Content for TR 25.820 Word version: 8.2.0

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1 Scope Word‑p. 6

This document is a technical report of the study item on Home NodeB/eNodeB [1]. The goal of this study item is,

To characterise the 3G Home NodeB environment. Whenever possible the scenarios defined as part of this study shall be of benefit to the LTE Home eNodeB investigation.
To determine the feasibility of a solution and to outline any obstacles
High level HNB requirements are understood not to be complete; hence the report includes a description of the motivation of requirements needed to progress the work
Whenever possible to offer recommendations for specifications

2 References

The following documents contain provisions which, through reference in this text, constitute provisions of the present document.

References are either specific (identified by date of publication, edition number, version number, etc.) or non specific.
For a specific reference, subsequent revisions do not apply.
For a non-specific reference, the latest version applies. In the case of a reference to a 3GPP document (including a GSM document), a non-specific reference implicitly refers to the latest version of that document in the same Release as the present document.

[1]

RP-070257, "Proposed Study Item on 3G Home NodeB", Source: Nokia, Siemens Networks, Ericsson, Motorola, Alcatel-Lucent, Samsung, Huawei, NEC, TSG RAN#35..

[2]

TR 25.942: v6.4.0, "Radio Frequency (RF) system scenarios"

[3]

TR 25.951: v6.3.0, "FDD Base Station (BS) classification"

[4]

TS 25.104: v7.6.0, "Base Station (BS) radio transmission and reception (FDD)

[5]

R4-061317, "Adjustment to radio performance requirements for small cells considering realistic delays and speeds", Motorola

[6]

R4-070110, "Operational scenarios required to determine radio performance requirements for small cells", Motorola

[7]

R4-070265, "Review of performance requirements wrt the Home NodeB and Home eNodeB use case scenarios", Orange

[8]

R4-070309, "Small cells", Ericsson

[9]

R4-070339, "Home NodeB/eNodeB deployment scenarios and requirements", Nokia Siemens Networks

[10]

R4-070370, "64QAM EVM, throughput and G-factors" ,TeliaSonera

[11]

R4-070456, "Home eNode B considerations for LTE", Vodafone

[12]

R4-070536, "Some points about the feasibility study of Home NodeB scenarios", ZTE

[13]

R4-070561, "Proposed changes to radio requirements for accommodating Home Node B", Ericsson

[14]

R4-070687, " Discussion on Home NodeB scenarios and requirements", Huawei

[15]

R4-070648, "Clarification of the frequency synchronization requirement at the NodeB input," Orange, Sprint Nextel, Telefonica, Vodafone Group

[16]

R4-070649, "Frequency synchronization requirement at eNB input for LTE, " Orange, Sprint Nextel, Telefonica, Vodafone Group

[17]

R4-070723, "3G Home NodeB Study Item Technical Report (skeleton)", Motorola

[18]

R4-070724, "Radio scenarios for the 3G Home NodeB", Motorola

[19]

R4-070825, "Home BTS consideration and deployment scenarios for UMTS", Orange

[20]

R4-070875, "Minutes of Home Node B Telephone Conference #1. June 7, 2007", Rapporteur

[21]

R4-070876, "RAN4 Working assumptions for Home NodeB", Motorola

[22]

R4-070878, "Way Forward on Scenario Selection for Home NodeB Study Item", Motorola

[23]

R4-070902, "Initial home NodeB coexistence simulation results", Nokia Siemens Networks

[24]

R4-070913, "Recommendations for Home NodeB RF requirements", Alcatel-Lucent

[25]

R4-070969, "Home Node B output power", Ericsson

[26]

R4-070970, "Initial simulation results for Home Node B receiver sensitivity", Ericsson

[27]

R4-070971, "Initial simulation results for Home Node B receiver blocking", Ericsson

[28]

R4-071025, "Consideration on frequency accuracy requirement for Home Node B", Samsung

[29]

R4-071130, "Contribution to the HNB Telco #1: Technical conditions for WA/MR/LA BSs", Fujitsu

[30]

R4-071150, "Home BTS output power", Orange

[31]

R4-071151, "Antenna Coupling Loss Measurement in Indoor Environment ", Orange

[32]

R4-071185, "The analysis for Home NodeB receiver blocking requirements", Huawei

[33]

R4-071211, "Recommendations on transmit power of Home NodeB", Alcatel-Lucent

[34]

R4-071231, "Open and Closed Access for Home NodeBs", "Nortel, Vodafone"

[35]

R4-071241, "Regulatory aspects on Home Node B in the network architecture impacting RAN4 work", BMWi

