ITU-R Rec.No.

TITLE

P.310-9

Definitions of terms relating to propagation in non-ionized media

P.311-11

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

P.313-9

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.368-7

Ground-wave propagation curves for frequencies between 10 kHz and 30 MHz

P.371-8

Choice of indices for long-term ionospheric predictions

P.372-8

Radio noise

P.373-7

Definitions of maximum and minimum transmission frequencies

P.452-11

Prediction procedure for the evaluation of microwave interference between stations on the surface of the Earth at frequencies above about 0.7 GHz

P.453-9

The radio refractive index: its formula and refractivity data

P.525-2

Calculation of free-space attenuation

P.526-8

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.530-10

Propagation data and prediction methods required for the design of terrestrial line-of-sight systems

P.531-7

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.533-7

HF propagation prediction method

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.618-8

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.620-5

Propagation data required for the evaluation of coordination distances in the frequency range 100 MHz-105 GHz

P.676-5

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.681-6

Propagation data required for the design of Earth-space land mobile telecommunication systems

P.682-1

Propagation data required for the design of Earth-space aeronautical mobile telecommunication systems

P.684-3

Prediction of field strength at frequencies below about 150 kHz

P.832-2

World atlas of ground conductivities

P.833-4

Attenuation in vegetation

P.834-4

Effects of tropospheric refraction on radio-wave propagation

P.835-3

Reference standard atmospheres

P.836-3

Water vapour: surface density and total columnar content

P.837-4

Characteristics of precipitation for propagation modelling

P.838-2

Specific attenuation model for rain for use in prediction methods

P.839-3

Rain height model for prediction methods

P.840-3

Attenuation due to clouds and fog

P.841-3

Conversion of annual statistics to worst-months statistics

P.842-2

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.1057-1

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.1144-3

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

P.1147-2

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.1238-3

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

ITU-R reference ionospheric characteristics

P.1240

Methods of basic MUF, operational MUF and ray-path prediction

P.1321

Propagation factors affecting systems using digital modulation techniques at LF and MF

P.1322

Radiometric estimation of atmospheric attenuation

P.1406

Propagation effects relating to terrestrial land mobile service in the VHF and UHF bands

P.1407-1

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.1410-2

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.1411-2

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.1546-1

 Method for point-to-area predictions for terrestrial services in the frequency range 30 MHz to 3 000 MHz

P.1621

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

Prediction method of fade dynamics on Earth-space paths

 TEXTS OF GENERAL INTEREST

ITU-R Rec.No.

TITLE

P.310-9

Definitions of terms relating to propagation in non-ionized media

P.311-11

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.841-3

Conversion of annual statistics to worst-months statistics

P.1057-1

Probability distributions relevant to radio-wave propagation modelling

P.1144-3

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

P.1407-1

Multipath propagation and parameterization of its characters 

RADIO NOISE

ITU-R Rec.No.

TITLE

P.372-8

Radio noise

GROUND AND OBSTACLE EFFECTS

ITU-R Rec.No.

TITLE

P.526-8

Progagation by diffraction

P.527-3

Electrical characteristics of the surface of the Earth

P.832-2

World atlas of ground conductivities

P.833-4

Attenuation in vegetation

P.1058-2

Digital topographic databases for propagation studies

P.1511

Topography for Earth-to-space propagation modelling 

RADIOMETEOROLOGY

ITU-R Rec.No.

TITLE

P.453-9

The radio refractice index: its formula and refractivity data

P.676-5

Attenuation by atmospheric gases

P.834-4

Effects of tropospheric refraction on radiowave propagation

P.835-3

Reference standard atmospheres

P.836-3

Vapour vapour: surface density and total columnar content

P.837-4

Characteristics of precipitation for propagation modelling

P.838-2

Specific attenuation model for rain for use in prediction methods

P.839-3

Rain height model for prediction methods

P.840-3

Attenuation due to clouds and fog

P.1322

Radiometric estimation of atmospheric attenuation

P.1510

Annual mean surface temperature 

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.373-7

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

ITU-R reference ionospheric characteristics

P.1240

Methods of basic MUF, operational MUF and ray-path prediction

TERRESTRIAL PATH PREDICTION METHODS

ITU-R Rec.No.

TITLE

P.368-7

Ground-wave propagation curves for frequencies between 10 kHz and 30 MHz

P.684-3

Prediction of field strength at frequencies below about 500 kHz

P.1147-2

Prediction of sky-wave field strength at frequencies between about 150 and 1700 kHz

P.1321

Propagation factors affecting systems using digital modulation techniques at LF and MF

P.533-7

HF propagation prediction method

P.842-2

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.1546-1

Method for the point-to-area predictions for terrestrial services in the frequency range 30 to 3 000 MHz

P.1406

Propagation effects relating to terrestrial land mobile service in the VHF and UHF bands

P.1238-3

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.1411-2

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.1410-2

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.528-2

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

P.530-10

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

EARTH-SPACE PATH PREDICTION METHODS

ITU-R Rec.No.

TITLE

P.531-7

Ionospheric propagation data and prediction methods required for the design of satellite services and systems

P.618-8

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.681-6

Propagation data required for the design of Earth-space land mobile telecommunication systems

P.682-1

Propagation data required for the design of Earth-space aeronautical mobile telecommunication systems

P.1621

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

Prediction method of fade dynamics on Earth-space paths

FREQUENCY SHARING, INTEFERENCE SIGNAL PREDICTION AND COORDINATION

ITU-R Rec.No.

TITLE

P.452-11

Prediction procedure for the evaluation of microwave interference between stations on the surface of the Earth at frequencies above about 0.7 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.620-5

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