Recommendation ITU-R F (03/2012)

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

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

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

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

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

Test procedure for measuring the scanning speed of radio monitoring receivers

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

Recommendation ITU-R M (12/2013)

Protection criteria related to the operation of data relay satellite systems

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

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

SINPO and SINPFEMO codes

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

Recommendation ITU-R F (05/2011)

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

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

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

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

Common formats for the exchange of information between monitoring stations

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

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

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

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

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

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

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

Recommendation ITU-R SA (07/2017)

Recommendation ITU-R M (06/2005)

Performance and interference criteria for satellite passive remote sensing

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

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

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.

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

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

Prediction of building entry loss

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

Recommendation ITU-R SA (07/2017)

Attenuation due to clouds and fog

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

Spectrum limit masks for digital terrestrial television broadcasting

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

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

Characteristics of precipitation for propagation modelling

Technical and operational characteristics of land mobile MF/HF systems

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

Characteristics of data relay satellite systems

Recommendation ITU-R M (09/2015)

Water vapour: surface density and total columnar content

Prediction of clutter loss

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

Methods for measurements on digital broadcasting signals

The concept of transmission loss for radio links

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

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

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

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

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

Conversion of annual statistics to worst-month statistics

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

General requirements for broadcastoriented applications of integrated

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

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

Electronic data file format for earth station antenna patterns

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

Recommendation ITU-R BT (03/2010)

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

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

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

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

Field-strength measurements along a route with geographical coordinate registrations

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

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

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

Radio-frequency arrangements for fixed service systems

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

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

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

Morse telegraphy procedures in the maritime mobile service

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

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

Preferred frequency bands for radio astronomical measurements

Recommendation ITU-R F (09/2015)

The radio refractive index: its formula and refractivity data

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

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

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

Common application environment for interactive digital broadcasting services

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

Objectives, characteristics and functional requirements of wide-area sensor and/or actuator network (WASN) systems

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

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

Reliability calculations for adaptive HF fixed service networks

Role of the amateur and amateur-satellite services in support of disaster mitigation and relief

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

Minimum requirements related to technical performance for IMT-2020 radio interface(s)

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

Colour conversion from Recommendation ITU-R BT.709 to Recommendation ITU-R BT.2020

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

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

Transcription:

Recommendation ITU-R F.1495-2 (03/2012) Interference criteria to protect the fixed service from time varying aggregate interference from other radiocommunication services sharing the 17.7-19.3 GHz band on a co-primary basis F Series Fixed service

ii Rec. ITU-R F.1495-2 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, 2012 ITU 2012 All rights reserved. No part of this publication may be reproduced, by any means whatsoever, without written permission of ITU.

Rec. ITU-R F.1495-2 1 RECOMMENDATION ITU-R F.1495-2 Interference criteria to protect the fixed service from time varying aggregate interference from other radiocommunication services sharing the 17.7-19.3 GHz band on a co-primary basis (2000-2007-2012) Scope This Recommendation defines the interference criteria necessary to protect the fixed service from time varying aggregate interference from other radiocommunication services sharing the 17.7-19.3 GHz band on a co-primary basis. The ITU Radiocommunication Assembly, considering a) that it is desirable to determine the protection criteria of FS systems operating in the 18 GHz (17.7-19.3 GHz) band with respect to aggregate interference from systems operating co-primary, especially short-term interference; b) that in interference situations involving non-gso space stations, FS systems are potentially exposed to high levels of interference for short periods of time which could affect the error performance objectives (EPO) or availability performance objectives (APO) of these systems; c) that the FS link design in the 18 GHz band is controlled by rain attenuation, which can be modelled using Recommendation ITU-R P.530; d) that in the 18 GHz band, some administrations employ automatic transmit power control (ATPC) on some FS links and that the use of ATPC will increase the susceptibility of FS systems especially with regard to short-term interference; e) that some FS systems employing small net fade margins may not be fully protected from interference from non-gso satellite systems without unduly constraining those services; f) that typical FS links using ATPC will require tighter protection criteria than those needed for FS links with large fade margin that do not use ATPC; g) that the generic long-term criterion assumed for not exceeding the maximum APO apportionment (10%) due to other services sharing the same frequency band on a co-primary basis, is defined as I/N at the input of the FS receiver not exceeding 10 db for more than 20% of the year (see Recommendation ITU-R F.758); however, when time varying levels of interference are concerned, additional care should be taken for evaluating shorter duration interference contributions; h) that it is desirable to derive the aggregate FS protection criteria based on the calculation of the allowable apportionment of EPO due to interference, considering typical FS links using ATPC features; j) that the determination of the maximum apportionment of EPO (10%) allowable to interference from other services sharing the same frequency band on a co-primary basis is given in Recommendation ITU-R F.1094;

