WinProp_ParaHybrid
Data Fields
- int
- MaterialsIndividual
- int
- WithSubdivisions
- int
- Model
- double
- Resolution
- int
- NrHeights
- double *
- Heights
- int
- HeightMode
- int
- FloorSelection
- int
- DiffractionModel
- int
- IRTInteractionsMaxTotal
- int
- IRTInteractionsMaxReflections
- int
- IRTInteractionsMaxDiffractions
- int
- IRTInteractionsMaxTransmissions
- float
- TransmissionLoss
- float
- ReflectionLoss
- float
- DiffractionLossInMin
- float
- DiffractionLossInMax
- float
- DiffractionLossOut
- float
- Epsilon
- float
- Mu
- float
- Sigma
Detailed Description
This structure is used for Hybrid scenarios (e.g., CNP mode). This is not yet supported.
Field Documentation
- MaterialsIndividual
-
- int WinProp_ParaHybrid::MaterialsIndividual
- Individual materials or not (only in combination with WinProp database)
- 0 = default materials
- 1 = individual (odb, opb)
- WithSubdivisions
-
- int WinProp_ParaHybrid::WithSubdivisions
- Parameter to enable the consideration of subdivisions
- 1 = subdivisions considered
- 0 = subdivisions not considered
- Model
-
- int WinProp_ParaHybrid::Model
- This parameter should be set to 0 (Indoor model)
- Resolution
-
- double WinProp_ParaHybrid::Resolution
- Indoor resolution (meters)
- NrHeights
-
- int WinProp_ParaHybrid::NrHeights
- Number of prediction heights of the indoor database in the CNP scenario.
- Heights
-
- double * WinProp_ParaHybrid::Heights
- Array of the prediction heights
- HeightMode
-
- int WinProp_ParaHybrid::HeightMode
- Heights relative to floors or relative to ground.
- 0 = Heights relative to ground
- 1 = Heights relative to floors
- 2 = Heights relative to roofs
- 3 = Heights relative to lowest roof
- 4 = Heights relative to highest roof
- 5 = Heights relative to urban height
- FloorSelection
-
- int WinProp_ParaHybrid::FloorSelection
- Parameter to select results from which floor to copy to the urban results
- -1 = Do not copy CNP results to urban results
- 0 = Copy lowest floor to urban results
- 1 = Copy highest floor to urban results
- DiffractionModel
-
- int WinProp_ParaHybrid::DiffractionModel
- Diffraction mode for Indoor IRT in CNP mode.
- 0 = Fresnel coefficients for reflection and transmission, and GTD/UTD for diffraction
- 1 = Empirical losses for reflection, transmission and diffraction.
- IRTInteractionsMaxTotal
-
- int WinProp_ParaHybrid::IRTInteractionsMaxTotal
- Max. number of interactions in one ray for indoor IRT in CNP mode.
- IRTInteractionsMaxReflections
-
- int WinProp_ParaHybrid::IRTInteractionsMaxReflections
- Max. number of reflections in one ray for indoor IRT in CNP mode.
- IRTInteractionsMaxDiffractions
-
- int WinProp_ParaHybrid::IRTInteractionsMaxDiffractions
- Max. number of diffractions in one ray for indoor IRT in CNP mode.
- IRTInteractionsMaxTransmissions
-
- int WinProp_ParaHybrid::IRTInteractionsMaxTransmissions
- Max. number of transmissions in one ray for indoor IRT in CNP mode.
- TransmissionLoss
-
- float WinProp_ParaHybrid::TransmissionLoss
- Transmission loss (dB) of the default material for empirical interaction model. Only relevant if MaterialsIndividual = default materials
- ReflectionLoss
-
- float WinProp_ParaHybrid::ReflectionLoss
- Reflection loss (dB) of the default material for empirical interaction model. Only relevant if MaterialsIndividual = default materials
- DiffractionLossInMin
-
- float WinProp_ParaHybrid::DiffractionLossInMin
- Min. diffraction loss (dB) of incident rays of the default material for empirical interaction model. Only relevant if MaterialsIndividual = default materials
- DiffractionLossInMax
-
- float WinProp_ParaHybrid::DiffractionLossInMax
- Max. diffraction loss (dB) of incident rays of the default material for empirical interaction model. Only relevant if MaterialsIndividual = default materials
- DiffractionLossOut
-
- float WinProp_ParaHybrid::DiffractionLossOut
- Diffraction loss (dB) of diffracted rays of the default material for empirical interaction model. Only relevant if MaterialsIndividual = default materials
- Epsilon
-
- float WinProp_ParaHybrid::Epsilon
- Dielectricity (relative value) of the default material for Fresnel and GTD/UTD interaction model. Only relevant if MaterialsIndividual = default materials
- Mu
-
- float WinProp_ParaHybrid::Mu
- Permeability (relative value) of the default material for Fresnel and GTD/UTD interaction model. Only relevant if MaterialsIndividual = default materials
- Sigma
-
- float WinProp_ParaHybrid::Sigma
- Conductivity (S/m) of the default material for Fresnel and GTD/UTD interaction model. Only relevant if MaterialsIndividual = default materials
The documentation was generated from the following file:
- source.eng/Interface/WP_ParaUrban.h