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@CarletonURocketry

CU InSpace

Carleton University's rocket design team.

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We are CUInSpace, Carleton University's rocket engineering design team. We are a team of students dedicated to designing, building and flying high-powered rockets.

The team was founded by Will Zoratto in 2014 and has successfully launched several rockets at the Spaceport America Cup Rocketry Competition at Spaceport America, New Mexico.

Teams

Avionics

Python C React Javascript HTML CSS Altium QNX

The avionics team is responsible for designing and manufacturing the telemetry systems of the rocket. These systems collect information about our elevation and speed and control the deployment of our recovery system. The avionics team is also responsible for tracking our rocket on the descent so that we can find it once it has landed.

Repositories:

Aerostructures

The Aerostructures team is responsible for designing, manufacturing, and testing the air frame and structural components of the rocket. This includes the body tubes, the fins, the nosecone, and the internal structure that keeps the rocket as stable as possible during launch. Our aerostructures team works initially with CAD software to develop the design and then moves into composites manufacturing and metal machining work. Finally, the team uses both physical testing and modelling to determine whether the components they have designed will survive the launch and landing.

Payload

The payload team designs and tests satellite hardware to be released from the rocket, including structures, computers, navigation, power generation, thermal control, optics, communication, sensors, attitude control systems, and a scientific payload.

Most of our development focuses on recreating spacecraft-grade satellite systems at low cost.

Recovery

The recovery team designs and tests the parachutes, release mechanisms, and tethers for the rocket. The system consists of a small drogue parachute for controlled descent from apogee to approximately 1500 feet above ground level, and a main parachute for a soft landing.

Propulsion

Python C++

The propulsion sub team is responsible for the selection and handling of the rocket’s motor for competition and the development of propulsion systems for future flights.

The team flies Cesaroni Technologies solid motors at their competitions in both the 10,000 ft and 30,000 ft class. Concurrently, a paraffin-nitrous hybrid is being developed as a part of a multi-year SRAD project.

Repositories:

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  1. avionics-hardware avionics-hardware Public

    CU InSpace's avionics hardware.

    HTML 5 3

  2. ground-station ground-station Public

    The ground station software used to interface with the ground station LoRa board and distribute signals from the rocket across websocket connections.

    Python 7 6

  3. ground-station-ui ground-station-ui Public

    The ground control system UI for the CUInSpace rocket.

    TypeScript 8 10

  4. Propulsion-Test-Stand Propulsion-Test-Stand Public

    Propulsion's Test Stand Arduino Code

    Python 1

Repositories

Showing 10 of 30 repositories
  • avionics-design-2024-2025 Public

    Design document covering the 2024-2025 avionics systems design

    CarletonURocketry/avionics-design-2024-2025’s past year of commit activity
    TeX 3 0 0 0 Updated Nov 15, 2024
  • hybrid-engine-ui Public

    The user interface for the hybrid engine ground system

    CarletonURocketry/hybrid-engine-ui’s past year of commit activity
    Python 1 2 5 (5 issues need help) 4 Updated Nov 15, 2024
  • nuttx Public Forked from apache/nuttx

    CU InSpace fork of the Apache NuttX RTOS

    CarletonURocketry/nuttx’s past year of commit activity
    C 0 Apache-2.0 1,181 0 3 Updated Nov 15, 2024
  • telemetry-format Public

    The specification for CUInSpace's telemetry data format.

    CarletonURocketry/telemetry-format’s past year of commit activity
    TeX 1 MIT 1 2 0 Updated Nov 13, 2024
  • inspace-nxtelem Public

    Telemetry system application code for NuttX.

    CarletonURocketry/inspace-nxtelem’s past year of commit activity
    C 0 MIT 0 1 3 Updated Nov 13, 2024
  • hysim Public

    A simulation of the hybrid control system which can be run on POSIX platforms.

    CarletonURocketry/hysim’s past year of commit activity
    C 2 1 8 0 Updated Nov 12, 2024
  • ground-station-complete Public

    The repository containing the complete CUInSpace ground station stack

    CarletonURocketry/ground-station-complete’s past year of commit activity
    Dockerfile 0 0 1 0 Updated Nov 9, 2024
  • ground-station Public

    The ground station software used to interface with the ground station LoRa board and distribute signals from the rocket across websocket connections.

    CarletonURocketry/ground-station’s past year of commit activity
    Python 7 MIT 6 8 (1 issue needs help) 0 Updated Nov 6, 2024
  • hybrid-comm-format Public

    This repository contains the specification for the communication encoding for the hybrid ground control systems.

    CarletonURocketry/hybrid-comm-format’s past year of commit activity
    TeX 0 MIT 0 2 0 Updated Nov 5, 2024
  • ground-station-ui Public

    The ground control system UI for the CUInSpace rocket.

    CarletonURocketry/ground-station-ui’s past year of commit activity
    TypeScript 8 10 8 0 Updated Sep 24, 2024

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