2 Rec. ITU-R F.1495-2 k) that Recommendation ITU-R F.1668 gives the EPO allowable for real digital fixed wireless links used in 27 500 km hypothetical reference paths (HRP) and connections; l) that the allowable degradation in performance of FS systems due to interference from other services sharing the same frequency bands on a primary basis, expressed as a permissible fraction of the total EPO is defined in Recommendation ITU-R F.1565 for real digital fixed wireless links used in the international and national portions of a 27500 km HRP at or above the primary rate, noting a) that the application of the criteria in this Recommendation may be subject to further consideration within sharing studies with other services; b) that any further development of this Recommendation that may be necessary is unlikely to require further study of the appropriateness of the non-gso satellite FSS pfd limits in this band, recommends 1 that the following interference criteria should be used to protect the FS from time varying aggregate interference from other services in the 17.7-19.3 GHz band on a co-primary basis: 1.1 for the long-term evaluation of the APO apportionment, the I/N at the input of the FS receiver should be considered not exceeding 10 db for more than 20% of the time in any year (Note 1); 1.2 for the evaluation of the long-term interference contribution to EPO apportionment, the same assumption of recommends 1.1 should be used also for any month; 1.3 for the short-term, the I/N at the input of the FS receiver should not exceed +14 db for more than 0.01% of the time in any month; 1.4 for the short-term, the I/N at the input of the FS receiver should not exceed +18 db for more than 0.0003% of the time in any month; 2 that total apportionment of EPOs from long- and short-term interference should not exceed 10% (see Recommendation ITU-R F.1094); 3 that the information contained in Annex 1 should be used as guidance for the use of this Recommendation. NOTE 1 When time varying interference is concerned, AP apportionment may, in principle, be experienced at any time the I/N exceeds this value for more than 10 consecutive seconds; complex time/level integration might be needed for an overall evaluation. However, in the case considered in this Recommendation, the EP apportionment is considered predominant and the AP impact is not further considered.

Rec. ITU-R F.1495-2 3 Annex 1 Derivation of FS aggregate protection criteria in the 17.7-19.3 GHz band 1 Introduction The methodology presented in this Annex is based on the assumptions that the fading in the 18 GHz band is dominated by rain and that, therefore, even if long-term interference has an effect on the error performance of the link, the main way to produce severely errored seconds (SES) events on the FS link is to have an interference level higher than the noise level by more than the fade margin of the link, whatever the propagation conditions may be. Errored seconds (ES) events can be experienced also with lower interference levels. On this basis, the following apportionment of the effect of interference on the EPO apportionment of the link has been assumed: 20% of FS link apportionment due to long-term interference; 80% of FS link apportionment due to short-term interference. 2 Error performance objective The allowable degradation in performance of FS systems due to interference from other services sharing the same frequency bands on a primary basis are expressed as a permissible fraction (10%) of the total EPO and are defined in Recommendation ITU-R F.1565 for the real FS systems which may form part of the national portion of a 27500 km HRP, assumed to be representative of the 18 GHz FS links, usually used in the access networks or mobile telephone infrastructure networks. The corresponding values are given in Table 1, and correspond to the following assumptions: short haul inter-exchange network section (see Table 4a of Recommendation ITU-R F.1565) composed of five hops of 8 km; rate from 15 to 55 Mbit/s; B = 8%. TABLE 1 Total allowable to interference EPO (fraction of any month) Long-term interference (20%) Short-term interference (80%) Errored second ratio (ESR) 1.2 10 4 2.4 10 5 9.6 10 5 Severely errored seconds ratio (SESR) 3.2 10 6 6.4 10 7 2.6 10 6 Background block error ratio (BBER) 3.2 10 7 6.4 10 8 2.6 10 7

