CPFHeader.java
/* Copyright 2002-2020 CS GROUP
* Licensed to CS GROUP (CS) under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* CS licenses this file to You under the Apache License, Version 2.0
* (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.orekit.files.ilrs;
import org.orekit.frames.Frame;
/**
* Container for Consolidated laser ranging Prediction File (CPF) header.
* <p>
* Note: Only the required fields are present.
* </p>
* @author Bryan Cazabonne
* @since 10.3
*/
public class CPFHeader extends ILRSHeader {
/** Ephemeris source. */
private String source;
/** Sub-daily Ephemeris Sequence number. */
private int subDailySequenceNumber;
/** Time between table entries (UTC). */
private int step;
/** Compatibility with TIVs. */
private boolean isCompatibleWithTIVs;
/** Reference frame. */
private Frame refFrame;
/** Reference frame identifier. */
private int refFrameId;
/** Rotational angle type. */
private int rotationalAngleType;
/** Center of mass correction. */
private boolean isCenterOfMassCorrectionApplied;
/** Pulse Repetition Frequency (PRF) [Hz]. */
private double prf;
/** Transponder transmit delay [s]. */
private double transpTransmitDelay;
/** Transponder UTC offset [s]. */
private double transpUtcOffset;
/** Transponder Oscillator Drift in parts. */
private double transpOscDrift;
/** Transponder Clock Reference Time . */
private double transpClkRef;
/** Approximate center of mass to reflector offset [m]. */
private double centerOfMassOffset;
/**
* Get the ephemeris source.
* @return the ephemeris source
*/
public String getSource() {
return source;
}
/**
* Set the ephemeris source.
* @param source the ephemeris source to set
*/
public void setSource(final String source) {
this.source = source;
}
/**
* Get the sub-daily ephemeris sequence number.
* @return the sub-daily ephemeris sequence number
*/
public int getSubDailySequenceNumber() {
return subDailySequenceNumber;
}
/**
* Set the sub-daily ephemeris sequence number.
* @param subDailySequenceNumber the sub-daily ephemeris sequence number to set
*/
public void setSubDailySequenceNumber(final int subDailySequenceNumber) {
this.subDailySequenceNumber = subDailySequenceNumber;
}
/**
* Get the time between table entries.
* @return the time between table entries in seconds
*/
public int getStep() {
return step;
}
/**
* Set the time between table entries.
* @param step the time to set in seconds
*/
public void setStep(final int step) {
this.step = step;
}
/**
* Get the flag for compatibility with TIVs.
* @return true if compatible with TIVs
*/
public boolean isCompatibleWithTIVs() {
return isCompatibleWithTIVs;
}
/**
* Set the flag for compatibility with TIVs.
* @param isCompatibleWithTIVs true if compatible with TIVs
*/
public void setIsCompatibleWithTIVs(final boolean isCompatibleWithTIVs) {
this.isCompatibleWithTIVs = isCompatibleWithTIVs;
}
/**
* Get the reference frame.
* @return the reference frame
*/
public Frame getRefFrame() {
return refFrame;
}
/**
* Set the reference frame.
* @param refFrame the reference frame to set
*/
public void setRefFrame(final Frame refFrame) {
this.refFrame = refFrame;
}
/**
* Get the reference frame identifier.
* @return the reference frame
*/
public int getRefFrameId() {
return refFrameId;
}
/**
* Set the reference frame identifier.
* @param refFrameId the reference frame identifier to set
*/
public void setRefFrameId(final int refFrameId) {
this.refFrameId = refFrameId;
}
/**
* Get the rotation angle type.
* @return the rotation angle type
*/
public int getRotationalAngleType() {
return rotationalAngleType;
}
/**
* Set the rotation angle type.
* @param rotationalAngleType the rotation angle type to set
*/
public void setRotationalAngleType(final int rotationalAngleType) {
this.rotationalAngleType = rotationalAngleType;
}
/**
* Get the flag telling if the center of mass correction is applied.
* @return true if center of mass correction is applied
*/
public boolean isCenterOfMassCorrectionApplied() {
return isCenterOfMassCorrectionApplied;
}
/**
* Set the flag telling if the center of mass correction is applied.
* @param isCenterOfMassCorrectionApplied true if center of mass correction is applied
*/
public void setIsCenterOfMassCorrectionApplied(final boolean isCenterOfMassCorrectionApplied) {
this.isCenterOfMassCorrectionApplied = isCenterOfMassCorrectionApplied;
}
/**
* Get the Pulse Repetition Frequency (PRF).
* @return the Pulse Repetition Frequency (PRF) in Hz
*/
public double getPrf() {
return prf;
}
/**
* Set the Pulse Repetition Frequency (PRF).
* @param prf the ulse Repetition Frequency (PRF) to set in Hz
*/
public void setPrf(final double prf) {
this.prf = prf;
}
/**
* Get the transponder transmit delay.
* @return the transponder transmit delay in seconds
*/
public double getTranspTransmitDelay() {
return transpTransmitDelay;
}
/**
* Set the transponder transmit delay.
* @param transpTransmitDelay the transponder transmit delay to set in seconds
*/
public void setTranspTransmitDelay(final double transpTransmitDelay) {
this.transpTransmitDelay = transpTransmitDelay;
}
/**
* Get the transponder UTC offset.
* @return the transponder UTC offset in seconds
*/
public double getTranspUtcOffset() {
return transpUtcOffset;
}
/**
* Set the transponder UTC offset.
* @param transpUtcOffset the UTC offset to set in seconds
*/
public void setTranspUtcOffset(final double transpUtcOffset) {
this.transpUtcOffset = transpUtcOffset;
}
/**
* Get the transponder Oscillator Drift in parts in 10^15.
* @return the transponder Oscillator Drift in parts.
*/
public double getTranspOscDrift() {
return transpOscDrift;
}
/**
* Set the transponder Oscillator Drift in parts.
* @param transpOscDrift the transponder Oscillator Drift in parts in 10^15 to set
*/
public void setTranspOscDrift(final double transpOscDrift) {
this.transpOscDrift = transpOscDrift;
}
/**
* Get the transponder Clock Reference Time.
* @return the transponder Clock Reference Time
*/
public double getTranspClkRef() {
return transpClkRef;
}
/**
* Set the transponder Clock Reference Time.
* @param transpClkRef the transponder Clock Reference Time to set
*/
public void setTranspClkRef(final double transpClkRef) {
this.transpClkRef = transpClkRef;
}
/**
* Get the approximate center of mass to reflector offset.
* @return the approximate center of mass to reflector offset in meters
*/
public double getCenterOfMassOffset() {
return centerOfMassOffset;
}
/**
* Set the approximate center of mass to reflector offset.
* @param centerOfMassOffset the offset to set in meters
*/
public void setCenterOfMassOffset(final double centerOfMassOffset) {
this.centerOfMassOffset = centerOfMassOffset;
}
}