diff --git a/src/main/java/org/orekit/models/earth/GlobalPressureTemperature2Model.java b/src/main/java/org/orekit/models/earth/GlobalPressureTemperature2Model.java
index 12f5dba8bee358cec0dddadb0cd542092fc3d1a2..1388871820fb466c6a693ede0d806bce69ee45ae 100644
--- a/src/main/java/org/orekit/models/earth/GlobalPressureTemperature2Model.java
+++ b/src/main/java/org/orekit/models/earth/GlobalPressureTemperature2Model.java
@@ -89,10 +89,10 @@ public class GlobalPressureTemperature2Model implements DataLoader, WeatherModel
/** The hydrostatic and wet a coefficients loaded. */
private double[] coefficientsA;
- /** Geodetic site latitude, degrees.*/
+ /** Geodetic site latitude, radians.*/
private double latitude;
- /** Geodetic site longitude, degrees.*/
+ /** Geodetic site longitude, radians.*/
private double longitude;
/** Temperature site, in kelvins. */
@@ -115,8 +115,8 @@ public class GlobalPressureTemperature2Model implements DataLoader, WeatherModel
/** Constructor with supported names given by user.
* @param supportedNames supported names
- * @param latitude geodetic latitude of the station, in degrees
- * @param longitude longitude geodetic latitude of the station, in degrees
+ * @param latitude geodetic latitude of the station, in radians
+ * @param longitude longitude geodetic latitude of the station, in radians
* @param geoid level surface of the gravity potential of a body
*/
public GlobalPressureTemperature2Model(final String supportedNames, final double latitude,
@@ -129,14 +129,13 @@ public class GlobalPressureTemperature2Model implements DataLoader, WeatherModel
this.geoid = geoid;
this.latitude = latitude;
- // Normalize longitude between 0° and 360°
- final double lon = MathUtils.normalizeAngle(FastMath.toRadians(longitude), FastMath.PI);
- this.longitude = FastMath.toDegrees(lon);
+ // Normalize longitude between 0 and 2π
+ this.longitude = MathUtils.normalizeAngle(longitude, FastMath.PI);
}
/** Constructor with default supported names.
- * @param latitude geodetic latitude of the station, in degrees
- * @param longitude geodetic latitude of the station, in degrees
+ * @param latitude geodetic latitude of the station, in radians
+ * @param longitude geodetic latitude of the station, in radians
* @param geoid level surface of the gravity potential of a body
*/
public GlobalPressureTemperature2Model(final double latitude, final double longitude, final Geoid geoid) {
@@ -307,30 +306,34 @@ public class GlobalPressureTemperature2Model implements DataLoader, WeatherModel
final BilinearInterpolatingFunction functionAH = new BilinearInterpolatingFunction(xVal, yVal, fvalAH);
final BilinearInterpolatingFunction functionAW = new BilinearInterpolatingFunction(xVal, yVal, fvalAW);
+ // Convert geodetic coordinates to degrees
+ final double lat = FastMath.toDegrees(latitude);
+ final double lon = FastMath.toDegrees(longitude);
+
// ah and aw coefficients
coefficientsA = new double[2];
- coefficientsA[0] = functionAH.value(latitude, longitude) * 0.001;
- coefficientsA[1] = functionAW.value(latitude, longitude) * 0.001;
+ coefficientsA[0] = functionAH.value(lat, lon) * 0.001;
+ coefficientsA[1] = functionAW.value(lat, lon) * 0.001;
// Corrected height (can be negative)
- final double undu = geoid.getUndulation(latitude, longitude, date);
- final double correctedheight = height - undu - functionHS.value(latitude, longitude);
+ final double undu = geoid.getUndulation(lat, lon, date);
+ final double correctedheight = height - undu - functionHS.value(lat, lon);
// Temperature gradient [K/m]
- final double dTdH = functiondT.value(latitude, longitude) * 0.001;
+ final double dTdH = functiondT.value(lat, lon) * 0.001;
// Specific humidity
- final double qv = functionqv0.value(latitude, longitude) * 0.001;
+ final double qv = functionqv0.value(lat, lon) * 0.001;
// For the computation of the temperature and the pressure, we use
// the standard ICAO atmosphere formulas.