4 Rec. ITU-R F.1495-2 3 Short-term criteria As explained in 1, the main way to produce SES events on the FS link considering short-term interference is to have an interference level higher than the noise level by more than the fade margin of the link, whatever the propagation conditions may be, and ES events can be experienced also with lower interference levels. The definition of short-term criteria is then linked to both values of fade margins (or net fade margins considering ATPC (see Note 1)) and EPO allocated to short-term interference as defined in Table 1, considering that the fade margin is allocated to the short-term criteria. The following criteria definition has been based on a 19 db (for a BER of 1 10 3 ) fade margin. In the United Kingdom and France there are respectively 23% and 20% of the 18 GHz links with fade margins (or net fade margin (see Note 1)) lower than 19 db. NOTE 1 For an FS link using ATPC, the net fade margin = total fade margin ATPC range. As this fade margin is given for a BER of 1 10 3 which is a triggered SES event in Recommendation ITU-T G.821 and as the EPO are referenced to Recommendation ITU-T G.826 definition, it is necessary to extrapolate the fade margin corresponding to ES and SES levels. On the basis of the agreed assumptions that the fade margins (FM) for ES and SES are respectively 5 db and 1 db lower than the FM referenced to the BER 1 10 3 level which is 2 db higher than the FM referenced to the BER 1 10 6 level, Table 2 summarizes these different values of fade margins and, associated with the correspondent EPO ratios, allows to define two short-term criteria for the FS in the bands. TABLE 2 Fade margin (db) EPO ratio ES 14 9.6 10 5 BER 1 10 6 17 SES 18 2.6 10 6 BER 1 10 3 19 Thus, the short-term criteria proposed to be used in the 18 GHz band have been defined associating the ES and SES EPO (see Table 2) and the corresponding I/N as defined in Table 3. TABLE 3 I/N (db) Percentage of time not to be exceeded (%) Criterion 1 14 0.01 Criterion 2 18 0.0003

Rec. ITU-R F.1495-2 5 4 Long-term criteria 4.1 The long-term criterion specified in Recommendation ITU-R F.758 to be used for the 18 GHz band is I/N = 10 db (which gives a 0.5 db degradation of the fade margin) not to be exceeded for more than 20% of the time. But in some cases only one threshold point for the long-term criterion is not enough to protect FS systems and the I/N distribution up to the first shortterm criterion should be also taken into account to be sure that total apportionment of EPOs will not exceed 10%. Finally, considering low net fade margin, and based on the information provided by Radiocommunication Working Party 3M that, under clear air conditions, multipath effects would have to be considered, it has been acknowledged that some performance degradation could occur due to the simultaneous effect of interference and multipath fading using, for example, the fractional degradation in performance (FDP) approach (see Recommendation ITU-R F.1108) or the following formula: where: D ltepo : 1 I( t) D ltepo 0.89 100% dt 10 4 N apportionment on error performance objectives. The significance of degradation to availability may also need to be assessed. 4.2 Although FDP as provided in Recommendation ITU-R F.1108 may be sufficient for receivers without ATPC, the FDP for receivers employing ATPC requires additional consideration. Consider a system equipped with ATPC. It operates at a reduced transmit power until the desired signal fades more than a threshold amount, A T (db). For fading beyond the threshold value, the transmit power is increased to maintain essentially a constant power level at the receiver until the signal is faded by A M (db). For fade depths greater than A M the transmitter operates at maximum power. Thus, the ATPC range is A R where AR = AM AT. Denoting the fade margin as A FM, the difference between the fade margin and the full-power fade depth is denoted as AW = AFM AM. For receivers employing ATPC, it can be shown that the FDP may be expressed as: FDP = FDP0 + ΔFDP where FDP 0 is the usual FDP as derived in Recommendation ITU-R F.1108 and given here as: and the contribution due to ATPC and interference is given by: It is assumed here that (i/n) k+1 is greater than (i/n) k and that k c is the largest index for which: FDP = f ( i/ n) 0 ( 0. 1A k All k ΔFDP = 10 R 1) f (1 + ( i/ n) ) 10 log k > k c k k ( 1 + ( i / n) k ) < Aw k

6 Rec. ITU-R F.1495-2 An alternative approach to determining D ltepo for receivers employing ATPC is given as follows: where: 1 t f ( ) ( ) D ltepo I t 0.1A I t 0.89 d 10 d t + w t 100 % 4 N N t f 10 I(t): interference power (W) that is exceeded for the fraction of time t; t f : fraction of time that I(t)/N (db) exceeds A w. 4.3 It should be noted that in some of these cases where high I/N values are considered, the long-term criteria as described in 4.1 may provide the required FS protection. Reallocation of degradations from long- and short-term interference inside the total allowable EPOs apportionment of 10% also could be considered.

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