ITU-R S 1342-1997 Method for Determining Coordination Distances in the 5 GHz Band Between the International Standard Microwave Landing System Stations Operating in the Aeronauticaly .pdf

1、STD-ITU-R RECMN S.3342-ENGL 1997 W Y855212 0533476 2T5 Rec. ITU-R S.1342 801 RECOMMENDATION ITU-R S.1342* METHOD FOR DETERMINING COORDINATION DISTANCES, IN THE 5 GHz BAND, BETWEEN THE INTERNATIONAL STANDARD MICROWAVE LANDING SYSTEM STATIONS OPERATING IN THE AERONAUTICAL RADIONAVIGATION SERVICE PROVI

2、DING FEEDER UPLINK SERVICES (Question ITU-R 244/4) AND NON-GEOSTATIONARY MOBILE SATELLITE SERVICE STATIONS (1997) The Radiocommunication Assembly, considering a) that the aeronautical radionavigation service is allocated on a primary basis in the band 5 000-5 250 MHz; b) that the band 5000 to 5 150

3、MHz is to be used for the operation of the international standard MLS for precision approach and landing. The requirements for this system shall take precedence over other uses of this band as per footnote S5.444 of the Radio Regulations (RR). For the use of this band, RR footnote S5.444A and Resolu

4、tion 114 (WRC-95) from the World Radiocommunication Conference (Geneva, 1995) apply; c) that the WRC-95, added a Co-primary allocation for the fixed-satellite service (FSS) (Earth-to-space) in the service (MSS), and subject to coordination under Resolution 46 (Rev. WRC-95) (No. S9.11A); d) - I 5 09

5、1-5 250 MHz band, limited to feeder links of non-geostationary-satellite (non-GSO) systems in the mobile-satellite Resolution 114 (WRC-93, which, inter alia: “urges administrations to take all practicable steps to avoid mutual interference between stations of the ARNS and stations of the fixed-satel

6、lite service (FSS)”, and - “instructs the ITU-R to study the technical and operational issues relating to sharing of this band between the ARNS and the FSS providing feeder links of the non-geostationary-satellite mobile-satellite service (Earth-to-space)” ; that RR 953 (S4.10) provides recognition

7、that special measures are required for the protection of radio- e) navigation and safety services, recognizing a) that the FSS providing feeder links for non-GSO MSS has been allocated to the frequency band 5 150-5 250 MHz, as well as the frequency band 5091-5 150 MHz in the short term, in order to

8、accommodate already identified requirements; b) that the methods contained herein are based on current specifications for international standard MLS receiving equipment; * The administrations of France, United Kingdom of Great Britain and Northern Ireland, and South Africa (Republic of) reserve thei

9、r opinion on this Recommendation. This Recommendation may require updating if new information regarding MLS receiver specifications, or other information regarding protection of MLS or ARNS systems, becomes available. This Recommendation should be brought to the attention of Radiocommunication Study

10、 Group 8 and the International Civil Aviation Organization (ICAO). 802 Rec. ITU-R S.1342 c) that ICA0 is currently considering the need for protecting international standard MLS and other ARNS systems operating in the band 5 000-5 150 MHz from interference caused by unwanted emissions from feeder li

11、nk earth stations operating in the band 5 150-5 250 MHz (related to MLS) and in the band 5 091-5 250 MHz (related to ARNS other than MU) (see Note i). NOTE 1 - Current internationally-standardized specifications are based on spectrum allocations in existence prior to WRC-95. Current and future MLS h

12、ardware may offer additional rejection of out-of-band emissions with respect to existing specifications. Additional rejection, if present and standardized in all MLS avionics, may affect Roob. recommends 1 that the method for determining coordination distances between international standard MLS stat

13、ions operating in the band 5 030-5 091 MHz and FSS earth stations providing Earth-to-space feeder links in the 5 091-5 150 MHz band, described in Annex 1, should be used. ANNEX I Method for determining coordination distances This Annex sets forth a method for determining coordination distances relat

14、ive to current and planned MLS stations that may be used to enable implementation of MSS feeder link earth stations. Provisionally, coordination will not be required between MSS feeder link earth stations and MLS transmitter sites at the same altitude and which are separated by more than 450 km (243

15、 nrni). Beyond 450km, MLS airborne stations are expected to be sufficiently beyond the radio line-of-sight of the MSS feeder link earth station to protect the MLS. This coordination distance is subject to further review. For separation distances provisionally less than 450 km, the need for coordinat

16、ion is identified and dependant on the mitigation factors a) to e), as identified below. Range separation triggers for coordination may be defined as a result of intemationaily-standardized specifications for MLS out-of-band and inband interference susceptibility criteria (see Note 1, 0 c) of recogn

17、izing). For the purpose of this method, the terms “out-of-band” and “inband” are relative to the MLS band 5 030-5 091 MHz (see also item e) below). These triggers may be denoted Roob for the out-of-band range separation trigger, and Ri, for the inband range separation trigger, as defined below: wher

18、e Pl is the total e.i.r.p. (dEW) of non-GSO feeder link earth station assignments and proposed assignments in the band 5 091-5 150 MHz where P2 is the peak non-GSO MSS feeder link earth station e.i.r.p. density (dB(W/lSOkHz) in the band 5 030-5 091 MHz at assigned MLS frequencies where the e.i.r.p.

19、density P2 is referred to as an interference evaluation bandwidth, a value not exceeding 150 kHz (see Note I). If both Roob and Ri, are less than the planned range based on the candidate MSS feeder link earth station location and current or planned MLS transmitter location(s), MLS operations will be

20、 unaffected and further analysis and B STD-ITU-R RECMN S-134i-ENGL 1997 4855212 0531478 078 = Rec. ITU-R S.1342 803 coordination is not required. If either increased filtering of the transmitted MSS feeder link earth station uplink signal; antenna orientation and directive gain characteristics of MS

21、S feeder link earth station transmit antenna; alternative locations for the MSS feeder link earth station; in regions where current and projected MLS deployments are expected to be limited, consideration may optionally be given to the additional frequency separation afforded by MLS operation in the

22、lower channels of the MLS channel plan extending from 5 030 MHz to 5 O91 MHz. This option should be at the discretion of the affected national authorities. Items a) through d) may affect the power level of MSS feeder link earth station emissions in the direction of MLS service volumes. Item e) may a

23、ffect the operating frequency(ies) of MLS. This, in turn, may reduce the level of relevant MSS spurious emissions in the 2.4 MHz band centred on the MLS frequency assignment, which affects R,. Additional factors may be considered on an individual basis; however, the need to maintain the reliability

24、and integrity requirements of MLS, consistent with the safety of night service it provides, needs to be addressed. NOTE 1 - ICAO has indicated that on the basis of the cunent design specifications for the MLS receiver, a 150 kHz receiver IF bandwidth is to be used when determining coordination distances. ICAO is requested to urgently determine if adjustments to this specification can be made that would facilitate improved FSS feeder link earth station coordination, if practicable, while preserving the integrity of the MLS system.