List of SG3 Recommendations
In force as of July 2010
top Study Group 3 Recommendations are listed below by:
- Number
- Topic: General interest
- Topic: Radio noise
- Topic: Ground and obstacle effects
- Topic: Radiometeorolgy
- Topic: Ionospheric aspects
- Topic: Terrestrial path prediction methods
- Topic: Earth-space path prediction methods
- Topic: Frequency sharing,
interference signal prediction and coordination
· List of SG3 Recommendations
· In force as of July 2010
· ITU-R RECOMMENDATIONS - P SERIES (RADIOWAVE PROPAGATION) LISTED BY NUMBER
|
ITU-R Rec.No. |
TITLE |
|
P.310-9 |
Definitions of terms relating to propagation in non-ionized media |
|
P.311-13 |
Acquisition, presentation and analysis of data in studies of tropospheric propagation |
|
P.313-10 |
Exchange of information for short-term forecasts and transmission of ionospheric disturbance warnings |
|
P.341-5 |
The concept of transmission loss for radio links |
|
P.368-9 |
Ground-wave propagation curves for frequencies between 10 kHz and 30 MHz |
|
P.371-8 |
Choice of indices for long-term ionospheric predictions |
|
P.372-10 |
Radio noise |
|
P.373-8 |
Definitions of maximum and minimum transmission frequencies |
|
P.452-14 |
Prediction procedure for the evaluation of interference between stations on the surface of the Earth at frequencies above about 0.1 GHz |
|
P.453-9 |
The radio refractive index: its formula and refractivity data |
|
P.525-2 |
Calculation of free-space attenuation |
|
P.526-11 |
Propagation by diffraction |
|
P.527-3 |
Electrical characteristics of the surface of the Earth |
|
P.528-2 |
Propagation curves for aeronautical mobile and radionavigation services using the VHF, UHF and SHF bands |
|
P.530-13 |
Propagation data and prediction methods required for the design of terrestrial line-of-sight systems |
|
P.531-10 |
Ionospheric propagation data and prediction methods required for the design of satellite services and systems |
|
P.532-1 |
Ionospheric effects and operational considerations associated with artificial modification of the ionosphere and the radio-wave channel |
|
P.533-10 |
Method for the prediction of the performance of HF circuits |
|
P.534-4 |
Method for calculating sporadic-E field strength |
|
P.581-2 |
The concept of worst month |
|
P.617-1 |
Propagation prediction techniques and data required for the design of trans-horizon radio-relay systems |
|
P.618-10 |
Propagation data and prediction methods required for the design of Earth-space telecommunications systems |
|
P.619-1 |
Propagation data required for the evaluation of interference between stations in space and those on the surface of the Earth |
|
P.620-6 |
Propagation data required for the evaluation of coordination distances in the frequency range 100 MHz-105 GHz |
|
P.676-8 |
Attenuation by atmospheric gases |
|
P.678-1 |
Characterization of the natural variability of propagation phenomena |
|
P.679-3 |
Propagation data required for the design of broadcasting-satellite systems |
|
P.680-3 |
Propagation data required for the design of Earth-space maritime-mobile telecommunication systems |
|
P.681-7 |
Propagation data required for the design of Earth-space land mobile telecommunication systems |
|
P.682-2 |
Propagation data required for the design of Earth-space aeronautical mobile telecommunication systems |
|
P.684-5 |
Prediction of field strength at frequencies below about 150 kHz |
|
P.832-2 |
World atlas of ground conductivities |
|
P.833-6 |
Attenuation in vegetation |
|
P.834-6 |
Effects of tropospheric refraction on radio-wave propagation |
|
P.835-5 |
Reference standard atmospheres |
|
P.836-4 |
Water vapour: surface density and total columnar content |
|
P.837-5 |
Characteristics of precipitation for propagation modelling |
|
P.838-3 |
Specific attenuation model for rain for use in prediction methods |
|
P.839-3 |
Rain height model for prediction methods |
|
P.840-4 |
Attenuation due to clouds and fog |
|
P.841-4 |
Conversion of annual statistics to worst-months statistics |
