CircularFieldOfView.java
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package org.orekit.geometry.fov;
import org.hipparchus.geometry.euclidean.threed.Vector3D;
import org.hipparchus.util.FastMath;
import org.hipparchus.util.SinCos;
import org.orekit.propagation.events.VisibilityTrigger;
/** Class representing a spacecraft sensor Field Of View with circular shape.
* <p>The field of view is defined by an axis and an half-aperture angle.</p>
* @author Luc Maisonobe
* @since 10.1
*/
public class CircularFieldOfView extends SmoothFieldOfView {
/** FOV half aperture angle. */
private final double halfAperture;
/** Scaled X axis defining FoV boundary. */
private final Vector3D scaledX;
/** Scaled Y axis defining FoV boundary. */
private final Vector3D scaledY;
/** Scaled Z axis defining FoV boundary. */
private final Vector3D scaledZ;
/** Build a new instance.
* @param center direction of the FOV center, in spacecraft frame
* @param halfAperture FOV half aperture angle
* @param margin angular margin to apply to the zone (if positive,
* the Field Of View will consider points slightly outside of the
* zone are still visible)
*/
public CircularFieldOfView(final Vector3D center, final double halfAperture,
final double margin) {
super(center, center.orthogonal(), margin);
this.halfAperture = halfAperture;
// precompute utility vectors for walking around the FoV
final SinCos sc = FastMath.sinCos(halfAperture);
scaledX = new Vector3D(sc.sin(), getX());
scaledY = new Vector3D(sc.sin(), getY());
scaledZ = new Vector3D(sc.cos(), getZ());
}
/** get the FOV half aperture angle.
* @return FOV half aperture angle
*/
public double getHalfAperture() {
return halfAperture;
}
/** {@inheritDoc} */
@Override
public double offsetFromBoundary(final Vector3D lineOfSight, final double angularRadius,
final VisibilityTrigger trigger) {
return Vector3D.angle(getCenter(), lineOfSight) - halfAperture +
trigger.radiusCorrection(angularRadius) - getMargin();
}
/** {@inheritDoc} */
@Override
public Vector3D projectToBoundary(final Vector3D lineOfSight) {
return directionAt(FastMath.atan2(Vector3D.dotProduct(lineOfSight, getY()),
Vector3D.dotProduct(lineOfSight, getX())));
}
/** {@inheritDoc} */
@Override
protected Vector3D directionAt(final double angle) {
final SinCos sc = FastMath.sinCos(angle);
return new Vector3D(sc.cos(), scaledX, sc.sin(), scaledY, 1.0, scaledZ);
}
}