Danilo Nascimento's repositories
ModelRocketComputer
Just an Arduino that records rocket's telemetry with Apogee detection
Active-stabilization-sounding-rocket
"Guidance Navigation and Control" Model Rocket proof of concept
Arduino_AHRS_System
A compact realtime embedded Attitude and Heading Reference System (AHRS) using Recursive Least Squares (RLS) for magnetometer calibration and EKF/UKF for sensor fusion on Arduino platform
BNO055_HAL
BNO055 HAL Library for STM32 Framework.
ejectionChargeCalculator
This calculator is used to calculate the amount of pyrotechnic charge needed to pressurise a container. Used in High Power Rocketry for parachute ejection from the fuselage
GPScoordinatesInterpolation
Convert ellipsoid height to topographic height with a geoid model
LEOdecayCalculator
This repo uses an aproximation of a high altitude atmospherical Model to predict the drag, and thus the decay rate of objects orbiting the earth. For 1st Year of AE at Moscow Aviation Institute (2021)
RaceStrategySimRacing
A python written script/software that builds a race strategy specially designed for endurance simRacing. But can be adapted for real life racing as well as the concept is the same.
ahrs
Attitude and Heading Reference Systems in Python
chapters2videos
Simple yet useful script setup to add custom chapters to your personal videos or downloaded ones...
CubeSatMOIcalculator
This rough calculates the Mass Moment of Inertia of a CubeSat - For 1st Year of AE at MAI (2021)
GroundStationVisibility
This software calculates the visibility of a satellite passing over a ground station. For 1st Year of AE at MAI (2021)
videoDownloader
simple script to download various videos from different sources in one go!
Algorithmic_Languages_and_Programming
1st Year (2021) - Algorithmic Languages and Programming Practical Labs
MAI_NumericalMethods
3rd Year "Numerical Methods" Practical Classes of Moscow Aviation Institute 2023
movieSubsSpammer
Prank your friends with the subtitles of a movie of your choice. Files must be .srt format
R2Home
The goal of the project is to design a system with a size of a tube about 40cm long by 7cm in diameter, which can be released in free fall from almost anywhere, and will automatically deploy a parachute canopy and steer it to a precise GPS point.