new frequency range between 24.25-29.5 GHz for NR. Note: NR band n261 (TDD 27500 - 28350 MHz) which was introduced by the same Rel-15 work item was not considered in TR 38.815. The n261 requirements are based on an FCC report [2] and differ from the n257 (TDD 26500 - 29500 MHz) requirements in several aspects.
38.816
Study on Central Unit (CU) - Distributed Unit (DU) lower layer split for NR
TR
15.0.0
R3
https://www.3gpp.org/ftp/Specs/archive/38_series/38.816/38816-f00.zip
The purpose of the present document is to record the discussion and agreements that arise from the study item "CU-DU lower layer split for NR" in RP-170818 [2]. The study is continued from that which was conducted within the NR Access Technology Study Item, where the results are captured in sub-clause 11.1 and Annex A of TR 38.801 [3].
38.817-02
General aspects for Base Station (BS) Radio Frequency (RF) for NR
TR
15.12.0
R4
https://www.3gpp.org/ftp/Specs/archive/38_series/38.817-02/38817-02-fc0.zip
The present document is a technical report for the work item on Work Item on New Radio (NR) Access Technology, covering the general aspects for BS RF for NR. NOTE: In Rel-15, multiple clauses related to the OTA measurements of the BS were shifted to the OTA BS testing TR 37.941 [36], which includes such aspects as e.g., test tolerance and measurement uncertainty derivations, OTA test chambers descriptions, calibration and test procedure descriptions, etc.
38.900
Study on channel model for frequency spectrum above 6 GHz
TR
15.0.0
R1
https://www.3gpp.org/ftp/Specs/archive/38_series/38.900/38900-f00.zip
The present document captures the findings of the study item, "Study on channel model for frequency spectrum above 6 GHz" [2]. The purpose of this TR is to help TSG RAN WG1 to properly model and evaluate the performance of physical layer techniques using the above-6GHz channel model(s). This document relates to the 3GPP evaluation methodology and covers the modelling of the physical layer of both Mobile Equipment and Access Network of 3GPP systems. This document is intended to capture the channel model(s) for frequencies above 6 GHz up to 100GHz. The present document is no longer maintained. For 5G channel models in releases greater than release 14 refer to 38.901 [19].
21.914
Release 14 Description; Summary of Rel-14 Work Items
TR
14.0.0
SP
https://www.3gpp.org/ftp/Specs/archive/21_series/21.914/21914-e00.zip
22.802
Study on scenarios where multiple APNs are needed
TR
14.0.0
S1
https://www.3gpp.org/ftp/Specs/archive/22_series/22.802/22802-e00.zip
The scope of this study is: - to provide details about the use cases where there is a need of control of APNs; - to identify potential new requirements to fulfil the use cases; - to identify potential solutions to fulfil the use cases; The scope of the study is focussed on Machine-To-Machine UEs but can take into account a more generic set of UEs. This study will identify what connectivity use-cases that are needed to be fulfilled, and study if multiple APN or a multi-purpose APN per subscription (IMSI) combined with other 3GPP specified features can support those connectivity use-cases. The study will also analyse the impacts in scenarios where the service provider decides to change the MNO.
22.808
Study on Flexible Mobile Service Steering (FMSS)
TR
14.1.0
S1
https://www.3gpp.org/ftp/Specs/archive/22_series/22.808/22808-e10.zip
The objective is to study use cases and propose potential requirements for supporting traffic classification and service chain selection capabilities per operator's policy (e.g. based on user's profile, application type, RAN type, RAN status and flow direction) in order to realize efficient and flexible mobile service steering in the (S)Gi-LAN network.
22.815
Study on Multimedia Broadcast Supplement for Public Warning System (MBSP)
TR
14.0.0
S1
https://www.3gpp.org/ftp/Specs/archive/22_series/22.815/22815-e00.zip
This TR considers enhancements to 3GPP PWS via the addition of multimedia broadcast capability. The use cases for this capability are documented and derived requirements are gathered and consolidated. This TR does not cover use cases or potential requirements for specific PWS based systems (i.e. ETWS, CMAS, EU-ALERT, and Korean Public Alert System). This TR covers: - Scenarios and use cases to provide multi-media information supplemental to PWS; - UE awareness of, and ability to receive, multi-media information via PWS; - Handling of UEs in limited service mode; - Priority of multimedia information
22.816
3GPP enhancement for TV service
TR
14.1.0
S1
https://www.3gpp.org/ftp/Specs/archive/22_series/22.816/22816-e10.zip
This Technical Report describes use cases, proposes assumptions and potential requirements and analyzes the gap in order to enhance 3GPP system for TV service support. The supported TV service includes linear TV, Live, Video on Demand, smart TV, and Over The Top (OTT) content.