[36]

R4-071252, "Minutes of Home NodeB/ ENodeB Telephone Conference #2. July 10, 2007", Motorola

[37]

R4-071253, "Minutes of Home NodeB/ ENodeB Telephone Conference #3. Aug 7, 2007", Motorola

[38]

R4-071254, "3G Home NodeB Study Item Technical Report, version 0.1.0"", Motorola

[39]

R4-071255, "Text proposal for Maximum Transmit power in section TR 25.820", Motorola

[40]

R4-071256, "Radio Aspects of Closed vs Open Home Node B systems", Motorola

[41]

R4-071257, "Update on DL Home NodeB on Macro interference discussions", Motorola

[42]

R4-071263, "System simulation results for Home NodeB interference scenario #2", Ericsson

[43]

J. M. Keenan and A. J. Motley, "Radio Coverage in Buildings", British Telecom Technology Journal, vol. 8, no. 1, pp. 19-24, Jan. 1990.

[44]

TR 25.896: v6.0.0, "Feasibility Study for Enhanced Uplink for UTRA FDD".

[45]

R4-071459, "UE rejection scenarios resulting from access control at 3G HNB", Kineto Wireless

[46]

R4-071460, "Text proposal for HNB specific Emissions Requirements in TR 25.820", Motorola

[47]

R4-071461, "UE assisted localization of home cells", Nortel

[48]

R4-071494, "Spectrum Arrangement to enable co-channel deployment", Nortel

[49]

R4-071529, "Consideration for Co-channel Interference Mitigation between Home Node B and Macro Cell", Samsung

[50]

R4-071540, "LTE Home Node B downlink simulation results with flexible Home Node B power", Nokia Siemens Networks

[51]

R4-071548, "3G Home NodeB Study Item Technical Report, version 0.2.0", Motorola

[52]

R4-071549, "Minutes of Home NodeB/ ENodeB Telephone Conference #4, Sept 26, 2007", Motorola

[53]

R4-071552, "Summary of Requirement Status for Home Node Study Item", Motorola

[54]

R4-071554, "The analysis for low limit for Home NodeB transmit power requirement", Huawei

[55]

R4-071578, "Simulation results of macro-cell and co-channel Home NodeB with power configuration and open access", Alcatel-Lucent

[56]

R4-071585, "One operators request for Home Node B", eMobile

[57]

R4-071617, "HNB and HNB-Macro Propagation Models", Qualcomm Europe

[58]

R4-071618, "Home Node B HSDPA Performance Analysis", Qualcomm Europe

[59]

R4-071619, "Analysis of Uplink Performance under Co-channel Home NodeB-Macro Deployment", Qualcomm Europe

[60]

R4-071620, "TR25.820 Text Proposal", Qualcomm Europe

[61]

R4-071621, "HNB Coexistence Scenario Evaluation" , Qualcomm Europe

[62]

R4-071868, "Reply LS on LS on Home NodeB/eNodeB regarding localisation/authorisation (S3-070907 Source: TSG SA WG3, To: TSG RAN WG4, Cc: TSG RAN WG3,TSG RAN WG2,TSG GERAN,TSG SA WG1,TSG SA WG2)", TSG SA WG3

[63]

R4-071660, "Impact of HNB with fixed output power on macro HSDPA capacity" ,Ericsson

[64]

R4-071661, "Impact of HNB with controlled output power on macro HSDPA capacity", Ericsson

[65]

TR 25.814: v7.1.0, "Physical layer aspects for evolved Universal Terrestrial Radio Access (UTRA)".

[66]

UMTS 30.03 v3.2.0, "Selection procedures for the choice of radio transmission technologies of the UMTS"

[67]

Eraldo Damosso, Luis M. Correia (ed.), "Digital Mobile Radio Towards Future Generation Systems", COST 231 Final Report.

[68]

Rysavy Research, "EDGE, HSPA and LTE - The Mobile Broadband Advantage", September 2007.

[69]

TR 25.951: v7.0.0, "FDD Base Station (BS) classification".

