HitchHiking measures LEO satellite network characteristics at scale.

A Webhook for SWARM IoT Satellites

MATLAB framework for Q-band LEO satellite link budget modeling with adaptive coding and modulation (ACM). Includes time-varying propagation and realistic noise modeling.

Open-source satellite constellation management and AI-assisted operations platform. Unified control plane for fleet visualization, pass scheduling, data routing, and intelligent operations assistance.

Python package for characterising potential radio frequency interference (RFI) from Low Earth Orbit (LEO) satellite constellations, like Starlink, in wide-field radio astronomy.

TASA SatNet Pipeline: OASIS→NS-3/SNS3 satellite-ground communication pipeline with TLE integration, multi-constellation support, K8s deployment, and visualization

Study of Accumulated Doppler effect on LoRa symbols for LEO satellite communication

🚀 Automate the conversion of OASIS satellite logs to NS-3 simulations, enabling precise KPI calculations and efficient beam scheduling.

MATLAB-based Ground Resource Management scheduler for LEO satellite tracking

The project explores fundamental concepts in orbital mechanics, antenna dynamics, and PID control, combining these elements to simulate a Low Earth Orbit (LEO) satellite. It is designed for beginners interested in entering the space industry, particularly in the field of satellite communications.

Framework for simulating LEO satellite links with real meteorological data, estimating Q/V-band excess path loss, and forecasting it with an LSTM neural network.