Recommendation ITU-R M (06/2005)

Similar documents
RECOMMENDATION ITU-R M.1639 *

Recommendation ITU-R M (12/2013)

Recommendation ITU-R SF.1843 (10/2007)

Radio-frequency channel arrangements for fixed wireless systems operating in the band GHz

Characteristics and protection criteria for non-geostationary mobile-satellite service systems operating in the band

Measurement uncertainty as it applies to test limits for the terrestrial component of International Mobile Telecommunications-2000

Alternative BSS earth station antenna radiation pattern for 12 GHz BSS bands with effective apertures in the range cm

Test procedure for measuring the scanning speed of radio monitoring receivers

Frequency sharing between SRS and FSS (space-to-earth) systems in the GHz band

Radio-frequency channel arrangements for fixed wireless systems operating in the GHz band

Recommendation ITU-R F (05/2011)

Recommendation ITU-R M (09/2015)

Protection criteria for non-gso data collection platforms in the band MHz

Protection criteria related to the operation of data relay satellite systems

Use of the frequency bands between MHz by the aeronautical mobile (R) service for data transmission using class of emission J2D

Protection criteria for arrival time difference receivers operating in the meteorological aids service in the frequency band 9-11.

Technical characteristics and protection criteria for aeronautical mobile service systems in the frequency range GHz

Protection criteria for Cospas-Sarsat local user terminals in the band MHz

Radio-frequency channel arrangements for fixed wireless systems operating in the band GHz

Systems characteristics of automotive radars operating in the frequency band GHz for intelligent transport systems applications

Recommendation ITU-R F (03/2012)

Characteristics of and protection criteria for systems operating in the mobile service in the frequency range GHz

Use of International Radio for Disaster Relief (IRDR) frequencies for emergency broadcasts in the High Frequency (HF) bands

Frequency bands and transmission directions for data relay satellite networks/systems

Recommendation ITU-R M.1905 (01/2012)

Common formats for the exchange of information between monitoring stations

The concept of transmission loss for radio links

Interference criteria for meteorological aids operated in the MHz and MHz bands

Technical and operational characteristics of land mobile MF/HF systems

Frequency block arrangements for fixed wireless access systems in the range MHz

Recommendation ITU-R SA (07/2017)

Method of measuring the maximum frequency deviation of FM broadcast emissions at monitoring stations

Test procedure for measuring the sensitivity of radio monitoring receivers using analogue-modulated signals. Recommendation ITU-R SM.

Radio-frequency arrangements for systems of the fixed service operating in the 25, 26 and 28 GHz bands. Recommendation ITU-R F.

Radio-frequency arrangements for systems of the fixed service operating in sub-bands in the GHz band

Radio-frequency channel arrangements for fixed wireless systems operating in the 8 GHz (7 725 to MHz) band

Characteristics of data relay satellite systems

Recommendation ITU-R SA (07/2017)

Antenna rotation variability and effects on antenna coupling for radar interference analysis

Spectrum limit masks for digital terrestrial television broadcasting

Channel access requirements for HF adaptive systems in the fixed and land mobile services

Radio-frequency channel arrangements based on a homogeneous pattern for fixed wireless systems operating in the 4 GHz band

Method of measuring the maximum frequency deviation of FM broadcast emissions at monitoring stations. Recommendation ITU-R SM.

Assessment of impairment caused to digital television reception by a wind turbine

Performance and interference criteria for satellite passive remote sensing

Protection of fixed monitoring stations against interference from nearby or strong transmitters

Test procedure for measuring direction finder sensitivity in the VHF/UHF frequency range

SINPO and SINPFEMO codes

Characteristics and protection criteria for radars operating in the aeronautical radionavigation service in the frequency band

Frequency ranges for operation of non-beam wireless power transmission systems

Radio-frequency channel arrangements for medium- and high-capacity digital fixed wireless systems operating in the MHz band