[70]

R4-071180, "Liaison to 3GPP RAN4 on Home Node B (DECT29_012)", TC DECT

[71]

R4-071054, "LS on Home eNodeB Security (R3-071205) ", TSG RAN WG3

[72]

R4-071057, "LS on Home eNodeB Security (S3-070473) ", TSG SA WG3

[73]

R4-071427, "Liaison on Home Node B (Reply to DECT29_012) ", TC DECT

[74]

R4-071516, "LS on Home Node B / e Node B regarding localisation/authorisation", TSG RAN WG4,TSG RAN WG1, Cc: TSG RAN WG2

[75]

R4-071572, "LTE Home NodeB mobility (R3-071751 Source: TSG RAN WG3, To: TSG RAN WG4,TSG RAN WG1, Cc: TSG RAN WG2) ", TSG RAN WG3

[76]

R4-071752, "Reply LS on "LS on Home NodeB/eNodeB regarding localisation/authorisation", (S3-070834 Source: TSG SA WG3, To: TSG RAN WG4, Cc: TSG RAN WG3,TSG RAN WG2,TSG GERAN,TSG SA WG1,TSG SA WG2) ", TSG SA WG3

[77]

R4-071768, "LS on Status of Home NodeB work in RAN4", TSG RAN WG3,TSG RAN WG2

[78]

R4-071783, "Reply LS on "LS on Home NodeB/eNodeB regarding localisation/authorisation", (R2-073856 Source: TSG RAN WG2, To: TSG SA WG2,TSG RAN WG3, Cc: ) ", TSG SA WG3

[79]

R4-071819, "Regulatory Aspects; Communalities between Home Base Stations and Direct Mode Operation ", BMWi

[80]

R4-071912, "Approval Proposed re-structuring of the Home NodeB TR 25.820 ", Nortel

[81]

R4-071920, "Minutes of Home NodeB/ ENodeB Telephone Conference #5, Oct 29, 2007 ", Motorola

[82]

R4-071921, "TR skeleton based on revised structure in TR 25.820", Motorola

[83]

R4-071922, "Text proposal for Informative Annexes in TR 25.820", Motorola

[84]

R4-071923, "Text proposal for Interference scenarios in TR 25.820", Motorola

[85]

R4-071940, "Simulation results for Home NodeB to macro UE downlink co-existence considering the impact of HNB HS utilization", Ericsson

[86]

R4-071941, "Simulation results for Home NodeB to Home NodeB downlink co-existence considering the impact of HNB HS utilization", Ericsson

[87]

R4-072003, "The consideration about HNB coverage requirement", Huawei

[88]

R4-072004, "Performance Evaluation about HNB coexistence with Macro networks", Huawei

[89]

R4-072006, "Clarification of Home eNB scenarios and issues for RAN2/3/4", NTT DoCoMo, T-mobile

[90]

R4-072025, "Proposed HNB Output Power Range", QUALCOMM Europe

[91]

R4-072179, "Text proposal for Home Node B Class Definitions in TR 25.820", Motorola

[92]

R4-072180, "Text proposal for Conclusions in TR 25.820", Motorola

[93]

R4-072184, "Minutes of the Home Node B/Home e-Node B Ad hoc (November)", Rapporteur

[94]

R4-072196, "Home NodeB Deployment Configurations TP for TR 25.820", Nortel

[95]

R4-072203, "Home NodeB Requirements TP for TR 25.820", Nortel

[96]

R4-072230, "Home Node B/eNodeB TR 25.820 v 0.3.0", Motorola

[97]

R4-072121, "LS on Home NodeB/eNodeB regarding localisation/authorisation (S1-071900 Source: TSG SA WG1, To: TSG RAN WG4, Cc: TSG SA WG2,TSG SA WG3,TSG RAN WG3,TSG RAN WG2,TSG GERAN) ", TSG SA WG1

[98]

R4-072152, "LS out Response LS to SA3 on HomeNodeB authorization / localisation", Motorola, BMWi, Huawei

[99]

R4-080096, "Minutes of Home NodeB/ ENodeB Telephone Conference #6, Jan 25,2008"

[100]

R4-080097, "Minutes of Home NodeB/ ENodeB Telephone Conference #7, Jan 31, 2008"

[101]

R4-080331, "Input on HNB Requirements", QUALCOMM Europe

[102]

R4-080409, "Home NodeB Interference Analysis", QUALCOMM Europe

[103]

R4-080149, "Simulation assumptions for the block of flats scenario", Ericsson

[104]

R4-080151, "Simulation results for Home NodeB to macro UE downlink co-existence within the block of flats scenario", Ericsson

[105]

R4-080150, "Simulation results for the Home NodeB downlink performance within the block of flats scenario", Ericsson

[106]

R4-080152, "Simulation results for Home NodeB uplink performance in case of adjacent channel deployment within the block of flats scenario", Ericsson

[107]

R4-080153, "Simulation results for Home NodeB uplink performance in case of co-channel deployment within the block of flats scenario", Ericsson

[108]

R4-080154, "Simulation results for Home NodeB to Macro NodeB uplink interference within the block of flats scenario", Ericsson

[109]

R4-080155, "Home NodeB maximum output power from the maximum UE input level point of view", Ericsson

[110]

R4-080329, "3GPP Home NodeB Interference Analysis", QUALCOMM Europe

[111]

R4-080451, "TR 25.820: TP for Conclusions (9), Motorola.