22.818
Feasibility Study on Control of Applications when Third party Servers encounter difficulties
TR
14.0.0
S1
https://www.3gpp.org/ftp/Specs/archive/22_series/22.818/22818-e00.zip
With the spread of applications on UEs (also known as "smart phones"), coupled with the rapidly growing number of UEs designed for usage with little or no human involvement (machine type communications), the potential for issues to occur in the overall "system" involving these applications and the third party entities they interact with increases. When these third party entities experience difficulties, they may be able to manage their problems without undue impact on operator networks, but there will be times when they are not able to do so. When a third party server becomes congested or fails, the communication by the UE applications that make use of that server need to be controlled so that excessive use of 3GPP network resources is avoided while not affecting other applications and their associated servers that are functioning normally. The 3GPP network needs to be able to detect or receive an indication from a third party server of its congestion status or failure status and control UE applications (or their traffic in the 3GPP network) that make use of a third party server that has encountered difficulties. HTTP and other third party (possibly proprietary) protocols can have status codes but these can be insufficient as they cannot provide a suitable indication to the UE application of the nature of the issue and therefore could result in frequent retries even when these will fail, thus burdening the network with connection attempts that will fail. The present document identifies potential requirements that will enable the 3GPP network to detect or receive an indication from a third party server of its congestion status or failure status and control the traffic of individual UE applications (or their traffic in the 3GPP network) when the 3GPP network becomes aware that a third party server has run into difficulties. This will make it possible to - Reduce or avoid unproductive traffic in 3GPP network (i.e., traffic that the 3rd party server is not able to receive) by blocking it either in the UE or in the 3GPP network (primary objective) - Allow 3GPP network to help 3rd party servers to handle overload and recover from failures (secondary objective)
22.838
Paging policy enhancements and procedure optimizations in LTE
TR
14.0.0
S1
https://www.3gpp.org/ftp/Specs/archive/22_series/22.838/22838-e00.zip
The objective is to study use cases and propose potential requirements to enhance the information set (e.g., user’s subscription, application characteristics) upon which paging policies may be based to allow optimization of the paging procedures in LTE.
22.861
Massive Internet of Things
TR
14.1.0
S1
https://www.3gpp.org/ftp/Specs/archive/22_series/22.861/22861-e10.zip
Emerging from the FS_SMARTER work [2], the present document aims to identify and document the key families of use cases and their consolidated potential requirements, and to capture desired system requirements and capabilities to support the needs of new services and markets related to massive Internet of Things. The focus of this work is on the use cases and requirements that cannot be met with EPS.
22.862
Feasibility study on new services and markets technology enablers for critical communications; Stage 1
TR
14.1.0
S1
https://www.3gpp.org/ftp/Specs/archive/22_series/22.862/22862-e10.zip
The present document covers Critical Communications. The main areas where the 3GPP system falls short in meeting the requirements of Critical Communications is latency, reliability, and availability. These requirements can be met with an improved radio interface, optimised architecture, and dedicated core and radio resources. Other requirements having emerged in 3GPP TR 22.891 [2], such, as, high bandwidth, high connection density, low complexity, low power consumption, and massive number of devices, are often irrelevant for Critical Communications.
22.863
Feasibility study on new services and markets technology enablers for enhanced mobile broadband; Stage 1
TR
14.1.0
S1
https://www.3gpp.org/ftp/Specs/archive/22_series/22.863/22863-e10.zip
Emerging from the FS_SMARTER work [2], the present document aims to identify and document the use cases and consolidated potential requirements, and to capture desired system requirements and capabilities to enable 3GPP network operators to support the needs of enhanced mobile Broadband. The focus of this work is on the use cases and requirements that cannot be met with EPS.
22.879
Feasibility study on Mission Critical (MC) video services over LTE
TR
14.0.0
S1
https://www.3gpp.org/ftp/Specs/archive/22_series/22.879/22879-e00.zip
The present document studies use cases and identifies potential requirements for operation of the MCVideo Service. MCVideo makes use of capabilities included in Group Communications System Enablers for LTE (GCSE_LTE), Proximity based Services (ProSe), and Isolated E-UTRAN operation for Public Safety, with additional requirements specific to the MCVideo Service. The MCVideo Service can be used for public safety applications and also for general commercial applications (e.g., utility companies and railways). As far as possible, the MCVideo service will reuse applicable elements from MCPTT service.