|
P.842-4 |
Computation of reliability and compatibility of HF radio systems |
|
P.843-1 |
Communication by meteor-burst propagation |
|
P.844-1 |
Ionospheric factors affecting frequency sharing in the VHF and UHF bands (30 MHz-3 GHz) |
|
P.845-3 |
HF fields-strength measurement |
|
P.846-1 |
Measurements of ionospheric and related characteristics |
|
P.1057-2 |
Probability distributions relevant to radio-wave propagation modelling |
|
P.1058-2 |
Digital topographic databases for propagation studies |
|
P.1060 |
Propagation factors affecting frequency sharing in HF terrestrial systems |
|
P.1144-5 |
Guide to the application of the propagation methods of Radiocommunication Study Group 3 |
|
P.1147-4 |
Prediction of sky-wave field strength at frequencies between about 150 and 1700 kHz |
|
P.1148-1 |
Standardized procedure for comparing predicted and observed HF sky-wave signal intensities and the presentation of such comparisons |
|
P.1238-6 |
Propagation data and prediction models for the planning of indoor radiocommunication systems and radio local area networks in the frequency range 900 MHz to 100 GHz |
|
P.1239-2 |
ITU-R reference ionospheric characteristics |
|
P.1240-1 |
ITU-R methods of basic MUF, operational MUF and ray-path prediction |
|
P.1321-3 |
Propagation factors affecting systems using digital modulation techniques at LF and MF |
|
P.1322 |
Radiometric estimation of atmospheric attenuation |
|
P.1406-1 |
Propagation effects relating to terrestrial land mobile and broadcasting services in the VHF and UHF bands |
|
P.1407-4 |
Multipath propagation and parameterization of its characters |
|
P.1409 |
Propagation data and prediction methods required in the design of systems using high altitude platform stations at about 47 GHz |
|
P.1410-4 |
Propagation data and prediction methods required for the design of terrestrial broadband radio access systems operating in a frequency range of about 3-60 GHz |
|
P.1411-5 |
Propagation data and prediction models for the planning of short-range outdoor radiocommunication systems and radio local area networks in the frequency range 300 MHz to 100GHz |
|
P.1412 |
Propagation data for the evaluation of coordination between Earth stations working in the bidirectionally allocated frequency bands |
|
P.1510 |
Annual mean surface temperature |
|
P.1511 |
Topography for Earth-to-space propagation modelling |
|
P.1546-4 |
Method for point-to-area predictions for terrestrial services in the frequency range 30 MHz to 3 000 MHz |
|
P.1621-1 |
Propagation data required for the design of Earth-space systems operating between 20 THz and 375 THz |
|
P.1622 |
Prediction methods required for the design of Earth-space systems operating between 20 THz and 375 THz |
|
P.1623-1 |
Prediction method of fade dynamics on Earth-space paths |
|
P.1791 |
Propagation prediction methods for assessment of the impact of ultra-wideband devices |
|
P.1812-1 |
A path-specific propagation prediction method for point-to-area terrestrial services in the VHF and UHF bands |
|
P.1814 |
Prediction methods required for the design of terrestrial free-space optical links |
|
P.1815-1 |
Differential rain attenuation |
|
P.1816 |
The prediction of the time and the spatial profile for broadband land mobile services using UHF and SHF bands |
|
P.1817 |
Propagation data required for the design of terrestrial free-space optical links |
|
P.1853 |
Tropospheric attenuation time series synthesis |
|
|
|
· Note that these Recommendations may be purchased through the ITU Bookshop
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· ITU-R RECOMMENDATIONS - P SERIES (RADIOWAVE PROPAGATION) LISTED BY TOPIC: GENERAL INTEREST
|
TEXTS OF GENERAL INTEREST |
|
|
ITU-R Rec.No. |
TITLE |
|
P.310-9 |
Definitions of terms relating to propagation in non-ionized media |
|
P.311-13 |
Acquisition, presentation and analysis of data in studies of tropospheric propagation |
|
P.341-5 |
The concept of transmission loss for radio links |
