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1、 ETSI TR 143 030 V14.0.0 (2017-04) Digital cellular telecommunications system (Phase 2+) (GSM); Radio network planning aspects (3GPP TR 43.030 version 14.0.0 Release 14) TECHNICAL REPORT GLOBAL SYSTEM FOR MOBILE COMMUNICATIONSRETSI ETSI TR 143 030 V14.0.0 (2017-04)13GPP TR 43.030 version 14.0.0 Rele

2、ase 14Reference RTR/TSGR-0643030ve00 Keywords GSM ETSI 650 Route des Lucioles F-06921 Sophia Antipolis Cedex - FRANCE Tel.: +33 4 92 94 42 00 Fax: +33 4 93 65 47 16 Siret N 348 623 562 00017 - NAF 742 C Association but non lucratif enregistre la Sous-Prfecture de Grasse (06) N 7803/88 Important noti

3、ce The present document can be downloaded from: http:/www.etsi.org/standards-search The present document may be made available in electronic versions and/or in print. The content of any electronic and/or print versions of the present document shall not be modified without the prior written authoriza

4、tion of ETSI. In case of any existing or perceived difference in contents between such versions and/or in print, the only prevailing document is the print of the Portable Document Format (PDF) version kept on a specific network drive within ETSI Secretariat. Users of the present document should be a

5、ware that the document may be subject to revision or change of status. Information on the current status of this and other ETSI documents is available at https:/portal.etsi.org/TB/ETSIDeliverableStatus.aspx If you find errors in the present document, please send your comment to one of the following

6、services: https:/portal.etsi.org/People/CommiteeSupportStaff.aspx Copyright Notification No part may be reproduced or utilized in any form or by any means, electronic or mechanical, including photocopying and microfilm except as authorized by written permission of ETSI. The content of the PDF versio

7、n shall not be modified without the written authorization of ETSI. The copyright and the foregoing restriction extend to reproduction in all media. European Telecommunications Standards Institute 2017. All rights reserved. DECTTM, PLUGTESTSTM, UMTSTMand the ETSI logo are Trade Marks of ETSI register

8、ed for the benefit of its Members. 3GPPTM and LTE are Trade Marks of ETSI registered for the benefit of its Members and of the 3GPP Organizational Partners. oneM2M logo is protected for the benefit of its Members GSM and the GSM logo are Trade Marks registered and owned by the GSM Association. ETSI

9、ETSI TR 143 030 V14.0.0 (2017-04)23GPP TR 43.030 version 14.0.0 Release 14Intellectual Property Rights IPRs essential or potentially essential to the present document may have been declared to ETSI. The information pertaining to these essential IPRs, if any, is publicly available for ETSI members an

10、d non-members, and can be found in ETSI SR 000 314: “Intellectual Property Rights (IPRs); Essential, or potentially Essential, IPRs notified to ETSI in respect of ETSI standards“, which is available from the ETSI Secretariat. Latest updates are available on the ETSI Web server (https:/ipr.etsi.org/)

11、. Pursuant to the ETSI IPR Policy, no investigation, including IPR searches, has been carried out by ETSI. No guarantee can be given as to the existence of other IPRs not referenced in ETSI SR 000 314 (or the updates on the ETSI Web server) which are, or may be, or may become, essential to the prese

12、nt document. Foreword This Technical Report (TR) has been produced by ETSI 3rd Generation Partnership Project (3GPP). The present document may refer to technical specifications or reports using their 3GPP identities, UMTS identities or GSM identities. These should be interpreted as being references

13、to the corresponding ETSI deliverables. The cross reference between GSM, UMTS, 3GPP and ETSI identities can be found under http:/webapp.etsi.org/key/queryform.asp. Modal verbs terminology In the present document “should“, “should not“, “may“, “need not“, “will“, “will not“, “can“ and “cannot“ are to

14、 be interpreted as described in clause 3.2 of the ETSI Drafting Rules (Verbal forms for the expression of provisions). “must“ and “must not“ are NOT allowed in ETSI deliverables except when used in direct citation. ETSI ETSI TR 143 030 V14.0.0 (2017-04)33GPP TR 43.030 version 14.0.0 Release 14Conten

15、ts Intellectual Property Rights 2g3Foreword . 2g3Modal verbs terminology 2g3Foreword . 5g31 Scope 6g31.1 References 6g31.2 Abbreviations . 6g32 Traffic distributions 6g32.1 Uniform 6g32.2 Non-uniform . 6g33 Cell coverage 7g33.1 Location probability . 7g33.2 Ec/No threshold 7g33.3 RF-budgets . 7g33.4

16、 Cell ranges 8g33.4.1 Large cells . 8g33.4.2 Small cells . 9g33.4.3 Microcells . 10g34 Channel re-use 10g34.1 C/Ic threshold . 10g34.2 Trade-off between Ec/No and C/Ic . 10g34.3 Adjacent channel suppressions . 11g34.4 Antenna patterns . 11g34.5 Antenna heights 11g34.6 Path loss balance 11g34.7 Cell

17、dimensioning. 11g34.8 Channel allocation 12g34.9 Frequency hopping . 12g34.10 Cells with extra long propagation delay . 12g35 Propagation models 13g35.1 Terrain obstacles 13g35.2 Environment factors . 13g35.3 Field strength measurements 13g35.4 Cell adjustments . 13g36 Glossary 13g37 Bibliography .