22.880
Feasibility study on Mission Critical (MC) data communications
TR
14.0.0
S1
https://www.3gpp.org/ftp/Specs/archive/22_series/22.880/22880-e00.zip
The present document studies use cases and identifies potential requirements for operation of the MCData service. MCData makes use of capabilities included in Group Communications System Enablers for LTE (GCSE_LTE), Proximity based Services (ProSe), and Isolated E-UTRAN Operation for Public Safety (IOPS) with additional requirements specific to the MCData Service. The MCData Service can be used for public safety applications and also for general commercial applications (e.g., utility companies and railways). As far as possible, the MCData service will reuse applicable elements from the MCPTT service.
22.885
Study on LTE support for Vehicle-to-Everything (V2X) services
TR
14.0.0
S1
https://www.3gpp.org/ftp/Specs/archive/22_series/22.885/22885-e00.zip
The objective of this TR is to identify use cases and associated potential requirements for LTE support of V2X services taking into account V2X Services and parameters defined in other SDOs (e.g. GSMA Connected Living, ETSI ITS (Intelligent Transportation System), US SAE) or related governmental agency (e.g. C-ITS project in Korean Ministry of Land, Infrastructure and Transport). The essential use cases for LTE V2X (V2V, V2I, and V2P) to be studied and requirements identified are as follows; - V2V: covering LTE-based communication between vehicles. - V2P: covering LTE-based communication between a vehicle and a device carried by an individual (e.g. handheld terminal carried by a pedestrian, cyclist, driver or passenger). - V2I: covering LTE-based communication between a vehicle and a roadside unit. This TR includes safety and non-safety aspects.
22.891
Study on new services and markets technology enablers
TR
14.2.0
S1
https://www.3gpp.org/ftp/Specs/archive/22_series/22.891/22891-e20.zip
22.898
Study on user control dver spoofed calls
TR
14.0.0
S1
https://www.3gpp.org/ftp/Specs/archive/22_series/22.898/22898-e00.zip
The present document studies new service capabilities and enhancements to existing service capabilities needed to allow the called user to control: - How spoofed calls are reported to the called user. - The treatment given to the spoofed call and calling user. - Provide the called user the ability to review the results of spoofed call detection. - Allow the called user to provide feedback to the network of incorrect detection decisions (false positive and false negative). New service network capabilities and enhancements to existing network capabilities needed to support network operator policies regarding treatment of spoofed calls are also covered including: - Support for law enforcement and network operator fraud investigations into originators of spoofed calls. - Setting default or limiting spoofed call controls the user is able to access. The present document also studies the interaction between spoofed call control capabilities available to users using MTSI voice services.
22.899
Study on enhancements to user location reporting support
TR
14.0.0
S1
https://www.3gpp.org/ftp/Specs/archive/22_series/22.899/22899-e00.zip
23.702
Study on 3GPP PS Data Off
TR
14.0.0
S2
https://www.3gpp.org/ftp/Specs/archive/23_series/23.702/23702-e00.zip
The objective of this study is to investigate and evaluate architecture enhancements to introduce for the specification of the 3GPP PS Data Off feature so as to meet the requirement defined in TS 22.011[2].
23.710
Study on improvement of awareness of user location change
TR
14.0.0
S2
https://www.3gpp.org/ftp/Specs/archive/23_series/23.710/23710-e00.zip
The scope of the present document is to study improvements of awareness of user location change in connected mode e.g. for differentiated charging and/or QoS. Solutions will be studied for following areas: - Extending the existing PRA change reporting mechanism for both UE dedicated and CN predefined PRA to support multiple PRAs per PDN connection. - Optimizing signalling load in PLMN partitioning scenario.
23.711
Enhancements of dedicated core networks selection mechanism
TR
14.0.0
S2
https://www.3gpp.org/ftp/Specs/archive/23_series/23.711/23711-e00.zip
The present document investigates and evaluates possible solutions to improve the DCN selection of DECOR feature by adding assistance from the UE. The assistance information from the UE is intended to reduce signalling required to select a DCN associated with the UE. It shall complement the Rel-13 DECOR selection mechanism. All 3GPP RATs are supported i.e. E-UTRAN, UTRAN, GERAN and NB-IOT. The enhancement can also improve the separation between dedicated core networks by avoiding redirections between DCNs i.e. avoiding UEs accessing DCN in which it is not allowed. It is advantageous if the solution works when the UE change serving PLMN.