|
P.525-2 |
Calculation of free-space attenuation |
|
P.581-2 |
The concept of "worst month" |
|
P.678-1 |
Characterization of the natural variability of propagation phenomena |
|
P.841-4 |
Conversion of annual statistics to worst-months statistics |
|
P.1057-2 |
Probability distributions relevant to radio-wave propagation modelling |
|
P.1144-5 |
Guide to the application of the propagation methods of Radiocommunication Study Group 3 |
|
P.1407-1 |
Multipath propagation and parameterization of its characters |
|
|
|
· To top of the page
· ITU-R RECOMMENDATIONS - P SERIES (RADIOWAVE PROPAGATION) LISTED BY TOPIC: RADIO NOISE
|
RADIO NOISE |
|
|
ITU-R Rec.No. |
TITLE |
|
P.372-10 |
Radio noise |
|
|
|
· To top of the page
· ITU-R RECOMMENDATIONS - P SERIES (RADIOWAVE PROPAGATION) LISTED BY TOPIC: GROUND AND OBSTACLE EFFECTS
|
GROUND AND OBSTACLE EFFECTS |
|
|
ITU-R Rec.No. |
TITLE |
|
P.526-10 |
Progagation by diffraction |
|
P.527-3 |
Electrical characteristics of the surface of the Earth |
|
P.832-2 |
World atlas of ground conductivities |
|
P.833-6 |
Attenuation in vegetation |
|
P.1058-2 |
Digital topographic databases for propagation studies |
|
P.1511 |
Topography for Earth-to-space propagation modelling |
|
|
|
· To top of the page
· ITU-R RECOMMENDATIONS - P SERIES (RADIOWAVE PROPAGATION) LISTED BY TOPIC: RADIOMETEOROLOGY
|
RADIOMETEOROLOGY |
|
|
ITU-R Rec.No. |
TITLE |
|
P.453-9 |
The radio refractice index: its formula and refractivity data |
|
P.676-8 |
Attenuation by atmospheric gases |
|
P.834-6 |
Effects of tropospheric refraction on radiowave propagation |
|
P.1853 |
Tropospheric attenuation time series synthesis |
|
P.835-5 |
Reference standard atmospheres |
|
P.836-4 |
Vapour vapour: surface density and total columnar content |
|
P.837-5 |
Characteristics of precipitation for propagation modelling |
|
P.838-3 |
Specific attenuation model for rain for use in prediction methods |
|
P.839-3 |
Rain height model for prediction methods |
|
P.840-4 |
Attenuation due to clouds and fog |
|
P.1322 |
Radiometric estimation of atmospheric attenuation |
|
P.1510 |
Annual mean surface temperature |
|
P.1815-1 |
Differential rain attenuation |
|
|
|
· To top of the page
· ITU-R RECOMMENDATIONS - P SERIES (RADIOWAVE PROPAGATION) LISTED BY TOPIC: IONOSPHERIC ASPECTS
|
IONOSPHERIC ASPECTS |
|
|
ITU-R Rec.No. |
TITLE |
|
P.313-9 |
Exchange of information for short-term forecasts and transmission of ionospheric disturbance warnings |
|
P.371-8 |
Choice of indices for long-term ionospheric predictions |
|
P.373-8 |
Definitions of maximum and minimum transmission frequencies |
|
P.532-1 |
Ionospheric effects and operational considerations associated with artificial modification of the ionosphere and the radio-wave channel |
|
P.845-3 |
HF fields-strength measurement |
|
P.846-1 |
Measurements of ionospheric and related characteristics |
|
P.1148-1 |
Standardized procedure for comparing predicted and observed HF sky-wave signal intensities and the presentation of such comparisons |
|
P.1239-2 |
ITU-R reference ionospheric characteristics |
|
P.1240-1 |
Methods of basic MUF, operational MUF and ray-path prediction |
|
|
|
· To top of the page
· ITU-R RECOMMENDATIONS - P SERIES (RADIOWAVE PROPAGATION) LISTED BY TOPIC: TERRESTRIAL PATHS
|
TERRESTRIAL PATH PREDICTION METHODS |
|
|
ITU-R Rec.No. |
TITLE |
|
P.368-9 |
Ground-wave propagation curves for frequencies between 10 kHz and 30 MHz |
|
P.684-5 |
Prediction of field strength at frequencies below about 500 kHz |
|
P.1147-4 |
Prediction of sky-wave field strength at frequencies between about 150 and 1700 kHz |
|
P.1321-3 |
Propagation factors affecting systems using digital modulation techniques at LF and MF |
|
P.533-10 |
HF propagation prediction method |
|
P.842-4 |
Computation of reliability and compatibility of HF radio systems |
|
P.843-1 |
Communication by meteor-burst propagation |
|
P.534-4 |
Method for calculating sporadic-E field strength |
|
P.530-13 |