Water vapour: surface density and total columnar content

Propagation curves for aeronautical mobile and radionavigation services using the VHF, UHF and SHF bands

Methods for measurements on digital broadcasting signals

Attenuation due to clouds and fog

Prediction of building entry loss

Electronic data file format for earth station antenna patterns

Interference mitigation techniques for use by high altitude platform stations in the GHz and GHz bands

Calculation of the maximum power density (averaged over 4 khz or 1 MHz) of angle-modulated and digital carriers

Field-strength measurements along a route with geographical coordinate registrations

Service requirements for digital sound broadcasting to vehicular, portable and fixed receivers using terrestrial transmitters in the VHF/UHF bands

Prediction of clutter loss

Radio-frequency channel and block arrangements for fixed wireless systems operating in the 42 GHz (40.5 to 43.5 GHz) band. Recommendation ITU-R F.

Availability objective for radio-relay systems over a hypothetical reference digital path

Characteristics of precipitation for propagation modelling

The use of diversity for voice-frequency telegraphy on HF radio circuits

Recommendation ITU-R BT (03/2010)

Recommendation ITU-R F.1571 (05/2002)

The prediction of the time and the spatial profile for broadband land mobile services using UHF and SHF bands

Bandwidths, signal-to-noise ratios and fading allowances in complete systems

Guidelines for efficient use of the band GHz by the Earth explorationsatellite service (space-to-earth)

General requirements for broadcastoriented applications of integrated

, 16:9 progressively-captured image format for production and international programme exchange in the 50 Hz environment

Morse telegraphy procedures in the maritime mobile service

Parameters for international exchange of multi-channel sound recordings with or without accompanying picture

Essential requirements for a spectrum monitoring system for developing countries

User requirements for codecs for transmission of television signals through contribution, primary distribution, and SNG networks

Report ITU-R SM.2181 (09/2010)

Error performance and availability objectives and requirements for real point-to-point packet-based radio links

Bandwidths, signal-to-noise ratios and fading allowances in HF fixed and land mobile radiocommunication systems

Allowable short-term error performance for a satellite hypothetical reference digital path

Characteristics of systems operating in the amateur and amateur-satellite services for use in sharing studies

Preferred frequency bands for radio astronomical measurements

Conversion of annual statistics to worst-month statistics

International maritime VHF radiotelephone system with automatic facilities based on DSC signalling format

Acquisition, presentation and analysis of data in studies of radiowave propagation

Recommendation ITU-R SF.1486 (05/2000)

Telegraphic alphabet for data communication by phase shift keying at 31 Bd in the amateur and amateur-satellite services. Recommendation ITU-R M.

Serial digital interface for production and international exchange of HDTV 3DTV programmes

Power flux-density and e.i.r.p. levels potentially damaging to radio astronomy receivers

Impact of audio signal processing and compression techniques on terrestrial FM sound broadcasting emissions at VHF

Mathematical models for radiodetermination radar systems antenna patterns for use in interference analyses

Radio-frequency arrangements for fixed service systems

Technical characteristics for search and rescue radar transponders

Recommendation ITU-R M (05/2011)

Recommendation ITU-R S (09/2015)

Guide to the application of the propagation methods of Radiocommunication Study Group 3

Broadcasting of multimedia and data applications for mobile reception by handheld receivers

Recommendation ITU-R M (01/2015)

Radio interface standards of vehicle-tovehicle and vehicle-to-infrastructure communications for Intelligent Transport System applications

Transcription:

Recommendation ITU-R M.1639-1 (06/2005) Protection criterion for the aeronautical radionavigation service with respect to aggregate emissions from space stations in the radionavigation-satellite service in the band 1 164-1 215 MHz M Series Mobile, radiodetermination, amateur and related satellite services

ii Rec. ITU-R M.1639-1 Foreword The role of the Radiocommunication Sector is to ensure the rational, equitable, efficient and economical use of the radio-frequency spectrum by all radiocommunication services, including satellite services, and carry out studies without limit of frequency range on the basis of which Recommendations are adopted. The regulatory and policy functions of the Radiocommunication Sector are performed by World and Regional Radiocommunication Conferences and Radiocommunication Assemblies supported by Study Groups. Policy on Intellectual Property Right (IPR) ITU-R policy on IPR is described in the Common Patent Policy for ITU-T/ITU-R/ISO/IEC referenced in Annex 1 of Resolution ITU-R 1. Forms to be used for the submission of patent statements and licensing declarations by patent holders are available from http://www.itu.int/itu-r/go/patents/en where the Guidelines for Implementation of the Common Patent Policy for ITU-T/ITU-R/ISO/IEC and the ITU-R patent information database can also be found. Series of ITU-R Recommendations (Also available online at http://www.itu.int/publ/r-rec/en) Series BO BR BS BT F M P RA RS S SA SF SM SNG TF V Title Satellite delivery Recording for production, archival and play-out; film for television Broadcasting service (sound) Broadcasting service (television) Fixed service Mobile, radiodetermination, amateur and related satellite services Radiowave propagation Radio astronomy Remote sensing systems Fixed-satellite service Space applications and meteorology Frequency sharing and coordination between fixed-satellite and fixed service systems Spectrum management Satellite news gathering Time signals and frequency standards emissions Vocabulary and related subjects Note: This ITU-R Recommendation was approved in English under the procedure detailed in Resolution ITU-R 1. Electronic Publication Geneva, 2010 ITU 2010 All rights reserved. No part of this publication may be reproduced, by any means whatsoever, without written permission of ITU.

Rec. ITU-R M.1639-1 1 RECOMMENDATION ITU-R M.1639-1 * Protection criterion for the aeronautical radionavigation service with respect to aggregate emissions from space stations in the radionavigation-satellite service in the band 1 164-1 215 MHz (2003-2005) Scope This Recommendation gives the equivalent power flux-density (epfd) level which protects stations of the aeronautical radionavigation service (ARNS) from emissions of radionavigation satellites of all radionavigation-satellite service (RNSS) systems operating in the 1 164-1 215 MHz band. The ITU Radiocommunication Assembly, considering a) that in accordance with the Radio Regulations (RR), the band 960-1215 MHz is allocated on a primary basis to the aeronautical radionavigation service (ARNS) in all the ITU Regions; b) that analyses show that radionavigation-satellite service (RNSS) signals in the 1164-1215 MHz band can be designed to not cause interference to the distance measuring equipment (DME)/tactical air navigation (TACAN) ARNS receivers operating in this band; c) that the equivalent power flux-density (epfd) method assesses interference from multiple RNSS space stations into ARNS receivers more accurately than the aggregate pfd method; d) that the signal paths of the planned RNSS (space-to-space and space-to-earth) signals in the 1164-1215 MHz band will originate from the same transmission from the RNSS satellites, and thus RNSS (space-to-space) service on such systems will not increase the epfd level above that of RNSS (space-to-earth) service; e) that there are no known plans for any RNSS systems providing exclusively RNSS (space-to-space) service in the 1164-1 215 MHz band, and the likelihood of such systems being developed in the future is considered to be very low; f) that Recommendation ITU-R M.1642 contains the methodology and the reference ARNS station characteristics to be used to calculate the aggregate epfd produced by emissions from all the space stations of all radionavigation-satellite systems at any aeronautical radionavigation station, recognizing a) that WRC-2000 introduced a co-primary allocation for the RNSS in the frequency band 1 164-1 215 MHz, subject to conditions that require the RNSS to protect the ARNS from harmful interference; b) that WRC-03 determined that protection of the ARNS from RNSS can be achieved if the value of the epfd produced by all the space stations of all RNSS (space-to-earth) systems in the band 1 164-1 215 MHz does not exceed the level of 121.5 db (W/m 2 ) in any 1 MHz band, and adopted Resolution 609 (WRC-03) in order to ensure that this level is not exceeded; * This Recommendation should be brought to the attention of the International Civil Aviation Organization (ICAO).

