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本文(ITU-R SA 1807-2007 System characteristics and interference criteria for meteorological satellite systems operating around 18 GHz《运行在18 GHz的气象卫星系统的系统特性和干扰标准》.pdf)为本站会员(proposalcash356)主动上传,麦多课文库仅提供信息存储空间,仅对用户上传内容的表现方式做保护处理,对上载内容本身不做任何修改或编辑。 若此文所含内容侵犯了您的版权或隐私,请立即通知麦多课文库(发送邮件至master@mydoc123.com或直接QQ联系客服),我们立即给予删除!

ITU-R SA 1807-2007 System characteristics and interference criteria for meteorological satellite systems operating around 18 GHz《运行在18 GHz的气象卫星系统的系统特性和干扰标准》.pdf

1、 Rec. ITU-R SA.1807 1 RECOMMENDATION ITU-R SA.1807 System characteristics and interference criteria for meteorological satellite systems operating around 18 GHz (2007) Scope This ITU-R Recommendation presents interference criteria for meteorological satellite (MetSat) systems operating around 18 GHz

2、 and the system parameters used for its derivation. These criteria provide the basis for determining the sharing possibilities with the other allocated services. The ITU Radiocommunication Assembly, considering a) that interference criteria are needed to ensure that meteorological satellite systems

3、can be designed to achieve adequate performance in the presence of interference; b) that frequency bands around 18 GHz allocated to the meteorological satellite (MetSat) service are shared with the fixed service, the mobile service and the fixed-satellite service (FSS) on a co-primary basis; c) that

4、 interference criteria assist in the development of criteria for sharing bands among systems, including those that will operate in other services; d) that interfering signals from nearby satellites on the GSO are likely to be attenuated by rain to the same extent as the wanted signal; e) that interf

5、ering signals from terrestrial sources will in general have quite different attenuation to the wanted signal, recommends 1 that the interference criteria contained in Table 1 should be used for triggering coordination with future terrestrial and space service systems; 2 that the system characteristi

6、cs and methods specified in Annex 1 should be used as the baseline for deriving interference parameters for the MetSat service operating in frequency bands near 18 GHz; 3 that a 6% increase in equivalent link noise temperature should be used for triggering coordination between transmitting space sta

7、tions and receiving earth stations operating in the MetSat service; 4 that antenna side-lobe specifications for meteorological earth stations should be based on Recommendation ITU-R S.580. 2 Rec. ITU-R SA.1807 TABLE 1 Interference criteria for stations in the MetSat service using spacecraft in geost

8、ationary orbit Interfering signal power in the reference bandwidth to be exceeded for no more than 20% of the time (dB(W/10 MHz) Interfering signal power in the reference bandwidth to be exceeded for no more than p% of the time (dB(W/10 MHz) Function and type of earth station Space Terrestrial Space

9、 Terrestrial Direct data readout 61 dBi antenna System A 129.1(1)140.7(2)114.4(3)p = 0.025 114.4(4)p = 0.025 Direct data readout 66 dBi antenna System B 132.0(1)145.7(2)117.3(3)p = 0.025 117.3(4)p = 0.025 System A is optimized for 2 orbital spacing in an interference limited operating environment an

10、d System B is optimized for operation in a noise limited environment. (1)Level per satellite based on aggregate interference from eight neighbouring satellites equally spaced at 2 on the GSO and 50% interference attribution to space services. (2)Level for a single terrestrial system based on 50% int

11、erference attribution to terrestrial sources. (3)Based on occasional short-term interference from two non-GSO satellites and 50% interference attribution to space services. (4)Based on occasional short-term interference from two sources and 50% interference attribution to terrestrial services. Annex

12、 1 Technical characteristics of MetSat systems operating around 18 GHz This Annex presents the parameters used to determine the interference criteria for meteorological direct readout systems. Typical system designs for the next-generation meteorological satellites focus on a GSO satellite transmitt

13、ing data into a relatively large earth station at carrier frequencies around 18.2 GHz. Relevant system characteristics are shown in Table 1. Antenna side-lobe patterns of meteorological stations should be in accordance with Recommendation ITU-R S.580 for FSS antennas based on a 29 25 log roll-off in

14、 order to facilitate the sharing situation with the FSS. A system availability of 99.9% is commonly required and has been assumed as the baseline although a trend towards 99.99% is noticeable. Bit-error rates around 107are standard practice for systems using channel coding. The required S/N is based

15、 on 8-PSK modulation with R = 1/2 convolutional channel coding and technical losses of 2 dB. Two different types of systems have been considered. System A is optimized for 2 orbital spacing in an interference limited operating environment and System B is optimized for operation in a noise limited en

16、vironment. Rec. ITU-R SA.1807 3 For determining the interference criteria, data from the link budget, in particular the margins and the S/Ns have been used in connection with the algorithm of Recommendation ITU-R SA.1022 to determine the permissible interference power densities for long- and short-t

17、erm conditions. TABLE 1 Link budget examples for meteorological satellite systems operating around 18 GHz System A System B Units Carrier frequency 18.2 18.2 GHz Maximum bandwidth 300 300 MHz Minimum elevation angle 5 5 degrees Satellite RF power 16.8 10.0 dBW Satellite antenna gain 48.1 46.5 dBi Is

18、olator, filter, equalizer, cable and connector losses 2.0 2.0 dB Satellite e.i.r.p. 62.9 54.5 dBW Distance satellite earth station 41 343 41 343 km Free space propagation loss 210.0 210.0 dB Polarization, pointing and atmospheric losses 0.9 0.9 dB Long-term downlink loss 210.9 210.9 dB Rain margin f