23.714
Study on Control Plane (CP) and User Plane (UP) separation of Evolved Packet Core (EPC) nodes
TR
14.0.0
S2
https://www.3gpp.org/ftp/Specs/archive/23_series/23.714/23714-e00.zip
The objective of this Technical Report is to study and perform an evaluation of potential architecture enhancements for the separation of user plane functionality from control plane functionality in the EPC's S-GW, P-GW and TDF to further enable flexible (i.e. distributed or centralized) network deployment and operation. Specifically, the following aspects are covered: - Functional separation of the S-GW, P-GW and TDF into control plane and user plane functions, while not affecting the overall functionality provided by these nodes. - The needed reference points between the separated control plane and user plane functions of the S-GW, P-GW and TDF and the corresponding procedures. - Impacts to other EPC entities and interfaces that are essential to support the separation of S-GW, P-GW and TDF into control plane and user plane functions, and to enable the flexible placement of the separated control plane and user plane functions for supporting diverse deployment scenarios.
23.719
Feasibility study on service domain centralization
TR
14.0.0
S2
https://www.3gpp.org/ftp/Specs/archive/23_series/23.719/23719-e00.zip
The objective of this Technical Report is to study and specify potential modifications to the ICS architecture in order to enable all services to be controlled via IMS rather than via CS legacy mechanisms (single service domain), for all subscribers of a network and also for inbound roamers. As part of Release 8, 3GPP developed the concept of IMS Centralized Services which was then further extended in Release 9. While the goal of ICS was to enable an operator to provide communication services (such that all services and service control are centralized based on IMS mechanisms) on a per-subscriber basis, it has however not seen widespread deployment, as support of both domains is still necessary. To achieve the goal of fully centralizing services and service control in the IMS domain, network based solutions will be studied that address the key issues and architectural assumptions defined in this document. In addition, these potential solutions will be evaluated against the existing mechanisms available in 3GPP technical specifications, before deciding whether to make changes to the relevant technical specifications.
23.721
Study on sponsored data connectivity improvements
TR
14.0.0
S2
https://www.3gpp.org/ftp/Specs/archive/23_series/23.721/23721-e00.zip
The scope of the present document is to study sponsored data connectivity improvements including: - Solutions for sponsored data connectivity to cope with the increasing configuration update capacity requirements, possible maintenance difficulties and long deployment cycle. This work covers both PCEF and TDF. - Solutions for provisioning of the information needed to support detection while traffic is encrypted in the operator's network for sponsored data services. This work includes identification of the required information. This work covers both PCEF and TDF. - Introduce sponsored data connectivity functionality to TDF as currently exists in case of PCEF. Normative specifications should be developed based on the evaluations and conclusions of this study item.
23.730
Study on extended architecture support for Cellular Internet of Things (CIoT)
TR
14.0.0
S2
https://www.3gpp.org/ftp/Specs/archive/23_series/23.730/23730-e00.zip
The present document studies and evaluates the architecture enhancement to support Cellular Internet of Things (CIoT). The scope includes NB-IoT, eMTC, and EC-GSM-IoT. The study will consider architecture enhancements/simplifications in the following areas: - Support of authorization of use of Coverage Enhancement functionality; - Reliable communication service between UE and SCEF; - Inter-RAT idle mode mobility support for NB-IoT; - Review existing multicast/broadcast services architecture to ensure suitability for NB-IoT; - Review existing Location services architecture to ensure suitability for UEs using Control Plane CIoT EPS optimisation; - QoS differentiation between UEs using control plane EPS CIoT optimizations; and - CN overload protection for UE supporting control plane EPS CIoT optimizations.
23.746
Study on System Architecture Enhancements to eMBMS for Television Video Service
TR
14.0.0
S2
https://www.3gpp.org/ftp/Specs/archive/23_series/23.746/23746-e00.zip
Editor's note: This clause will describe the scope of the feasibility study. The present document studies enhancements to the 3GPP system and UE procedures that are meant to cover essential functionality to enable new TV services by a 3GPP network. The scope of the work has three main components: - A broadcast component where mechanisms to enable decoupling of content, MBMS service and MBMS transport, allowing the system to: offer eMBMS transport only, a shared eMBMS network between MNOs, broadcast only TV service to devices with no MNO subscription, will be studied. - A unicast component, in which MNO subscription for TV service is required, where mechanisms for broadcast/unicast fall-back support, consumption-based switching between unicast/broadcast, and system enhancements for providing guaranteed QoS across large geographical areas will be studied. - An MBMS user service exposure to 3rd party server, in which mechanisms in order to enable delivery of TV content based on the information provided by the 3rd party content/service providers, e.g. the expected broadcast area and time will be studied.