[112]

R4-080098, "TR 25.820: TP for Requirements (5.1), Motorola

[113]

R4-080485, "TR 25.820: TP for Deployment Configurations (5.2), Motorola, Ericsson

[114]

R4-080523, "TR 25.820: TP for Home Node B Class Definitions (5.4), Motorola, Ericsson

[115]

R4-080103, "TR 25.820: TP for Radio Interface Architecture and Protocols (6), Motorola

[116]

R4-080525, "TR 25.820: TP for Interference Scenarios (5.3), Motorola, Nortel

[117]

R4-080524, "Proposal for the summary and conclusion of the HNB study item, QUALCOMM Europe

[118]

R3-080556, LS Source RAN3, to RAN4, "Text Proposal for TR 25.820", RAN3#59.

[119]

S1-080333, "22.011 CR 0109 rev1, HNB/HeNB - Closed Subscriber Group (CSG) requirements for UTRA and E-UTRA"

[120]

R2-073160, "National roaming and PLMN selection for hNB", Huawei.

[121]

R2-074117, "Measurement and mobility issues for femtocells", Qualcomm Europe.

[122]

R2-074499, "Email discussion 12: legacy mobiles mobility, Home Node B", Huawei

[123]

R2-075125, "Restricted Association for HNBs", Qualcomm Europe.

[124]

R2-075146, "Report on email discussion 'Home Cells (2) - UMTS specific solutions", Huawei

[125]

TS 25.331: "Radio Resource Control (RRC); Protocol specification."

[126]

TS 22.011: "Service accessibility."

[127]

TS 25.401: "UTRAN overall description."

[128]

TR 21.905: "Vocabulary for 3GPP Specifications."

[129]

R3-080105, "GAN Variant of Iu-based 3G HNB architecture", Kineto Wireless Inc, NEC, Motorola.

[130]

R3-080212, "3G Home Node B Architecture", Nokia Siemens Networks, Nokia.

[131]

R3-080351, "Discussion on 3G HNB Architecture", Huawei.

[132]

Balanis, "Antenna Theory, Analysis and Design," 2005, Wiley.

[133]

FCC OEC bulletin 56 4th edition.

[134]

RFC 4960 (09/2007): "Stream Control Transmission Protocol".

[135]

TS 25.410: "UTRAN Iu Interface: general aspects and principles"

[136]

TS 23.236: " Intra-domain connection of Radio Access Network (RAN) nodes to multiple Core Network (CN) nodes"

[137]

TS 25.401: "UTRAN Overall Description".

3 Definitions, symbols and abbreviations Word‑p. 11

For the purposes of the present document, the terms and definitions given in TR 21.905 and the following apply. A term defined in the present document takes precedence over the definition of the same term, if any, in TR 21.905.

3G HNB

3rd Generation Home NodeB

3G HNB GW

3G HNB Gateway

ACIR

Adjacent Channel Interference Rejection, can be translated to receiver selectivity when the emission mask of the interfering signal is accounted for.

Cellular system base station

Broadcast

Core Network

Circuit Switched

CSG

Closed Subscriber Group

Downlink, the RF path from BS to UE

eHNB

evolved Home Node B

GSM

Mobile cellular system (throughout this document, this acronym is generally to also means the services GPRS and EDGE, both enhancements to GSM, unless not applicable to the discussion.)

HNB

Home NodeB

HNBAP

HNB Application Application Protocol

MBSFN

Multicast/Broadcast over a Single Frequency Network

NNSF

NAS Node Selection Function

PPI

Payload Protocol Identifier

Packet Switched

RANAP

Radio Access Network Application Part

RNL

Radio Network Layer

RUA

RANAP User Adaptation

Receiver

SCCP

Signalling Connection Control Part

SCTP

Stream Control Transmission Protocol

Transmitter

User Equipment, also cellular terminal

Uplink, the RF path from UE to BS

UTRAN

UMTS Terrestrial Radio Access Network

UMTS

Universal Mobile Telecommunications System, often used synonymously with WCDMA

WCDMA

Wideband Code Division Multiple Access, a type of cellular system meeting ITU-2000 requirement