19、or 99.9% availability 15.0 15.0 dB Short-term downlink loss 225.9 225.9 dB Earth station antenna diameter 8.0 15.0 m Earth station antenna gain 60.7 66.1 dBi Short-term signal power level at receiver input 102.3 105.2 dBW Receiver system temperature 300 300 K pfd on surface of the Earth 122.2 130.5

20、dB(W/(m2 MHz)Receiver noise power density 203.8 203.8 dB(W/Hz) Signal-to-noise density ratio (C/N0) long-term 116.5 113.6 dB/Hz Signal-to-noise density ratio (C/N0) short-term 101.5 98.6 dB/Hz Required C/N0for 8-PSK, R = 1/2 coded, BER = 10E797.0 97.0 dB/Hz System margin long-term 19.5 16.6 dB Syste

21、m margin short-term 4.49 1.58 dB As the band is shared with several other services, an appropriate apportionment of the interference levels is required. Regarding the apportionment of long-term interference between space and terrestrial systems, it can be expected that approximately equal contributi

22、ons will arise from space and terrestrial services around 18 GHz. It is therefore suggested to assume 50% attribution for each of these sources. 4 Rec. ITU-R SA.1807 For long-term interference, a distinction should be made between terrestrial and space services with satellites on the GSO. Wanted and

23、 unwanted signals from nearby satellites on the GSO received by an earth station will be affected by rain attenuation in basically the same way. The unwanted signal will suffer from the same attenuation as the wanted signal as rain cells above an earth station are generally much larger than the area

24、 of intersection with the cone determined by the angular separation. It is therefore sufficient to specify only a S/I. In the specific case of interference from the FSS to the MetSat service, it was assumed that a S/I of 20 dB would be adequate. Coordination in this frequency band is usually carried

25、 out for satellites within 8 on the GSO. With an envisaged angular separation of 2, interference from eight satellites needs to be taken into account. The interference reduction for a single FSS satellite as compared to the aggregate interference from eight satellites is then 4 dB based on the typic

26、al antenna side-lobe roll-off. Table 2 contains the parameters leading to the recommended interference criteria. TABLE 2 Long-term interference power density criteria applicable to the FSS System A System B Units Received long-term MetSat signal power level 87.3 90.2 dBW Received long-term signal po

27、wer level density 102.1 105.0 dB(W/10 MHz)Required signal-to-interference ratio 20.0 20.0 dB Long-term interference attribution to the FSS (%) 50 50 Acceptable aggregate FSS interference power density 125.1 128.0 dB(W/10 MHz)Reduction factor assuming eight satellites with 2 separation 4.0 4.0 dB Per

28、missible long-term interference power density criteria for a single FSS system 129.1 132.0 dB(W/10 MHz)Signal paths from terrestrial interference sources will normally experience an unrelated attenuation as compared to the wanted signal. Higher margins must therefore be included to cover cases where

29、 maximum attenuation occurs for the wanted signal whereas the interfering signal is basically not attenuated. For determining the long-term permissible interference from terrestrial services, it was assumed that one third of the short-term margin would be available (q = 1/3). The following equation

30、contained in Recommendation ITU-R SA.1022 has been used. ( )100qMNI = where: I0: aggregate long-term interference density N0: noise density of meteorological earth station M: long-term margin q: margin reduction factor. Rec. ITU-R SA.1807 5 Table 3 contains the parameters leading to the recommended

31、interference criteria. TABLE 3 Long-term interference power density criteria applicable to the fixed service System A System B Units MetSat noise power density 133.83 133.83 dB(W/10 MHz)MetSat short-term system margin 4.49 1.58 dB Fraction of acceptable short-term margin reduction (factor q in Recom

32、mendation ITU-R SA.1022) 0.33 0.33 Remaining desirable short-term margin 3.0 1.1 dB Permissible long-term interference power density 137.7 142.7 dB(W/10 MHz)Attribution of total long-term interference to the fixed service (%) 50 50 Assumed number of fixed service systems causing the interference 1 1

33、 Permissible long-term interference criteria for a single fixed service system 140.7 145.7 dB(W/10 MHz)Regarding the number of short-term interferers, two non-GSO FSS satellites have been assumed for space services and two fixed service links coupling on rare occasions via the troposphere or ducting

34、 for terrestrial systems. For the short-term permissible interference excess, the entire long-term margin is available (q = 1), resulting basically in a loss of the connection. A short-term interference excess probability of 0.1% was considered adequate in line with a system availability of 99.9%. T

35、his value applies to the aggregate interference from terrestrial and space services. Table 4 contains the parameters leading to the recommended interference criteria. 6 Rec. ITU-R SA.1807 TABLE 4 Short-term interference power density criteria applicable to the fixed service and the FSS System A Syst

36、em B Units MetSat noise power density 133.8 133.8 dB(W/10 MHz)MetSat long-term system margin 19.5 16.6 dB Fraction of acceptable long-term margin reduction (factor q in Recommendation ITU-R SA.1022) 1.0 1.0 Remaining short-term margin in dB 0.0 0.0 dB Permissible short-term interference power densit

37、y criteria 114.4 117.3 dB(W/10 MHz)Percentage of time interference level may be exceeded (%) 0.10 0.10 Assumed number of fixed service systems causing short-term interference 2 2 Assumed number of FSS systems causing short-term interference 2 2 Permissible percentage of time for a single fixed service or FSS system (%) 0.025 0.025

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