23.749
Study on S8 Home Routing Architecture for VoLTE
TR
14.0.0
S2
https://www.3gpp.org/ftp/Specs/archive/23_series/23.749/23749-e00.zip
GSMA has identified a new roaming model for VoLTE called "S8 Home Routed (S8HR)" whereby the PGW, PCRF and P-CSCF are located in the HPLMN also when the UE is roaming in a VPLMN. S8HR roaming architecture aims to provide IMS services to UEs roaming in VPLMN with the UE to network IMS interface (Gm) between the UE and the HPLMN only and not requiring any IMS network to network interface (NNI) between the VPLMN and HPLMN. The present document studies and evaluates the architecture enhancements required to support S8HR for VoLTE. The architecture enhancements should also be applicable to other IMS services. The study will cover at a minimum the following topics: - Support of Emergency calls to meet regulatory requirement - Impacts on SRVCC for the S8HR roaming scenarios required by GSMA. - Coexistence of LBO and S8HR roaming architectures - Providing VPLMN Identity to IMS entities in HPLMN - Handling of geo-local number
23.750
Study for robust call setup for VoLTE subscriber in LTE
TR
14.0.0
S2
https://www.3gpp.org/ftp/Specs/archive/23_series/23.750/23750-e00.zip
The study is to investigate solutions to minimize call setup failure and improve user experience for VoLTE subscriber in LTE with bad coverage. The study shall consider the scenarios where UE is both PS and CS registered or only PS registered and UE is already IMS registered initially. The study will cover at a minimum the following scenarios: 1) LTE with bad coverage is overlaid with 2/3G CS coverage. 2) LTE with bad coverage is overlaid with WiFi access. 3) LTE with bad coverage is overlaid with both 2/3G CS coverage and WiFi access.
23.773
Study on group based enhancements in the network capability exposure functions
TR
14.0.0
S2
https://www.3gpp.org/ftp/Specs/archive/23_series/23.773/23773-e00.zip
The present document aims at identifying group-based enhancements in the 3GPP capability exposure functions. The network capability exposure functions introduced within the MONTE and AESE work items apply on a per-UE basis. The study shall investigate whether these network capability exposure functions can benefit from being performed based on a per-group basis. The target procedures are the Monitoring procedures (clause 5.6 in TS 23.682 [2]) and the Communication Pattern Parameters Provisioning procedure (clause 5.10 in TS 23.682 [2]). NOTE: The Group Message Delivery using MBMS procedure is performed based on a per-group basis.
23.780
Study on Multimedia Broadcast and Multicast Service (MBMS) usage for mission critical communication services
TR
14.0.0
S6
https://www.3gpp.org/ftp/Specs/archive/23_series/23.780/23780-e00.zip
The objective of this technical report is to study how mission critical communication services utilize MBMS. This may include study of modifications to the MCPTT architectures and/or procedures as specified in 3GPP TS 23.179 [6]. This technical report will identify any enhancements needed to support mission critical services delivered over MBMS, based on the stage 1 requirements, including 3GPP TS 22.179 [2], 3GPP TS 22.280 [3], 3GPP TS 22.281 [4] and 3GPP TS 22.282 [5].
23.785
Study on architecture enhancements for LTE support of V2X services
TR
14.0.0
S2
https://www.3gpp.org/ftp/Specs/archive/23_series/23.785/23785-e00.zip
The objective of this Technical Report is to identify and evaluate potential architecture enhancements needed to operate LTE-based V2X (V2V, V2I, V2N, and V2P), based on vehicular services requirements defined in SA WG1 V2XLTE (TS 22.185 [3] and TS 22.278 [2]) and determine which of the solutions can proceed to normative specifications.
23.799
Study on Architecture for Next Generation System
TR
14.0.0
S2
https://www.3gpp.org/ftp/Specs/archive/23_series/23.799/23799-e00.zip
The objective is to design a system architecture for the next generation mobile networks. The new architecture shall support at least the new RAT(s), the Evolved E-UTRA, non-3GPP accesses and minimize access dependencies. Proposals for the new architecture can be based on an evolution of the current architecture or based on a "clean slate" approach. The study shall consider scenarios of migration to the new architecture. The expected work will include: - Investigation of high-level architectural requirements. - Definition of the terminology to be used as common language for architecture discussions. - Definition of the high-level system architecture as the collection of required capabilities, and high level functions with their interactions between each other. The complete or partial conclusions of this study will form the basis for the normative work and/or for any further study.
25.707
Multi-carrier enhancements for UMTS
TR
14.0.0
RP
https://www.3gpp.org/ftp/Specs/archive/25_series/25.707/25707-e00.zip
The study on multi-carrier enhancements is to investigate the potential gains obtained by enabling 10ms TTI configuration in one of the carriers or both of the carriers in the DB-DC-HSUPA and DC-HSUPA scenarios. It is also targeted to investigate the potential solutions for multi-carrier enhancements in both DB-DC-HSUPA and DC-HSUPA [2].