18、14g3Annex A.1: (GSM 900 class 4) Example of RF-budget for GSM 900 MS handheld RF-output peak power 2 W . 15g3Annex A.2: (class 2) Example of RF-budget for GSM MS RF-output peak power 8 W 17g3Annex A.3: (DCS1800 classes 1 2 presented to TSG for approval; 3 or greater indicates TSG approved document u

19、nder change control. y the second digit is incremented for all changes of substance, i.e. technical enhancements, corrections, updates, etc. z the third digit is incremented when editorial only changes have been incorporated in the document. ETSI ETSI TR 143 030 V14.0.0 (2017-04)63GPP TR 43.030 vers

20、ion 14.0.0 Release 141 Scope The present document is a descriptive recommendation to be helpful in cell planning. 1.1 References The following documents contain provisions which, through reference in this text, constitute provisions of the present document. References are either specific (identified

21、 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. 1 GSM 01.04: “Digital cellular telecommunications system (Phase 2+); Abbreviations and acronyms“. 2 3

22、GPP TS 45.002: “Digital cellular telecommunications system (Phase 2+); Multiplexing and multiple access on the radio path“. 3 3GPP TS 45.005: “Digital cellular telecommunications system (Phase 2+); Radio transmission and reception“. 4 3GPP TS 45.008: “Digital cellular telecommunications system (Phas

23、e 2+); Radio subsystem link control“. 5 CCIR Recommendation 370-5: “VHF and UHF propagation curves for the frequency range from 30 MHz to 1000 MHz“. 6 CCIR Report 567-3: “Methods and statistics for estimating field strength values in the land mobile services using the frequency range 30 MHz to 1 GHz

24、“. 7 CCIR Report 842: “Spectrum-conserving terrestrial frequency assignments for given frequency-distance seperations“. 8 CCIR Report 740: “General aspects of cellular systems“. 1.2 Abbreviations Abbreviations used in the present document are given clause 6 (Glossary) and in GSM 01.04 1. 2 Traffic d

25、istributions 2.1 Uniform A uniform traffic distribution can be considered to start with in large cells as an average over the cell area, especially in the country side. 2.2 Non-uniform A non-uniform traffic distribution is the usual case, especially for urban areas. The traffic peak is usually in th

26、e city centre with local peaks in the suburban centres and motorway junctions. ETSI ETSI TR 143 030 V14.0.0 (2017-04)73GPP TR 43.030 version 14.0.0 Release 14A bell-shaped area traffic distribution is a good traffic density macro model for cities like London and Stockholm. The exponential decay cons

27、tant is on average 15 km and 7,5 km respectively. However, the exponent varies in different directions depending on how the city is built up. Increasing handheld traffic will sharpen the peak. Line coverage along communication routes as motorways and streets is a good micro model for car mobile traf

28、fic. For a maturing system an efficient way to increase capacity and quality is to build cells especially for covering these line concentrations with the old area covering cells working as umbrella cells. Point coverage of shopping centres and traffic terminals is a good micro model for personal han

29、dheld traffic. For a maturing system an efficient way to increase capacity and quality is to build cells on these points as a complement to the old umbrella cells and the new line covering cells for car mobile traffic. 3 Cell coverage 3.1 Location probability Location probability is a quality criter

30、ion for cell coverage. Due to shadowing and fading a cell edge is defined by adding margins so that the minimum service quality is fulfilled with a certain probability. For car mobile traffic a usual measure is 90 % area coverage per cell, taking into account the minimum signal-to-noise ratio Ec/No

31、under multipath fading conditions. For lognormal shadowing an area coverage can be translated into a location probability on cell edge (Jakes, 1974). For the normal case of urban propagation with a standard deviation of 7 dB and a distance exponential of 3.5, 90 % area coverage corresponds to about

32、75 % location probability at the cell edge. Furthermore, the lognormal shadow margin in this case will be 5 dB, as described in CEPT Recommendation T/R 25-03 and CCIR Report 740. 3.2 Ec/No threshold The mobile radio channel is characterized by wideband multipath propagation effects such as delay spr

33、ead and Doppler shift as defined in 3GPP TS 45.005 annex C. The reference signal-to-noise ratio in the modulating bit rate bandwidth (271 kHz) is Ec/No = 8 dB including 2 dB implementation margin for the GSM system at the minimum service quality without interference. The Ec/No quality threshold is d

