CEPT T R 20-08 E-1989 Frequency Planning and Frequency Coordination for the GSM System《GMS系统频率规划和频率协调》.pdf

1、E 232b414 OOOb481 5 I - I Page 1 Recommendation T/R 20-08 E (Lecce 1989 (CR) FREQUENCY PLANNING AND FREQUENCY COORDINATION FOR THE GSM SYSTEM Recommendation proposed by Working Group T/WG 15 “Radio Administration, Regulation and Frequency Management” (RARF) Text of the Recommendation adopted by the

2、“Telecommimications” Commission: “The European Conference of Postal and Telecommunications Administrations, considering a) that the GSM system will use the frequency bands 890-915 MHz/935-960 MHz in accordance with relevant agreements, directives and CEPT Recommendations, b) that in the implementati

3、on of the GSM system it is necessary to take account of national policies for the use of the frequency bands in question, c) that national frequency planning for the GSM system is carried out by the operators and approved by the Radioregiilatory Administrations or carried out by such Administratiom

4、in cooperation with the operators, O d) that frequency planning in border areas will be based on coordination between Radioregiilatory Administrations, noting a) that in many CEPT member coiintries multiple operators for the GSM system are expected, b) that frequency coordination procedure and inter

5、service sharing is necessary both between countries operating the GSM system and between those countries and countries operating other services in accordance with the Radio Regulations, recommends 1. 1.1. That frequency coordination in border areas is based on the following concept: Preferential fre

6、quencies or preferential frequency bands shall be agreed between Administrations concerned. Preferential frequencies may be used without coordination with a neighbouring country if the fieldstrength of each carrier produced by the base station does not exceed a value of 19 dBpV/m for digital systems

7、 and 19 dBpV/m for analogue systems at a height of 3 mabove ground at a distance of 15 km inside the neighbouring country. When blocks of preferential frequencies are allocated to different countries in border areas one Rf channel in each end of the blocks shall be treated as non-preferential freque

8、ncies, in order to take account of adjacent channel interference. All other frequencies are subject to coordination between Administrations if the interfering fieldstrerigth produced by the base station exceeds 19 dBpV/m at a height of 3 m above ground at the border line between two countries. Frequ

9、ency planning in coastal areas is based on the concept o preferential frequencies and coordinated frequencies assuming a middleline between the countries involved. Other principles for frequency planning and frequency coordination in coastal areas may be agreed between the Administrations concerned.

10、 Propagation criteria for calculating the interfering fieldstrength is described in Annex 1. For adding multiple interferers the simplified algorithm described in Annex 2 can be used. . 1.2. 1.3. 1.4. 1.5. 2. 3. That the technical parameters described in Annex 3 is used in the frequency coordination

11、 for the GSM system. That the technical parameters described in Annex 4 is used for frequency coordination between the GSM system and existing fixed services in the frequency bands 890-915 MHz/935-960 MHz. Edition of January 15, 1990 - TIR 20-08 E Page 2 4. 4.1. 4.2. 4.3. 4.4. 4.5. 5. That the follo

12、wing frequency coordination procedure is used : When requesting coordination the relevant characteristics of the base station shall be forwarded using the coordination form indicated in Recommendation T/R 25-08 E. Administrations may diverge from the use of this form by common agreement but at least

13、 the following characteristics should be forwarded to the Administration affected: a) frequency in MHz b) name of transmitter station c) country of location of transmitter station d) geographical coordinates e) effective antenna height f) antenna polarisation g) antenna azimuth h) directivity in ant

14、enna systems i) effective radiated power j) expected coverage zone k) date of entry into service The Administration affected shall evaluate the request for coordination and shall within 30 days notify the result of the evaluation to the Administration requesting coordination. If in the course of the

15、 coordination procedure the Administration affected requires additional information, it may request such information. If no reply is received by the Administration requesting coordination within 30 days it may send a reininder to the Administration affected. An Administration not having responded wi

16、thin 30 days following communica- tion of the reminder shall be deemed to have given its consent and the frequency may be put into use with the characteristics given in the request for coordination. The periods mentioned above may be extended by common consent. In general Administrations may diverge