// Temperature [K]
- final double t0 = functionTemperature0.value(latitude, longitude);
+ final double t0 = functionTemperature0.value(lat, lon);
this.temperature = t0 + dTdH * correctedheight;
// Pressure [hPa]
- final double p0 = functionPressure0.value(latitude, longitude);
+ final double p0 = functionPressure0.value(lat, lon);
final double exponent = G / (dTdH * R);
this.pressure = p0 * FastMath.pow(1 - (dTdH / t0) * correctedheight, exponent) * 0.01;
diff --git a/src/test/java/org/orekit/models/earth/GlobalPressureTemperature2ModelTest.java b/src/test/java/org/orekit/models/earth/GlobalPressureTemperature2ModelTest.java
index d570997d727daf286f2cae83bd27772676699e5b..9faf63756697d32f07b8d01b3bffa290a2dbc7dd 100644
--- a/src/test/java/org/orekit/models/earth/GlobalPressureTemperature2ModelTest.java
+++ b/src/test/java/org/orekit/models/earth/GlobalPressureTemperature2ModelTest.java
@@ -16,6 +16,7 @@
*/
package org.orekit.models.earth;
+import org.hipparchus.util.FastMath;
import org.junit.Assert;
import org.junit.Before;
import org.junit.Test;
@@ -58,8 +59,8 @@ public class GlobalPressureTemperature2ModelTest {
// We test the fiability of our implementation by comparing our output values with
// the ones obtained by the Vienna University.
- final double latitude = 48.20;
- final double longitude = 16.37;
+ final double latitude = FastMath.toRadians(48.20);
+ final double longitude = FastMath.toRadians(16.37);
final double height = 156.0;
final AbsoluteDate date = AbsoluteDate.createMJDDate(56141, 0.0, TimeScalesFactory.getUTC());
final Geoid geoid = new Geoid(GravityFieldFactory.getNormalizedProvider(12, 12),
@@ -90,7 +91,7 @@ public class GlobalPressureTemperature2ModelTest {
ReferenceEllipsoid.getWgs84(FramesFactory.getITRF(IERSConventions.IERS_2010, true)));
final AbsoluteDate date = AbsoluteDate.createMJDDate(56141, 0.0, TimeScalesFactory.getUTC());
- final double latitude = 45.0;
+ final double latitude = FastMath.toRadians(45.0);
final double height = 0.0;
double longitude1;
@@ -100,8 +101,8 @@ public class GlobalPressureTemperature2ModelTest {
GlobalPressureTemperature2Model model2;
// Test longitude = 181° and longitude = -179°
- longitude1 = 181.0;
- longitude2 = -179.0;
+ longitude1 = FastMath.toRadians(181.0);
+ longitude2 = FastMath.toRadians(-179.0);
model1 = new GlobalPressureTemperature2Model(latitude, longitude1, geoid);
model2 = new GlobalPressureTemperature2Model(latitude, longitude2, geoid);
@@ -117,8 +118,8 @@ public class GlobalPressureTemperature2ModelTest {
Assert.assertEquals(model1.getA()[1], model2.getA()[1], epsilon);
// Test longitude = 180° and longitude = -180°
- longitude1 = 180.0;
- longitude2 = -180.0;
+ longitude1 = FastMath.toRadians(180.0);
+ longitude2 = FastMath.toRadians(-180.0);
model1 = new GlobalPressureTemperature2Model(latitude, longitude1, geoid);
model2 = new GlobalPressureTemperature2Model(latitude, longitude2, geoid);
@@ -133,8 +134,8 @@ public class GlobalPressureTemperature2ModelTest {
Assert.assertEquals(model1.getA()[1], model2.getA()[1], epsilon);
// Test longitude = 0° and longitude = 360°
- longitude1 = 0.0;
- longitude2 = 360.0;
+ longitude1 = FastMath.toRadians(0.0);
+ longitude2 = FastMath.toRadians(360.0);
model1 = new GlobalPressureTemperature2Model(latitude, longitude1, geoid);
model2 = new GlobalPressureTemperature2Model(latitude, longitude2, geoid);
@@ -153,8 +154,8 @@ public class GlobalPressureTemperature2ModelTest {
@Test
public void testCorruptedFileBadData() {
- final double latitude = 14.0;
- final double longitude = 67.5;
+ final double latitude = FastMath.toRadians(14.0);
+ final double longitude = FastMath.toRadians(67.5);
final double height = 0.0;
// Date is not used here