Results for "orbit-propagators"

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23 skills found

JuliaSpace / SatelliteToolbox.jl

309

A toolbox for satellite analysis written in julia language.

universal

juliaorbitorbit-propagators+2

Updated 3d ago

satellogic / Orbit Predictor

149

Python library to propagate satellite orbits.

universal

ham-radioorbitssatellites+2

Updated 1d ago

spel-uchile / Pypredict

Real-time satellite tracker and orbit propagator

universal

celestrakcubesatfemto-satellites+11

Updated 1mo ago

thkruz / Ootk

🛰️Orbital Object Toolkit including Multiple Propagators, Initial Orbit Determination, and Maneuver Calculations.

universal

iodmaneuversorbit+6

Updated 13d ago

PRBEM / IRBEM

IRBEM-LIB provides routines to compute magnetic coordinates for any location in the Earth's magnetic field, to perform coordinate conversions, to evaluate geophysics/space-physics models, and to propagate orbits in time.

universal

Updated 28d ago

esa / Cascade

Propagate the evolution of large number of orbiting objects while detecting reliably conjunctions and collisions.

universal

debrisnbodynbody-simulation+1

Updated 16d ago

wyolum / Orbigator

Analog orbit propagator.

universal

Updated 8h ago

oygx210 / SatelliteOrbitPropagatorAndMissionPlan

This project can use SGP4 and HPOP models to propagate the satellite orbit and make mission schedules for the payload, such as camera, SAR and data transmitter.

universal

Updated 6mo ago

Coorbital-Inc / Pumpkyn

Pumpkyn is an open-source MATLAB toolbox for designing, propagating, and analyzing tulip-shaped orbits in the Circular Restricted Three-Body Problem. Includes utilities for continuation, stability, station-keeping ΔV, manifolds, GDOP, and cislunar mission design.

universal

Updated 9d ago

AleksanderLidtke / NumercialOrbitalPropagator

A numerical orbital propagator written in Python.

universal

Updated 1y ago

GrahamLoganD / Orbital Mechanics Uncertainty Propagation

Programs for propagating the uncertainty in an Earth-orbiting satellite's state vector.

universal

Updated 1y ago

AbdAlazezAhmed / Oribital Mechanics Matlab

Some Orbital Mechanics Matlab Codes. Heavily based on the "Orbital Mechanics for Engineers, Howard D. Curtis" book.

universal

ground-trackmatlaborbit-determination+6

Updated 5mo ago

nsat / Sgp4 Rs

A Rust package for the SGP-4 orbital propagator.

universal

orbit-propagationrustsgp4

Updated 9mo ago

ookuyan / Py2body

Two Body Orbit Propagator [Experimental!]

universal

orbital-animationorbital-dynamicsorbital-mechanics+1

Updated 3y ago

Kojey / MSc Whistler Waves Detector

Lightning strokes create powerful electromagnetic pulses that result in Very Low Frequency (VLF) waves propagating along the magnetic field lines of the earth. Due to the dipole shape of the geomagnetic field, these waves travel upward from the stroke location out through portions of the plasmasphere and back to the Earth’s surface at the field line foot point in the opposite hemisphere. VLF antenna receivers set up at various high and middle latitude locations can detect whistler waves generated by these lightning strokes. The propagation time delay of these waves is dependent on the plasma density along the propagation path. This enables the use of whistler wave observations for characterising the plasmasphere in terms of particle number and energy density. The dynamics of energetic particle populations in the plasmasphere are an important factor in characterising the risk to spacecraft in orbit around Earth. Annual global lightning flash rates are on the order of 45 flash/s [5]. The resulting high occurrence rate of whistler events makes it impossible to identify and characterise them in a reasonable time. Therefore the automatic detection and characterisation of whistlers are valuable to the study of energetic particle dynamics in the plasmasphere and to develop models for operational use. Lichtenberger [1] developed an automatic detector and analyser based on the Appleton-Hartree dispersion relation and experimental models of particle density distribution. Recent advances in artificial neural network-based image processing methods for example, convolutional networks [6] may be able to provide an alternative method for the automatic identification and characterisation of whistler events in broadband VLF spectra. Model development is based on training a neural-network-based model on a large set of spectrograms with whistler events identified by the nodes of the Automatic Whistler Detection and Analysis Network (AWDAnet [7]). Spectrograms will be presented in the form of images (Figure 1.1) to take advantage of the wide range of image-processing techniques available for this type of object identification.