MariniMurrayModel (ORbit Extrapolation KIT 10.2 API)

java.lang.Object
- org.orekit.models.earth.troposphere.MariniMurrayModel

All Implemented Interfaces:

DiscreteTroposphericModel, MappingFunction
```
public class MariniMurrayModel
extends Object
implements DiscreteTroposphericModel
```
The Marini-Murray tropospheric delay model for laser ranging.

Author:

Joris Olympio

See Also:

"Marini, J.W., and C.W. Murray, correction of Laser Range Tracking Data for Atmospheric Refraction at Elevations Above 10 degrees, X-591-73-351, NASA GSFC, 1973"

Constructor Summary

Constructors
Constructor and Description
`MariniMurrayModel(double t0, double p0, double rh, double latitude, double lambda)` Create a new Marini-Murray model for the troposphere using the given environmental conditions.

Method Summary

All Methods Static Methods Instance Methods Concrete Methods
Modifier and Type	Method and Description
`double[]`	`computeZenithDelay(double height, double[] parameters, AbsoluteDate date)` This method allows the computation of the zenith hydrostatic and zenith wet delay.
`<T extends RealFieldElement<T>> T[]`	`computeZenithDelay(T height, T[] parameters, FieldAbsoluteDate<T> date)` This method allows the computation of the zenith hydrostatic and zenith wet delay.
`List<ParameterDriver>`	`getParametersDrivers()` Get the drivers for tropospheric model parameters.
`static MariniMurrayModel`	`getStandardModel(double latitude, double lambda)` Create a new Marini-Murray model using a standard atmosphere model.
`double[]`	`mappingFactors(double elevation, double height, double[] parameters, AbsoluteDate date)` This method allows the computation of the hydrostatic and wet mapping functions.
`<T extends RealFieldElement<T>> T[]`	`mappingFactors(T elevation, T height, T[] parameters, FieldAbsoluteDate<T> date)` This method allows the computation of the hydrostatic and wet mapping functions.
`double`	`pathDelay(double elevation, double height, double[] parameters, AbsoluteDate date)` Calculates the tropospheric path delay for the signal path from a ground station to a satellite.
`<T extends RealFieldElement<T>> T`	`pathDelay(T elevation, T height, T[] parameters, FieldAbsoluteDate<T> date)` Calculates the tropospheric path delay for the signal path from a ground station to a satellite.

Methods inherited from class java.lang.Object
clone, equals, finalize, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait

Methods inherited from interface org.orekit.models.earth.troposphere.MappingFunction
getParameters, getParameters

- Constructor Detail
  - MariniMurrayModel
```
public MariniMurrayModel(double t0,
                         double p0,
                         double rh,
                         double latitude,
                         double lambda)
```
    Create a new Marini-Murray model for the troposphere using the given environmental conditions.
    
    Parameters:
    
    t0 - the temperature at the station, K
    
    p0 - the atmospheric pressure at the station, mbar
    
    rh - the humidity at the station, percent (50% -> 0.5)
    
    latitude - site latitude
    
    lambda - laser wavelength (c/f), nm
- Method Detail
  - getStandardModel
```
public static MariniMurrayModel getStandardModel(double latitude,
                                                 double lambda)
```
    Create a new Marini-Murray model using a standard atmosphere model.
    - temperature: 20 degree Celsius
    - pressure: 1013.25 mbar
    - humidity: 50%
    Parameters:
    
    latitude - site latitude
    
    lambda - laser wavelength (c/f), nm
    
    Returns:
    
    a Marini-Murray model with standard environmental values
  - pathDelay
```
public double pathDelay(double elevation,
                        double height,
                        double[] parameters,
                        AbsoluteDate date)
```
    Description copied from interface: DiscreteTroposphericModel
    
    Calculates the tropospheric path delay for the signal path from a ground station to a satellite.
    
    Specified by:
    
    pathDelay in interface DiscreteTroposphericModel
    
    Parameters:
    
    elevation - the elevation of the satellite, in radians
    
    height - the height of the station in m above sea level
    
    parameters - tropospheric model parameters.
    
    date - current date
    
    Returns:
    
    the path delay due to the troposphere in m
  - pathDelay
```
public <T extends RealFieldElement<T>> T pathDelay(T elevation,
                                                   T height,
                                                   T[] parameters,
                                                   FieldAbsoluteDate<T> date)
```
    Description copied from interface: DiscreteTroposphericModel
    
    Calculates the tropospheric path delay for the signal path from a ground station to a satellite.
    