2 Rec. ITU-R M.1639-1 c) that the ARNS is a safety service in accordance with RR No. 1.59 and special measures need to be taken by administrations to protect these services from harmful interference in accordance with RR No. 4.10. recommends 1 that the maximum allowable epfd level from all space stations of all RNSS systems should not exceed 121.5 db(w/(m 2 MHz)) as derived in Annex 1, in order to protect the ARNS in the band 1164-1 215 MHz. Annex 1 Aggregate protection criterion determination This Annex addresses epfd level for all space-based RNSS emissions in the band 1 164-1 215 MHz, whether space-to-earth or space-to-space RNSS, which protects the ARNS. 1 Definition of epfd The definition is based upon RR No. 22.5C.1 as adopted at WRC-2000. When an antenna receives power, within its reference bandwidth, simultaneously from transmitters at various distances, in various directions and at various levels of incident pfd, the epfd is that pfd which, if received from a single transmitter in the far field of the antenna in the direction of maximum gain, would produce the same power at the input of the receiver as is actually received from the aggregate of the various transmitters. The instantaneous epfd is calculated using the following formula: Na Pi G θ ϕ = t ( i ) G r ( i ) epfd 10 log 10 10 10 2 i= πdi G 1 4 r, max where: N a : i : P i : θ i : number of space stations that are visible from the receiver index of the space station considered RF power at the input of the antenna (or RF radiated power in the case of an active antenna) of the transmitting space station (db(w/mhz)) off-axis angle between the boresight of the transmitting space station and the direction of the receiver G t (θ i ) : transmit antenna gain (as a ratio) of the space station in the direction of the receiver d i : distance (m) between the transmitting station and the receiver ϕ i : off-axis angle between the pointing direction of the receiver and the direction of the transmitting space station G r (ϕ i ) : receive antenna gain (as a ratio) of the receiver, in the direction of the transmitting space station (see Recommendation ITU-R M.1642) G r,max : maximum gain (as a ratio) of the receiver

Rec. ITU-R M.1639-1 3 epfd : instantaneous epfd (db(w/(m 2 MHz))) at the receiver. NOTE 1 It is assumed that each transmitter is located in the far field of the receiver (that is, at a distance greater than 2D 2 /λ, where D is the effective diameter of the receiver antenna and λ is the observing wavelength). In the case under consideration this will always be satisfied. 2 Maximum aggregate epfd (all RNSS systems) to protect the ARNS The parameters in Table 1 identify the epfd level at which ARNS equipment will be protected from RNSS emissions in the 1164-1215 MHz band. 1 2 3 4 TABLE 1 Maximum allowable aggregate epfd level to protect ARNS from RNSS Parameter Value Reference DME RNSS interference threshold (at antenna port) Maximum DME/TACAN antenna gain including polarization mismatch Effective area of 0 dbi antenna at 1 176 MHz RNSS (all systems) aggregate epfd in 1 MHz 129 db(w/mhz) (See Note 1) 3.4 dbi 22.9 db(m 2 ) 109.5 db(w/(m 2 MHz)) 5 Safety margin 6 db 6 Apportionment of RNSS interference to all the interference sources 6 db 7 Maximum RNSS aggregate epfd 121.5 db(w/(m 2 MHz)) (5.4 dbi antenna gain 2 db polarization mismatch) Combine 1, 2 and 3 (1 minus 2 minus 3) Recommendation ITU-R M.1477 Apportion 25% of total permissible interference to RNSS Combine 4, 5 and 6 (4 minus 5 minus 6) NOTE 1 This value is based on a 129 dbw CW interference threshold specified for international DME systems used by civil aviation. Measurement has demonstrated that an RNSS signal spread over 1 MHz would have the same effect as a CW signal on DME performance (see 2.1). 2.1 Comparison between the impact of CW interference type of signal and RNSS type of interference signal on DME/TACAN on-board receivers 2.1.1 Susceptibility of DME receivers from interference by RNSS signals (spread spectrum signals) Ground DME transponder signals of peak value 83 dbm were set as the wanted signal at the different DME interrogator/receivers. The total power of the narrow (see Fig. 1) or wideband (see Fig. 2) interference source was measured within a bandwidth of 650 khz, and the variation in performance of a DME between CW signals and the RNSS signals was determined for a number of different DME designs and a number of DMEs of the same type. These DMEs were of the type designed for large commercial aircraft and smaller commercial aviation aircraft.

