https://fzmodelrocketry.ca/2021/12/28/how-to-build-a-tvc-rocket-the-flight-computer/
A guided rocket needs a brain. On the model scale, the flight computer has onboard all of the necessary sensors for data collection and guidance, power supply for the motors in the TVC gimbal, and a processor that directs it all. While commercially-available flight controllers for drones exist, they lack the programmability and specific functionality

https://www.youtube.com/watch?v=M87HNwIzG8o
An overview of an STM32 flight computer / avionics PCB I designed!It is capable of stabilising and guiding a model rocket using thrust vector control (TVC).S

https://bps.space/products/signal-r2
Signal R2 TVC Kit. $349.99. Sold out. 4 interest-free installments, or from $31.59/mo with. Check your purchasing power. Sold out. Description. This is Signal. A rocketry flight computer for thrust vectoring, controlling parachutes, data logging, and in-flight emergency aborts.

https://www.instructables.com/Model-Rocket-Flight-Computer-With-Arduino/
What follows is a flight computer is designed to be a low-cost, open-source, multi-purpose avionics and datalogging platform for model rockets. It can be used to log flight data including acceleration and rotation, take simple atmospheric measurements (temperature and pressure), and potentially serve as the basis for an active stability system.

https://www.instructables.com/Advanced-Model-Rocket-Flight-Computer/
Advanced Model Rocket Flight Computer!: I was in need of a high-end model rocket flight computer for my newest rocket that controlled itself without fins! So I built my own! The reason I decided to build this was because I construct TVC (thrust vector control) rockets. This means that the

https://github.com/openrocketryinitiative/carlson
Open-source rocket flight computer: logs IMU data, detects rocket apogee & freefall, provides in-flight stabilization. About Carlson Carlson is a Raspberry Pi Zero based rocket flight computer with an MPU9255 IMU, BMP280 barometer, 1080p video camera, WiFi chip, and 915 MHz telemetry radio.

https://github.com/emrelio/ANV_Flight_Computer_for_TVC_Rockets
Flight computer design for experimental model rocket flights. I design this PCB for TVC of low power rockets. Specs: 3-12V battery input, Reverse battery protection, 3.3V and 5V switching regulators, One main arm switch connector to cut all the power from the board, Magnetic Switch connector for activation,

https://bps.space/products/thrust-vector-control
To build your own model rocket flight computer and software, check out the Landing Model Rockets video series. These files come with cut and drill guides and a full set of instructions for assembly. If you're just getting started with TVC, your first few tests will probably fail - it's just very difficult to get right.

https://www.reddit.com/r/rocketry/comments/14w713r/tvc_compatible_flight_computer_rev_1_description/
This is the first revision of the 300 series of my flight computers. This is the first model compatible with TVC flights. Specifications of the VEGA FC-300 {Rev.1} General Specs: Processors: STM32F103C8T6 {ARM Cortex-M3} Clock Speed: 72MHz {Standard} USB Type: "C" EEPROM: 512kb {I2C}

https://fzmodelrocketry.ca/2022/01/16/tvc-dev-blog-3-the-horizon-flight-computer/
The flight computer is a custom circuit board containing all of the avionics required to guide and control the rocket, as well as outputs to drive the motors in the TVC gimbal. I've already made a post explaining the basics behind model rocket flight computers, which may be referred to for additional information on the general principles

https://github.com/Sahil177/TVC_model_rocket/blob/main/docs/flight_computer.md
The flight computer consists of a Arduino nano, MPU6050 accelerometer, buzzer, LED assmbled onto veroboard. The primary purpose of the flight computer is to take the orientation data of the rocket to correct for tilt by acctuation of the servos which gimbal the rocket motor, a demonstation of this can be seen in the image below where the board

https://www.youtube.com/watch?v=17uBSfbKb18
An overview of the actively stabilised TVC (Thrust Vector Control) rocket I have developed!It is fully 3d printed with an Arduino-based flight computer.Suppo

https://www.reddit.com/r/rocketry/comments/vf5f6l/tvc_flight_computer_prototype_version_2/
This new flight computer still contains the same principal as my last post, thrust vectoring capabilities. Here are the improvements in version 2: - Implementation on prototype board ... A bunch of people have successfully flown TVC rockets at the model scale. The Saturn V had fins just to ensure that if something went horribly wrong, the

https://www.youtube.com/watch?v=oFHARAbEWa4
Update on where I am at on rocket flight software and some of the problem solving behind developing software for TVC rockets. I have been working for a while

https://hackaday.com/2021/09/05/three-stage-thrust-vectoring-rocket/
September 5, 2021. Flying a thrust-vectoring rocket can be a challenge, and even more so if you stack multiple stages and a minimalist flight computer on top of it all. But [Joe Barnard] is not

https://github.com/Curious-Nikhil/Tejas-Rocket-Flight-Computer
TEJAS flight computer is to aid a model rocket with recovery and data logging. It is entirely based on arduino with MPU6050 and BMP280 for orientation and altitude data. The development of TEJAS FC took over 3 months. It was fundamentally designed with no blocking code so as to make it a fault taularent system to some degree.

https://www.hackster.io/news/ava-flight-computer-for-model-rockets-is-beautiful-and-functional-31851993898b
Run by Joe Barnard, the latest BPS.space flight computer is AVA, short for All Vehicle Avionics. AVA's introduction not only informative but also beautifully shot, and worth a watch even if you are not into rockets. For clarity, the BPS.space website explains the distinction between guidance and stability. "The Signal flight computer doesn't

https://www2.eecs.berkeley.edu/Pubs/TechRpts/2016/EECS-2016-17.pdf
than commercial Verilog simulators and can be used to simulate an entire Rocket Chip instance. 3 Rocket Chip Generator The Rocket Chip generator is written in Chisel and constructs a RISC-V-based platform. The generator consists of a collection of parameterized chip-building libraries that we can use to generate di erent SoC variants.

https://www.berkeleyse.org/eureka1
The first liquid bipropellant rocket designed and built by Space Enterprise at Berkeley, Eureka-1 served as a stepping stone towards a space-shot flight. The development of Eureka-1 started in late 2019 and after 3 years, on December 3 2022, EUREKA-1 soared into the California sky from the Friends of Amateur Rocketry site in the Mojave.

https://github.com/tomkuttler/TVC-Rocket-Flight-Code
The state machine is controlling the model rocket based on the current state of the flight. The state machine has four states: LAUNCH_PAD_IDLE: The initialization state where the TVC system is initialized and the rocket is waiting for launch.; ASCENT: The ascent state where the TVC system controls the orientation of the rocket during its powered ascent.

https://www.instagram.com/seb.berkeley/
4,199 Followers, 104 Following, 112 Posts - Space Enterprise at Berkeley (@seb.berkeley) on Instagram: "Aiming to be the first college team to launch a liquid bipropellant rocket to space! Visit link below to join the team!"

https://github.com/trentrand/rocket-flight-computer
Flight computer. The firmware is written with ESP-IDF development framework and ran on an ESP-32 microcontroller. External sensors are connected to collect telemetry data: Telemetry data is serialized into a binary wire format using protocol buffers. Ground control software can log telemetry data broadcasted wirelessly by the flight controller.

https://www.berkeleyse.org/about-us
A rocket team with a dream! Co-founded in October 2016, Space Enterprise at Berkeley is a student run liquid-fuel rocket team dedicated to achieving spaceflight and developing rocket technologies at the University of California, Berkeley. ... in-flight data acquisition, and propulsion. SEB currently holds the UC Berkeley record for speed and