34、ifferent for various logical channels and propagation conditions as described in 3GPP TS 45.005. 3.3 RF-budgets The RF-link between a Base Transceiver Station (BTS) and a Mobile Station (MS) including handheld is best described by an RF-budget. Annex A consists of 7 such budgets; A.1 for GSM 900 MS

35、class 4; A.2 for GSM 900 MS class 2, A.3 for DCS 1800 MS classes 1 and 2, A.4 for GSM 900 class 4 in small cells, A.5 for GSM 400 class 4 in small cells, A.6 for GSM 700 class 4 and A.7 for DCS 1800 MS class 1. GSM 900 RF-budgets should be used for 850 band. The Mean Effective Gain (MEG) of handheld

36、 MS in scattered field representing the cell range taking into consideration absorption, detuning and mismatch of the handheld antenna by the human body (MEG = -antenna/body loss) of -13 dBi for GSM 400, -10dBi for GSM 700, -9 dBi for GSM 900 and -6 dBi for DCS 1800 is incorporated in annex A.1, A.3

37、, A.4 and A.5 as shown from measurements in Tdoc SMG2 1075/99. At 900 MHz, the indoor loss is the field strength decrease when moving into a house on the bottom floor on 1.5 m height from the street. The indoor loss near windows ( 20 m Path loss in dB (DCS 1800) = 107,7 + 26log(d/km) d 20 m The prop

38、agation loss in microcells increases sharply as the receiver moves out of line of sight, for example, around a street corner. This can be taken into account by adding 20 dB to the propagation loss per corner, up to two or three corners (the propagation being more of a guided type in this case). Beyo

39、nd, the complete COST231-Walfish-Ikegami model as presented in annex B should be used. Microcells have a radius in the region of 200 to 300 metres and therefore exhibit different usage patterns from large and small cells. They can be supported by generally smaller and cheaper BTSs. Since there will

40、be many different microcell environments, a number of microcell BTS classes are defined in 3GPP TS 45.005. This allows the most appropriate microcell BTS to be chosen based upon the Minimum Coupling Loss expected between MS and the microcell BTS. The MCL dictates the close proximity working in a mic

41、rocell environment and depends on the relative BTS/MS antenna heights, gains and the positioning of the BTS antenna. In order to aid cell planning, the micro-BTS class for a particular installation should be chosen by matching the measured or predicted MCL at the chosen site with the following table

42、. The microcell specifications have been based on a frequency spacing of 6 MHz between the microcell channels and the channels used by any other cell in the vicinity. However, for smaller frequency spacings (down to 1.8 MHz) a larger MCL must be maintained in order to guarantee successful close prox

43、imity operation. This is due to an increase in wideband noise and a decrease in the MS blocking requirement from mobiles closer to the carrier. Micro-BTS class Recommended MCL (GSM 900) Recommended MCL (DCS 1800) Normal Small freq. spacing Normal Small freq. spacing M1 60 64 60 68M2 55 59 55 63 M3 5

44、0 54 50 58Operators should note that when using the smaller frequency spacing and hence larger MCL the blocking and wideband noise performance of the micro-BTS will be better than necessary. Operators should exercise caution in choosing the microcell BTS class and transmit power. If they depart from

45、 the recommended parameters in 45.005 they risk compromising the performance of the networks operating in the same frequency band and same geographical area. 4 Channel re-use 4.1 C/Ic threshold The C/Ic threshold is the minimum co-channel carrier-to-interference ratio in the active part of the times

46、lot at the minimum service quality when interference limited. The reference threshold C/Ic = 9 dB includes 2 dB implementation margin on the simulated residual BER threshold The threshold quality varies with logical channels and propagation conditions, see 3GPP TS 45.005. 4.2 Trade-off between Ec/No

47、 and C/Ic For planning large cells the service range can be noise limited as defined by Ec/No plus a degradation margin of 3 dB protected by 3 dB increase of C/Ic, see annex A. ETSI ETSI TR 143 030 V14.0.0 (2017-04)113GPP TR 43.030 version 14.0.0 Release 14For planning small cells it can be more fea

48、sible to increase Ec/No by 6 dB corresponding to an increase of C/Ic by 1 dB to cover shadowed areas better. C/(I+N) = 9 dB represents the GSM limit performance. To permit handheld coverage with 10 dB indoor loss, the Ec/No has to be increased by 10 dB outdoors corresponding to a negligible increase

49、 of C/Ic outdoors permitting about the same interference limited coverage for MS including handhelds. The range outdoors can also be noise limited like the range indoors as shown in section 3.4 and annex A.1. 4.3 Adjacent channel suppressions Adjacent channel suppression (ACS) is the gain (Ia/Ic) in C/I when wanted and unwanted GSM RF-signals co-exist on adjacent RF channels whilst maintaining the same quality as in the co-channel case, i.e. ACS = C/Ic - C/Ia. Taking into account frequency errors and fading conditions in the product of spectrum and

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