Click or drag to resize

SyntheticApertureRadarVolume Class

A sensor volume defined by inner and outer half angles, fore and aft exclusion angles, and a radial range limit. The outer half angle defines the outer boundary of the volume, and the other half angles define exclusion boundaries for the sensor volume.
Inheritance Hierarchy

Namespace:  AGI.Foundation.Geometry.Shapes
Assembly:  AGI.Foundation.Core (in AGI.Foundation.Core.dll) Version: 19.5.402.0 (19.5.402.0)
Syntax
public class SyntheticApertureRadarVolume : SensorFieldOfView

The SyntheticApertureRadarVolume type exposes the following members.

Constructors
  NameDescription
Public methodSyntheticApertureRadarVolume
Constructs a sensor volume with a default definition, in which the InnerHalfAngle has a value of one-fourth pi radians, the OuterHalfAngle has a value of HalfPi radians, the ForeHalfAngle and AftHalfAngle are both equal to zero, and the radius is equal to positive infinity.
Public methodSyntheticApertureRadarVolume(Double, Double, Double, Double)
Constructs a volume of infinite radius with the provided parameters.
Public methodSyntheticApertureRadarVolume(Double, Double, Double, Double, Double)
Constructs a volume of limited radius with the provided parameters.
Top
Properties
  NameDescription
Public propertyAftHalfAngle
Gets or sets the aft half angle defining the conical volume of exclusion about the negative x-axis.
Public propertyForeHalfAngle
Gets or sets the fore half angle defining the conical volume of exclusion about the positive x-axis.
Public propertyInnerHalfAngle
Gets the inner half angle used to define the interior conical volume of exclusion.
Public propertyIsConnected
Gets a value indicating whether the figure is connected.
(Overrides FigureIsConnected.)
Public propertyOuterHalfAngle
Gets the outer half angle used to define the exterior conical boundary of the volume.
Public propertyRadius
Gets or sets the radial limit of the volume. This is the maximum range at which the sensor can detect a target.
(Inherited from SensorFieldOfView.)
Top
Methods
  NameDescription
Public methodEncloses
Indicates if the provided point is inside the volume.
(Overrides SolidEncloses(Cartesian).)
Public methodEquals
Determines whether the specified object is equal to the current object.
(Inherited from Object.)
Protected methodFinalize
Allows an object to try to free resources and perform other cleanup operations before it is reclaimed by garbage collection.
(Inherited from Object.)
Public methodGetEnclosureDescriptions
Gets the list of descriptions for the enclosure functions for this solid.
(Overrides SolidGetEnclosureDescriptions.)
Public methodGetHashCode
Serves as the default hash function.
(Inherited from Object.)
Public methodGetProjection(Ellipsoid, KinematicTransformation)
Gets the projection of the sensor onto the front surface of a specified ellipsoid and into space.
(Inherited from SensorFieldOfView.)
Public methodGetProjection(Ellipsoid, KinematicTransformation, SensorProjectionOptions)
Gets the projection of the sensor onto the front surface of a specified ellipsoid and onto a plane at a specified distance in space.
(Overrides SensorFieldOfViewGetProjection(Ellipsoid, KinematicTransformation, SensorProjectionOptions).)
Public methodGetService
Gets the service object of the specified type.
(Inherited from SensorFieldOfView.)
Public methodGetType
Gets the Type of the current instance.
(Inherited from Object.)
Protected methodMemberwiseClone
Creates a shallow copy of the current Object.
(Inherited from Object.)
Protected methodOnRadiusChanged
Called after the Radius property changes.
(Overrides SensorFieldOfViewOnRadiusChanged.)
Public methodSetInnerOuterHalfAngles
Sets the inner and outer half angles of a sensor, which define part of the sensor volume.
Public methodToString
Returns a string that represents the current object.
(Inherited from Object.)
Top
Remarks

As depicted in the figure below, the vertex of the volume is located at the origin and the sensor principal direction is along the positive z-axis. Half angles measured from the principal direction are used to define the outer boundary of the volume as well as an interior conical volume of exclusion. Fore and aft half angles are used to define a conical volumes of exclusion about the positive and negative x-axis, respectively. The range limit measured radially from the origin closes the volume.

See Also