4 Rec. ITU-R M.1639-1 The shape of the interference signals used in the tests is given in Figs. 1 and 2. For Fig. 1, the interference source was generated from an RNSS signal simulator that produced the exact signal structure and frequency signal of an existing RNSS system. This 1.023 Mchip/s pseudo-random code division multiple access (CDMA) transmission was translated in frequency to the relevant DME receive frequency under test. The range of interfering RNSS narrow-band signals (measured in 650 khz) applied to DMEs was 83 to 94 dbm. FIGURE 1 Example of RNSS narrow-band signal translated to 1 176.45 MHz 10 20 30 40 Power (dbm) 50 60 70 80 90 100 110 Resolution BW = 100 khz Video BW = 100 khz Sweep = 0.05 s Attenuation = 0 db Averages = 10 1639-01

Rec. ITU-R M.1639-1 5 For Fig. 2, the interference source was generated from a digital signal generator, that produced a 10.23 Mchip/s pseudo-random CDMA emission similar to that proposed by the RNSS in the band 1 164-1 215 MHz. The signal was applied directly to the relevant receive DME under test. The range of interfering RNSS wideband signals (measured in 650 khz) applied to DMEs was 81 to 93 dbm. FIGURE 2 Example of RNSS wideband signal 10 20 30 40 Power (dbm) 50 60 70 80 90 100 110 Resolution BW = 100 khz Video BW = 100 khz Sweep = 0.05 s Attenuation = 0 db Averages = 1 1639-02 2.1.2 CW RNSS measurement results Measurement has demonstrated that an RNSS signal spread over 1 MHz would have the same effect as a CW signal on DME performance. Measurement variation of about ±1 db was noted, as was a performance variation of about ±3 db between the different DMEs. 2.2 Circular polarization isolation achieved by the DME antenna A linear vertically polarized DME antenna should receive 3 db of the total circularly polarized RNSS signal. However, RNSS emissions are observed in the side lobes, not the main beam of a DME antenna, where polarization mismatch is less certain. Some recent measurements on aircraft DME antennas have indicated a value of 2.5 db, while other experience of aircraft polarization mismatch has observed factors of 0 db. It was therefore considered practical to assume a polarization mismatch of 2 db for RNSS circularly polarized signals to a DME antenna. This value should therefore be added to the effective maximum antenna gain to determine the ARNS receiver maximum antenna gain including polarization mismatch.

6 Rec. ITU-R M.1639-1 2.3 Apportionment of the DME maximum allowable aggregate interference level to RNSS The chosen factor of 6 db for the apportionment of the maximum allowable aggregate interference level, from all other interference sources to the RNSS maximum allowable aggregate interference level, recognizes that there exists the possibility of interference from other DME in the same frequency band, from the spurious and out-of-band emissions of other airborne ARNS and aeronautical mobile-satellite service (AMSS) systems and also from the bands adjacent to the ARNS. The on-board ARNS systems include multiple secondary surveillance radar transponders, multiple airborne collision avoidance systems and other DME interrogators; on-board satellite terminals in the AMSS also operate. Adjacent band sources of interference are high-powered radiolocation service radar operating just above 1 215 MHz and broadcast service transmitters operating below 960 MHz.

2024 © hobbydocbox.com Privacy Policy | Terms of Service | Feedback