17、 from the technical parameters and procedures described in this Recommendation subject to bilateral agreements.” Edition of January 15, 1990 e = 2326434 0006483 9 1 Annex 1 PROPAGATION CURVES FOR FREQUENCIES ABOVE 400 MHz (400-960 MHz) Edition of January 15, 1990 -, TIR 20-08 E Page 3 S 2326434 0006

18、484 O I TIR 20-08 E Page 4 Propngntion ciirves The curves attached to this Annex should be used to determine the interfering fieldstrength. Administrations may agree on other curves, e.g. the latest version of CCIR Report 567. Correction factors A general correction factor of -2 dB is used in the 90

19、0 MHz band. Correction factor for receiving antenna from 10 m to 3 m: Distance 100 km: - 3 dB Linear interpolation is used for intermediate distances. For sea path propagation the correction factor for receiving antenna from 10 m to 3 m is 10 dB. Effective antenna height The effective antenna height

20、 used to determine interfering fieldstrength is the difference between the physical height of the antenna and the average height of the terrain. The evaluation of the average height of the terrain may be subject to agreement between Administrations. Edition of January 15, ly0 . i I 2326434 O006485 2

21、 I! TIR 20-08 E Page 5 e Field strength (dB (pV/m) for 1 kW e.r.p. Frequency: 450 to 1000 MHz (Bands IV and V) - Cold sea - 10% of the time - 50% of the locations - h, = 10 m -.- Free space o Edition of January 15, 1990 / I 2326434 0006486 4 H TIR 20-08 E Page 7 Annex 2 1. 1.1. Notation SINIPLIFIIZD

22、 ALGORITHM POR FREQUENCY COORDINATION P = e.i.r.p. of wanted transmitter in direction of receiver (dBm). L = Isotropic path loss from wanted transmitter to receiver (dB). Pi = e.i.r.p. of interfering transmitter i in direction of receiver (dBm). Li = Isotropic path loss from interfering transmitter

23、i to receiver (dB). a = Receiver antenna gain towards wanted transmitter (dBi). ai = Receiver antenna gain towards interfering transmitter i (dBi). , = Gain due to receiver iilter selectivity on interference from transmitter i (dB). y = Estimated shadowing margin to be allowed on C/I value (dB). C =

24、 Total wanted carrier power at receiver input (dBm). Ii = Effective interfering power due to transmitter i at receiver input (allowing for the effect of receiver I = Total effective interfering power at receiver input (allowing for shadowing margin) (dBm). h = C/I threshold value. filtering) (dBm).

25、1.2. Base-mobile Path Algorithm (a) (b) (c) For each cell in question, take one or more “worst case” mobile station MS locations. These are locations at which the C/I is known, or believed to be, lowest. Calculate the wanted carrier power at the receiver input: C=P-L+a Calculate the effective interf

26、ering power due to each potentially interfering transmitter (whether Co-channel or adjacent channel) at the receiver input (allowing for the effect of receiver filtering): Ii = Pi - Li + ui + pi Sum the interfering powers at the receiver and allow for the shadowing margin: I = 10 log, c 10Ji0) + y C

27、heck the effective C/I ratio (C-I) against the threshold value h. (d) (e) 1.3. Mobile-base Path Algorithm (a) Take each cell that has a potentially interfering mobile station (MS). If N is the number of carrier frequencies allocated to that cell that can cause potential interference to the base stat

28、ion (BS), assume there are N MSs, one radiating each carrier, in that cell. A proportion of the total number of MSs so identified (e.g. 20%) should be assumed to be at the worst case locations of their cells and the rest at the mid-point of their cells. Alternatively a “Monte Carlo” simulation can b

29、e undertaken in which a number of “snapshots” of the interference scenario are taken. In each snapshot, the interfering MSs are placed at random locations (uniformly distributed) within their cells. To find for example the 90% C/I value, 100 snapshots could be taken, and the C/I which is exceeded by

30、 90 of the snapshots used, Perform steps (b) to (e) of the base-mobile path algorithm, (b) Notes on Calculation of Parameters (a) (b) (c) (d) 1.4. P, Pi-These should be suppiied by the public land mobile network (PLMN) operators. For GSM transmitters, each P, Pi is the power in the active part of th