25.927
Solutions for energy saving within UTRA Node B
TR
14.0.0
RP
https://www.3gpp.org/ftp/Specs/archive/25_series/25.927/25927-e00.zip
The present document summarizes the study done under the SI “Solutions for energy saving within UTRA Node B” defined in [1] by listing technical concepts addressing the objectives of the study item (see below), analysing these technical concepts and selecting the best solution (which might be a combination of technical concepts). The objective is to do an initial study to identify potential solutions to enable energy saving within UMTS Node-Bs, and do light initial evaluation of the proposed solutions, with the aim that a subset of them can be taken forward for further investigation as part of a more focused study in 3GPP. The main objective is to save power of RBS but other savings are also to be investigated. Preference for solutions to be studied can be prioritized as follows. a) no impact to legacy or new UEs, b) no impact to legacy but impact to new UEs, c) impact to both, but minimise impact to legacy. Solutions that provide energy saving for UMTS NodeB are captured in this Technical report including the ones that do not require specification changes. - Energy saving of site support solutions and NodeB peripheral parts (e.g. rectifier, backup system, Cooling etc) are outside the scope of RAN1 studies. “Non-backward compatible” techniques are not excluded from discussion at this stage; the impact of the “non-backward-compatibility” on legacy terminals should be assessed. The present document provides the base for the following preparation of change requests to the corresponding RAN specifications if any solution are identified as beneficial require specification changes.
26.852
Multimedia Broadcast/Multicast Service (MBMS); Extensions and profiling
TR
14.2.0
S4
https://www.3gpp.org/ftp/Specs/archive/26_series/26.852/26852-e20.zip
The present document identifies a set of profiles for based on the most relevant use cases for the usage of MBMS. It also studies the feasibility of using MBMS as a regular transport enabler through the definition of an MBMS URL scheme and the procedures to resolve such URL schemes. In addition, it identifies a set of APIs for controlling MBMS user service reception and retrieving resources that are delivered over MBMS. Finally, the present document also addresses the issue of defining QoE reporting for DASH over MBMS.
26.880
Study on MBMS usage and codecs for MC Video Service
TR
14.0.0
S4
https://www.3gpp.org/ftp/Specs/archive/26_series/26.880/26880-e00.zip
The present document describes the enhancements of MBMS for MCVideo service support. Codec(s) and media handling to enable delivery of MCVideo are documented.
26.916
Media handling and Quality aspects of SRVCC
TR
14.2.0
S4
https://www.3gpp.org/ftp/Specs/archive/26_series/26.916/26916-e20.zip
Enhanced Single Radio - Voice Call Continuity (eSRVCC) is an existing standard ([3], [4]) specifying the handover of a Voice or Video call from LTE access to CS-radio access, either to GERAN (2G) or to UTRAN (3G) or other CS networks. The present document considers only enhanced SRVCC for voice calls between 3GPP accesses. This study assumes that the Codecs defined in TS 26.114 are used on the LTE access and the Codecs defined in 3GPP TS 26.103 [7] on the CS accesses. Since Rel-13, the specifications for CS networks include the Codec Type UMTS_EVS with several Configurations, called UMTS_EVS (Set 0) to UMTS_EVS (Set 3). In the IMS Core Network, the voice call is typically anchored in the ATCF/ATGW (Access Transfer Control Function/ Access Transfer Gate Way). The eSRVCC procedure, as specified, may cause additional transcoding between the target radio leg and the ATGW, even though in theory it would be possible to avoid it. As a result, the eSRVCC procedures may add one or more unnecessary transcoding point(s) for the call and thereby degrade the quality of the ongoing call unnecessarily. The main objectives of this study are to analyse example call scenarios and find potential solutions to minimize the number of transcoding cases. Another objective is to optimize the interworking and the transition between EVS and AMR-WB during eSRVCC. The study should also show the reasons and potential solutions for too long speech path interruptions during eSRVCC. The present Technical Report has the following detailed objectives: - Identify relevant eSRVCC scenarios, especially with Codec Mode Control; from AMR-WB and/or EVS in VoLTE to AMR-WB and/or EVS in CS; but include also other important Codecs, such as AMR and G.722. - Analyse Speech Quality Aspects and Media Handling Aspects, based on these scenarios. - Analyse Codec Mode Control before, during and after eSRVCC; recently SA4 has clarified some essential details on Rate Control for AMR and AMR-WB; Rate Control and Audio Bandwidth Control for EVS are still under discussion to some extent. - Analyse the existing SDP Offer - Answer protocol between Target MSC and Anchor-ATCF during eSRVCC, as specified in 3GPP TS 23.216 [3], Stage 2; This analysis will include the whole eSRVCC procedure for at least one essential scenario (e.g. eSRVCC to GERAN) and will identify the potential reasons for transcoding and too long speech path interruptions. - Clarify the existing Codec Compatibility aspects for eSRVCC; especially the interworking between CS and IMS for AMR, AMR-WB and EVS needs to be documented. - Propose enhancements for media and quality aspects of eSRVCC with the aims: a) to avoid transcoding cases as much as possible; b) to minimize the speech path interruption time during eSRVCC; - Support the SA2 SETA work by SA4 expertise in speech quality and media handling.
