Ejemplos de J2Predictor en Python

Ejemplo n.º 1

Archivo: test_numerical_predictor.py Proyecto: MapleZJH/orbit-predictor

    def test_sun_sync_delta_true_anomaly_non_circular(self):
        date = dt.datetime.today().date()
        ltan_h = 12
        expected_ref_epoch = dt.datetime(date.year, date.month, date.day, 12)

        for ta_deg in [-30, 30]:
            pred = J2Predictor.sun_synchronous(alt_km=475,
                                               ecc=0.1455,
                                               date=date,
                                               ltan_h=ltan_h,
                                               ta_deg=ta_deg)

            self.assertEqual(pred._ta, ta_deg)
            self.assertEqual(pred._epoch, expected_ref_epoch)

Ejemplo n.º 2

def test_eclipse_corner_case():
    # See https://github.com/satellogic/orbit-predictor/issues/96
    start = dt.datetime(2020, 9, 1)
    end = dt.datetime(2020, 9, 2)
    pred = J2Predictor.sun_synchronous(
        alt_km=470.0,
        ecc=0.001,
        ltan_h=19,
        ta_deg=0,
        date=start,
    )
    eclipses = list(pred.eclipses_since(when_utc=start, limit_date=end))

    assert len(eclipses) == 16

Ejemplo n.º 3

Archivo: test_numerical_predictor.py Proyecto: genisysram/orbit-predictor

    def test_sun_sync_delta_true_anomaly_has_expected_anomaly_and_epoch(self):
        date = dt.datetime.today().date()
        ltan_h = 12
        expected_ref_epoch = dt.datetime(date.year, date.month, date.day, 12)

        for expected_ta_deg in [-30, 0, 30]:
            pred = J2Predictor.sun_synchronous(alt_km=800,
                                               ecc=0,
                                               date=date,
                                               ltan_h=ltan_h,
                                               ta_deg=expected_ta_deg)

            ta_deg = pred.get_position(
                expected_ref_epoch).osculating_elements[5]
            self.assertAlmostEqual(ta_deg, expected_ta_deg % 360, places=12)

Ejemplo n.º 4

    def test_tca_is_correctly_computed(self):
        start = dt.datetime(2020, 5, 9)
        end = start + dt.timedelta(days=1)
        location = Location(name="loc", latitude_deg=11, longitude_deg=0, elevation_m=0)
        predictor = J2Predictor(
            sma=475 + 6371, ecc=1.65e-3, inc=53.0, argp=90, raan=0, ta=300, epoch=start,
        )
        expected_tca = dt.datetime(2020, 5, 9, 9, 19, 15)

        passes = list(
            predictor.passes_over(
                location,
                start,
                aos_at_dg=0,
                max_elevation_gt=0,
                limit_date=end,
                location_predictor_class=SmartLocationPredictor,
                tolerance_s=1e-3,
            )
        )

        self.assertAlmostEqual(passes[1].max_elevation_date, expected_tca, delta=ONE_SECOND)

Ejemplo n.º 5

def test_benchmark_numeric(benchmark):
    sma = 6780
    ecc = 0.001
    inc = 28.5
    raan = 67.0
    argp = 355.0
    ta = 250.0

    epoch = dt.datetime(2000, 1, 1, 12, 0)

    predictor = J2Predictor(sma, ecc, inc, raan, argp, ta, epoch)

    expected_position = np.array(
        [2085.9287615146, -6009.5713894563, -2357.3802307070])
    expected_velocity = np.array(
        [6.4787522759177, 3.2366136616580, -2.5063420188165])

    when_utc = epoch + dt.timedelta(hours=3)

    position_eci, velocity_eci = benchmark(predictor.propagate_eci,
                                           when_utc=when_utc)

    assert_allclose(position_eci, expected_position, rtol=1e-2)
    assert_allclose(velocity_eci, expected_velocity, rtol=1e-2)

Ejemplo n.º 6

Archivo: test_numerical_predictor.py Proyecto: xingyaozhang1/orbit-predictor

    def test_sun_sync_from_eccentricity_and_inclination(self):
        # Vallado 3rd edition, example 11-2
        expected_sma = 7346.846

        pred = J2Predictor.sun_synchronous(ecc=0.2, inc_deg=98.6)
        self.assertAlmostEqual(pred.get_position().osculating_elements[0], expected_sma, places=1)

Ejemplo n.º 7

Archivo: test_numerical_predictor.py Proyecto: xingyaozhang1/orbit-predictor

    def test_sun_sync_from_altitude_and_inclination(self):
        # Hardcoded from our implementation
        expected_ecc = 0.14546153131334466

        pred = J2Predictor.sun_synchronous(alt_km=475, inc_deg=97)
        self.assertAlmostEqual(pred.get_position().osculating_elements[1], expected_ecc, places=15)

Ejemplo n.º 8

Archivo: test_numerical_predictor.py Proyecto: xingyaozhang1/orbit-predictor

    def test_sun_sync_from_altitude_and_eccentricity(self):
        # Vallado 3rd edition, example 11-2
        expected_inc = 98.6

        pred = J2Predictor.sun_synchronous(alt_km=800, ecc=0)
        self.assertAlmostEqual(pred.get_position().osculating_elements[2], expected_inc, places=2)

Ejemplo n.º 9

Archivo: test_numerical_predictor.py Proyecto: xingyaozhang1/orbit-predictor

def test_is_sun_sync_detects_almost_sun_sync_orbit():
    pred2 = J2Predictor(R_E_KM + 460, 0.001, 97.4, 0, 0, 0, dt.datetime.now())

    assert not is_sun_synchronous(pred2)
    assert is_sun_synchronous(pred2, rtol=1e-1)

Ejemplo n.º 10

Archivo: test_numerical_predictor.py Proyecto: xingyaozhang1/orbit-predictor

def test_is_sun_sync_returns_false_for_non_sun_sync_orbit():
    pred1 = J2Predictor(7000, 0, 0, 0, 0, 0, dt.datetime.now())

    assert not is_sun_synchronous(pred1)

Ejemplo n.º 11

Archivo: test_numerical_predictor.py Proyecto: xingyaozhang1/orbit-predictor

def test_repeated_groundtrack_sma(orbits, days, inc_deg, expected_h):
    pred = J2Predictor.repeating_ground_track(orbits=orbits, days=days, ecc=0.0, inc_deg=inc_deg)

    assert_almost_equal(pred.get_position().osculating_elements[0] - R_E_KM, expected_h, decimal=0)

Ejemplo n.º 12

def non_sun_synchronous():
    return J2Predictor(7000, 0, 42, 0, 0, 0, dt.datetime(2020, 2, 26, 0, 0, 0))