Propagation data and prediction methods required for the design of terrestrial line-of-sight systems |
|
P.617-1 |
Propagation prediction techniques and data required for the design of trans-horizon radio-relay systems |
|
P.528-2 |
Propagation curves for aeronautical mobile and radionavigation services using the VHF, UHF and SHF bands |
|
P.1546-4 |
Method for the point-to-area predictions for terrestrial services in the frequency range 30 to 3 000 MHz |
|
P.1812-1 |
A path-specific propagation prediction method for point-to-area terrestrial services in the VHF and UHF bands |
|
P.1406-1 |
Propagation effects relating to terrestrial land mobile service in the VHF and UHF bands |
|
P.1816 |
The prediction of the time and the spatial profile for broadband land mobile services using UHF and SHF bands |
|
P.1238-6 |
Propagation data and prediction models for the planning of indoor radiocommunication systems and radio local area networks in the frequency range 900 MHz to 100GHz |
|
P.1410-4 |
Propagation data and prediction methods required for the design of terrestrial broadband millimetric radio access systems operating in a frequency range of about 20-50 GHz |
|
P.1411-5 |
Propagation data and prediction models for the planning of short-range outdoor radiocommunication systems and radio local area networks in the frequency range 300 MHz to 100GHz |
|
|
|
· To top of the page
· ITU-R RECOMMENDATIONS - P SERIES (RADIOWAVE PROPAGATION) LISTED BY TOPIC: EARTH-SPACE PREDICTIONS
|
EARTH-SPACE PATH PREDICTION METHODS |
|
|
ITU-R Rec.No. |
TITLE |
|
P.531-10 |
Ionospheric propagation data and prediction methods required for the design of satellite services and systems |
|
P.618-10 |
Propagation data and prediction methods required for the design of Earth-space telecommunication systems |
|
P.679-3 |
Propagation data required for the design of broadcasting-satellite systems |
|
P.680-3 |
Propagation data required for the design of Earth-space maritime-mobile telecommunication systems |
|
P.681-7 |
Propagation data required for the design of Earth-space land mobile telecommunication systems |
|
P.682-2 |
Propagation data required for the design of Earth-space aeronautical mobile telecommunication systems |
|
P.1621-1 |
Propagation data required for the design of Earth-space systems operating between 20 THz and 375 THz |
|
P.1622 |
Prediction methods required for the design of Earth-space systems operating between 20 THz and 375 THz |
|
P.1623-1 |
Prediction method of fade dynamics on Earth-space paths |
|
P.1814 |
Prediction methods required for the design of terrestrial free-space optical links |
|
P.1817 |
Propagation data required for the design of terrestrial free-space optical links |
|
|
|
· To top of the page
· ITU-R RECOMMENDATIONS - P SERIES (RADIOWAVE PROPAGATION) LISTED BY TOPIC: FREQUENCY SHARING, INTERFERENCE SIGNAL PREDICTION AND COORDINATION
|
FREQUENCY SHARING, INTEFERENCE SIGNAL PREDICTION AND COORDINATION |
|
|
ITU-R Rec.No. |
TITLE |
|
P.452-14 |
Prediction procedure for the evaluation of interference between stations on the surface of the Earth at frequencies above about 0.1 GHz |
|
P.619-1 |
Propagation data required for the evaluation of interference between stations in space and those on the surface of the Earth |
|
P.620-6 |
Propagation data required for the calculation of coordination distances in the frequency range 100 MHz and 105 GHz |
|
P.1412 |
Propagation data for the evaluation of coordination between Earth stations working in the bidirectionally allocated frequency bands |
|
P.1409 |
Propagation data and prediction methods required in the design of systems using high altitude platform stations at about 47 GHz |
|
P.844-1 |
Ionospheric factors affecting frequency sharing in the VHF and UHF bands(30 MHz-3 GHz) |
|
P.1060 |
Propagation factors affecting frequency sharing in HF terrestrial systems |
|
P.1791 |
Propagation prediction methods for assessment of the impact of ultra-wideband devices |
|
|
|