29.844
Study on Control and User Plane Separation of EPC Nodes
TR
14.0.0
C4
https://www.3gpp.org/ftp/Specs/archive/29_series/29.844/29844-e00.zip
The present document analyses the aspects with regard to the new interface between Control Plane and User Plane due to the separation of the following EPC nodes: S-GW, P-GW and TDF. Specifically, the following aspects are to be analysed: - Restoration procedure enhancements for the separated nodes; - Signalling with regards to Load control; - Signalling with regards to Overload control; - Path management and path failure handling.
31.901
Review of dedicated 3GPP UICC features (Red_UCe)
TR
14.0.0
C6
https://www.3gpp.org/ftp/Specs/archive/31_series/31.901/31901-e00.zip
The present document presents a review of the USIM, ISIM and the related Toolkit aspects (respectively found in TS 31.102 [3], TS 31.103 [4] and TS 31.111 [5]) features and their mandatory/optional support in the light of actual use or demand in the field is to be conducted. The technical report documents the justification for the support of features identified as not being implemented or required (e.g. from SA1 requirements). When a common understanding is reached about a potential need for a modification of the required support of a feature, it will be listed for further consideration by CT6. Should any normative work be derived from the content of the study, it will be carried out as part of a separate work item.
32.817
Study on management of measurement collection in network sharing context
TR
14.1.0
S5
https://www.3gpp.org/ftp/Specs/archive/32_series/32.817/32817-e10.zip
The study is to investigate: - Solutions for how to manage measurement collection in network sharing context over Itf-N. - Solutions for how to indicate high reliability to different E-UTRAN measurements. - Whether the PM file format would need to be changed and possible solutions. The solution is intended to be valid for data volume measurements, but a more generically applicable solution should be considered, if feasible. The solution can be valid also for non-shared networks.
32.838
Telecommunication management; Gap analysis between 3GPP SA5 specifications and NGMN Top Operational Efficiency (OPE) recommendations
TR
14.1.0
S5
https://www.3gpp.org/ftp/Specs/archive/32_series/32.838/32838-e10.zip
The present document provides a gap analysis between NGMN Top OPE Recommendations [2] and OAM capabilities offered by 3GPP SA5 Integration Reference Points (IRPs). Based on this gap analysis, it provides a support status of SA5 specifications against NGMN Top OPE Recommendations. For each Top OPE Recommendation, the SA5 solution is described when it exists. Otherwise, some action may be considered to address the Top OPE recommendation. Based on that information, a support status is produced which can take the following values: - Supported, - Partially Supported, - Not Supported, - Not Applicable.
32.850
Study on determination of completeness of charging information in IMS
TR
14.0.0
S5
https://www.3gpp.org/ftp/Specs/archive/32_series/32.850/32850-e00.zip
The objective of this study item is to identify and document methods to guarantee that all the relevant charging data for an IMS session has been received in order to charge the IMS session correctly. Within the study scenarios could be covered where a concatenation of applications leads to an correlation of charging relevant information. In addition a method to identify all network elements generating CDR for offline charging within an IMS call in order to serve for an effective and accurate IMS Charging correlation is in focus of this study. The following scenarios are be covered this study: • IMS calls where the service invocation is done in the originating and/or terminating home network. Scenarios to be considered should cover different network scenarios like roaming, transit, PSTN interworking, intra home network or home-a to home-b network. IMS Calls where a concatenation of applications appear. The invoked applications can be provided by AS from different networks. • IMS Calls where an Application Server hosts several applications invoked during one call. - IMS Calls where call leg manipulation apply and more than one application is involved. • IMS Calls where only several IMS network elements are necessary to generate charging information based on operator's configuration. • IMS Other scenarios where a correlation of charging relevant information created by application servers is needed. The study will identify recommended enhancements to the charging architecture, message and CDR content, and internode signalling. It will analyse operator requirements in consideration of the roaming scenarios and the existing charging specifications. The conclusions are presented in a further section with assumptions made and proposed further proceedings on that issues.
