Main differences between V4.10 and V4.9 : Différence entre versions

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* New class DatePolynomialChebyshevFunction representing a Chebyshev polynomial function of date
 
* New class DatePolynomialChebyshevFunction representing a Chebyshev polynomial function of date
 
* The PyramidalField class can now determine whether a field of view is convex and return a complementary field of view, an intersection of a union of fields of view
 
* The PyramidalField class can now determine whether a field of view is convex and return a complementary field of view, an intersection of a union of fields of view
* AbstractCelestialBody, UserCelestialBody and JPLCelestialBody can be built by means of an AttractionModel (instead of a simple GM)
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* AbstractCelestialBody, UserCelestialBody and JPLCelestialBody can be built by means of an AbstractAttractionModel (instead of a simple GM)
 
* A TopocentricFrame can now be created by defining the origin of the frame with a Vector3D and its zenith
 
* A TopocentricFrame can now be created by defining the origin of the frame with a Vector3D and its zenith
 
* New class CelestialBodyFrame representing a frame centered on a central body
 
* New class CelestialBodyFrame representing a frame centered on a central body

Version actuelle en date du 15 novembre 2022 à 09:12

PATRIUS V4.10 is a major release adding some new features and correcting some bugs. PATRIUS is now a single-module project.

New functionalities

  • Ionospheric and tropospheric correction models can now describe derivable parameters
  • New class PVEphemeris describing tabulated ephemerides
  • PVCoordinatesProvider is now serializable
  • New class AberrationCorrection for taking into account the light-time aberration correction, the stellar one (new class StellarAberration), both of them or none of them
  • New class DatePolynomialChebyshevFunction representing a Chebyshev polynomial function of date
  • The PyramidalField class can now determine whether a field of view is convex and return a complementary field of view, an intersection of a union of fields of view
  • AbstractCelestialBody, UserCelestialBody and JPLCelestialBody can be built by means of an AbstractAttractionModel (instead of a simple GM)
  • A TopocentricFrame can now be created by defining the origin of the frame with a Vector3D and its zenith
  • New class CelestialBodyFrame representing a frame centered on a central body
  • New interfaces CelestialBodyEphemeris and CelestialBodyEphemerisLoader to decouple the ephemeris part from the attached body one

Bugs fixes

  • The methods of the class Line take now correctly into account the concept of minimum abscissa
  • VisibilityFromStationDetector take now correctly into account the masking by celestial bodies
  • ExtremaElevationDetector take now correctly into account the signal propagation
  • StationToSatMutualVisibilityDetector and SatToSatMutualVisibilityDetector take now correctly into account the direction of the signal propagation