31、e timeslot. L, Li-These can either be calculated using appropriate terrain modelling, or some simplified power distance law, e.g. d-3.3. a, ai-These should be supplied by the PLMN operators. &-These can be read off Figure A2-1 (T/R 20-08). Edition of Janiiary IS, 1990 F /- I I 2326414 0006487 b M TI

32、R 20-08 E Page 8 (e) If shadowing effects have been allowed for in the calculation of L and Li, y can be set to O. Otherwise a value of 7 dB could be used (this assumes the wanted and unwanted signals each have a 5 dB shadowing margin (log-normal distribution) and the composite shadowing margin is f

33、l x 5 dB, Le. 7 dB). h can be taken as follows: (f) GSM receiver : = 9 dB TACS receiver : = 18dB NMT -900 receiver: = 20 dB Note. The calculation must take into account all interfering transmitters from the wanted PLMN as well as those from the neighbouring PLMNs. Edition of January 15, 1999-7 j, *

34、.e .- u L Q U - iz I 2 8 2 3 on iz 9 2326434 0006488 8 9 I TIR 20-08 E Page 9 O O O O m Tf in W O c1 Edition of January 15, 1990 -. E! - v 4-2 o b2 B !3 LE O 5 O O W O O in O O d O O m O O Cu O 2 O 2326434 0006487 T - TIR 20-08 E Page 11 Annex 3 TECHNICAL PARAMETERS NECESSARY FOR COORDINATION OF THE

35、 GSM SERVICE AND ANALOGUE MOBILE SERVICES C/ I sa tios The C/I ratio is the ratio between wanted signal power to interfering signal power at the receiver input during the active part of the GSM timeslot including multiple interferers. The foliowing C/I ratios apply: Wanted Interferer Co-channel 200

36、kHz 400 kHz GSM GSM 9 (1) - 9 (1) -41 (1) TACS GSM 11 (2) - 19 (4) -49 (5) GSM TACS 9 (6) -33 (7) -51 (9) GSM NMT 9 (6) -33 (7) -61 (8) NMT GSM 10 (3) -20 (4) -50 (5) Curves indicating C/I values for intermediate values of frequency offset are attached to this Annex. Notes. (1) Values from GSM Recom

37、mendation 05-05. (2) TACS filter (25 kHz) attenuates energy from GSM transmission by 7 dB. C/I of 18 dB at detector requires therefore 11 dB at receiver input. (3) NMT filter (12 kHz) attenuates energy from GSM transmission by 10 dB. C/I of 20 dB at detector requires therefore 10 dB at receiver inpu

38、t. (4) 30 dB below Co-channel figure, see GSM Recommendation 05-05. (5) 60 dB below Co-channel figure, see GSM Recommendation 05-05. (6) All TACS energy falls in GSM filter. GSM requires 9 dB C/I. (7) Assumed GMS filter gives 42 dB attenuation reIative to Co-channel at 200 kHz. (8) NMT noise floor (

39、beyond 25 kHz) is -70 dBc/l6 kHz. (9) TACS noise floor (beyond 50 kHz) is -60 dBc. Miiiiiniirifielrlstr.erigtti to be protected (Emin) fos mobile stations: (50% of location-50% of time in the mobile receive band) GSM 32dBpV/m NMT 32dBpV/m TACS 32 dBpV/m Edition of January 1.5, 1990 .- W 2326434 0006

40、490 6 TIR 20-08 E Page 12 o c e / / / / / / / / z 8 O * I / / / / / I I/ I/ I/ II I II Il Li -I. I I I I I I O W O vi O d O m O 2 Cu I I I I I O I 39 c: h &! 2 9 s O c 6 E ff lk O O d O O m O O Cu O .e O Edition of January 15, 1990 , = 2326434 000b4L 8 m: TIR 20-08 E Page 13 Annex 4 TECHNICAL PARAME

41、TERS FOR FREQUENCY COORDINATION BETWEEN THE GSM SYSTEM AND EXISTING FIXED SERVICES IN THE FREQUENCY BANDS 890-915 MH/935-960 MHz The following C/I ratios apply: Wanted Interferer Co-channel 200 ICHZ 400 kHz Fixed GSM subject to bilateral agreement GSM Fixed 9 dB -33 dB -51 dB Edition of January 15, 1990