32.855
Study on OAM support for Licensed Shared Access (LSA)
TR
14.0.0
S5
https://www.3gpp.org/ftp/Specs/archive/32_series/32.855/32855-e00.zip
The present document studies the architecture, the interfaces and solutions with regards to Licensed Shared Access, LSA ETSI TS 103 154 [5] relevant to a 3GPP mobile network operator. The study includes: - Study how the solution and architecture defined in ETSI TS 103 235 [3] may provide a global solution. - Study the impact on the 3GPP management reference model defined in 3GPP TS 32.101 [2]. - Analyse the LSA functionalities and the information flow defined in ETSI TS 103 235 [3] towards a 3GPP mobile network operator and any impact on Itf-N. - Study how to support the static and semi-static spectrum sharing scenarios and reference use case defined in ETSI TR 103 113 [4]. Interfaces and functionality specified for LSA that are not involving the 3GPP mobile network operator are out of scope for this study.
32.860
Telecommunication management; Study on enhancements of Operations, Administration and Maintenance (OAM) aspects of distributed Self-Organizing Networks (SON) functions
TR
14.0.0
S5
https://www.3gpp.org/ftp/Specs/archive/32_series/32.860/32860-e00.zip
The present document aims the following: - Identify whether Distributed SON (D-SON) Mobility Load Balancing (MLB) as currently specified in 3GPP can be improved; - In case potential areas of improvement are identified, propose possible solutions.
32.862
Study on Key Quality Indicators (KQIs) for service experience
TR
14.0.0
S5
https://www.3gpp.org/ftp/Specs/archive/32_series/32.862/32862-e00.zip
The present document will address: 1) Service KQI scenarios 2) Service KQIs corresponding to the identified scenarios KQIs will be described for the below services: - Bidirectional voice - Unidirectional voice streaming - Unidirectional video streaming - Short Messaging - Multimedia Messaging - Web browsing - File transfer - E-mail The present document will consider already defined metrics and requirements from: - NGMN NGCOR phase 2 requirements - ETSI TS 102.250 - 3GPP TR 26.944 - NGMN P-SERQU - QuEST Forum TL9000
33.827
Study on providing for Lawful Interception (LI) in the S8 Home Routeing (S8HR) architecture for Voice over LTE (VoLTE)
TR
14.0.0
S3
https://www.3gpp.org/ftp/Specs/archive/33_series/33.827/33827-e00.zip
The present document studies and identifies the changes to the LI architecture, function and protocols for inbound roamers in the VPLMN when S8HR is employed which is equivalent to the LI service level for Local Breakout (LBO) in the VPLMN for VoLTE services. Covered by the present document includes: - Potential enhancements to the LI service architecture to accommodate the S8HR roaming architecture in the VPLMN to meet all the current LI regulatory requirements applicable to voice and other IMS service roaming are considered and compared. - Considerations on maximizing re-use of existing 3GPP defined capabilities such as PCC is considered. - Exploration of the changes that may be needed to TS 33.107 [3] and TS 33.108 [4]. Finally, the present document provides recommendations for proceeding with implementing the selected approach. This study item takes into account GSMA related activities.
33.863
Study on battery efficient security for very low throughput Machine Type Communication (MTC) devices
TR
14.2.0
S3
https://www.3gpp.org/ftp/Specs/archive/33_series/33.863/33863-e20.zip
The present document's objectives are to: a) Investigate whether battery efficient 'device to enterprise' mechanisms to provide sufficient security exist. b) Investigate potential enhancements to 3GPP's security architecture(s) that enable the Home Operator to be able to offer well guaranteed security to enterprises e.g. to provide security between the UE and a node in the home operator domain. c) Both S1 and Gb based architectures should be considered when undertaking b, above. The impacts of relevant authentication and key agreement procedures are also presented. The following should be taken into account for the study: - The potential solutions should aim at minimising the energy consumption of devices to help meet the objective of a ten year battery life in the extended coverage situation and take into consideration the very low data rate capability of the radio interface when using the Energy Consumption Evaluation Methodology described in TR 45.820.
33.849
Study on subscriber privacy impact in 3GPP
TR
14.0.0
S3
https://www.3gpp.org/ftp/Specs/archive/33_series/33.849/33849-e00.zip
The present document studies the subscriber privacy impact in 3GPP. In particular, the goals of the present document are: - Identify and understand privacy related key issues impacting 3GPP networks. - Identify and potentially harmonize privacy requirements, e.g. MDT/SON. - Identify existing/ongoing work relevant to 3GPP privacy issues in external standard bodies, for potential reuse in 3GPP, e.g. IETF RFC 6973 [2]. - Identify privacy risk mitigation approaches and establish privacy handling guidelines/principle and/or best practices for 3GPP for future specifications. It is not an objective of the study to examine all existing 3GPP specifications in retrospect with respect to privacy. NOTE: The result of this study is captured in Annex F.