    Specified by:
    
    pathDelay in interface DiscreteTroposphericModel
    
    Type Parameters:
    
    T - type of the elements
    
    Parameters:
    
    elevation - the elevation of the satellite, in radians
    
    height - the height of the station in m above sea level
    
    parameters - tropospheric model parameters.
    
    date - current date
    
    Returns:
    
    the path delay due to the troposphere in m
  - computeZenithDelay
```
public double[] computeZenithDelay(double height,
                                   double[] parameters,
                                   AbsoluteDate date)
```
    Description copied from interface: DiscreteTroposphericModel
    This method allows the computation of the zenith hydrostatic and zenith wet delay. The resulting element is an array having the following form:
    - double[0] = D_hz → zenith hydrostatic delay
    - double[1] = D_wz → zenith wet delay
    Specified by:
    
    computeZenithDelay in interface DiscreteTroposphericModel
    
    Parameters:
    
    height - the height of the station in m above sea level.
    
    parameters - tropospheric model parameters.
    
    date - current date
    
    Returns:
    
    a two components array containing the zenith hydrostatic and wet delays.
  - computeZenithDelay
```
public <T extends RealFieldElement<T>> T[] computeZenithDelay(T height,
                                                              T[] parameters,
                                                              FieldAbsoluteDate<T> date)
```
    Description copied from interface: DiscreteTroposphericModel
    This method allows the computation of the zenith hydrostatic and zenith wet delay. The resulting element is an array having the following form:
    - T[0] = D_hz → zenith hydrostatic delay
    - T[1] = D_wz → zenith wet delay
    Specified by:
    
    computeZenithDelay in interface DiscreteTroposphericModel
    
    Type Parameters:
    
    T - type of the elements
    
    Parameters:
    
    height - the height of the station in m above sea level.
    
    parameters - tropospheric model parameters.
    
    date - current date
    
    Returns:
    
    a two components array containing the zenith hydrostatic and wet delays.
  - mappingFactors
```
public double[] mappingFactors(double elevation,
                               double height,
                               double[] parameters,
                               AbsoluteDate date)
```
    Description copied from interface: MappingFunction
    This method allows the computation of the hydrostatic and wet mapping functions. The resulting element is an array having the following form:
    - double[0] = m_h(e) → hydrostatic mapping function
    - double[1] = m_w(e) → wet mapping function
    Specified by:
    
    mappingFactors in interface MappingFunction
    
    Parameters:
    
    elevation - the elevation of the satellite, in radians.
    
    height - the height of the station in m above sea level.
    
    parameters - tropospheric model parameters.
    
    date - current date
    
    Returns:
    
    a two components array containing the hydrostatic and wet mapping functions.
  - mappingFactors
```
public <T extends RealFieldElement<T>> T[] mappingFactors(T elevation,
                                                          T height,
                                                          T[] parameters,
                                                          FieldAbsoluteDate<T> date)
```
    Description copied from interface: MappingFunction
    This method allows the computation of the hydrostatic and wet mapping functions. The resulting element is an array having the following form:
    - T[0] = m_h(e) → hydrostatic mapping function
    - T[1] = m_w(e) → wet mapping function
    Specified by:
    
    mappingFactors in interface MappingFunction
    
    Type Parameters:
    
    T - type of the elements
    
    Parameters:
    
    elevation - the elevation of the satellite, in radians.
    
    height - the height of the station in m above sea level.
    
    parameters - tropospheric model parameters.
    
    date - current date
    
    Returns:
    
    a two components array containing the hydrostatic and wet mapping functions.
  - getParametersDrivers
```
public List<ParameterDriver> getParametersDrivers()
```
    Description copied from interface: MappingFunction
    
    Get the drivers for tropospheric model parameters.
    
    Specified by:
    
    getParametersDrivers in interface MappingFunction
    
    Returns:
    
    drivers for tropospheric model parameters

Class MariniMurrayModel

Constructor Summary

Method Summary

Methods inherited from class java.lang.Object

Methods inherited from interface org.orekit.models.earth.troposphere.MappingFunction

Constructor Detail

MariniMurrayModel

Method Detail

getStandardModel

pathDelay

pathDelay

computeZenithDelay

computeZenithDelay

mappingFactors

mappingFactors

getParametersDrivers