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ArduSat is an Arduino based nanosatellite, based on the CubeSat standard. It contains a set of Arduino boards and sensors. It contains a set of Arduino boards and sensors. The general public will be allowed to use these Arduinos and sensors for their own creative purposes while they are in space.
SBUDNIC was launched to test Arduino Nano and other commercial off-the-shelf technology in space, using a simple, open-source design. [2]An ambitious project is the QB50, an international network of 50 CubeSats for multi-point by different universities and other teams, in-situ measurements in the lower thermosphere (90–350 km) and re-entry research.
RSP-01 was Ryman Sat Project's second satellite. It was a 1U CubeSat weighing around 1.3 kg, and was equipped with an arm that could extend up to 10 cm. [4] The CubeSat had three transceivers. [2] The on board computer used Arduino and Raspberry Pi. [5] The project began in 2017, and development was completed by 2020.
This is a non-exhaustive list of Arduino boards and compatible systems. It lists boards in these categories: Released under the official Arduino name; Arduino "shield" compatible; Development-environment compatible; Based on non-Atmel processors; Where different from the Arduino base feature set, compatibility, features, and licensing details ...
PhoneSat 1.0 during high-altitude balloon test. The antenna made from yellow tape measure is deployed.. PhoneSat is an ongoing NASA project of building nanosatellites using unmodified consumer-grade off-the-shelf smartphones and Arduino platform and launching them into Low Earth Orbit.
A SpaceX Falcon 9 rocket carrying a payload of 23 Starlink internet satellites soars into space after launching from Vandenberg Space Force Base earlier this month.
The billionaire's Starlink communications network is facing increasingly stiff challenges to its dominance of high-speed satellite internet, including from a Chinese state-backed rival and another ...
The satellite was an open-source hardware project designed to be cheaply and easily reproduced, using commercial off-the-shelf parts like an Arduino Nano and AA Energizer batteries. [2] [3] [4] The project was financed by Brown's Undergraduate Finance Board, the National Research Council of Italy, and Rhode Island's NASA Space Grant Consortium. [5]