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Cambridge Rocketry Simulator V3.0

Cambridge Rocketry Simulator V3.0
Cambridge Rocketry Simulator V3.0
The third version of the Cambridge Rocketry Simulator consists of three parts to simulating a high power rocket flight. First the user is able to build a rocket from basic components using a GUI. Second, a verified and reviewed physics model simulates the rocket flight, this includes a Monte Carlo wrapper to quantify the uncertainty in dynamics and atmosphere. Finally, the visualization of the resulting trajectories includes nominal performance and uncertainty analysis, e.g. a splash-down region with confidence bounds. The project is available on SourceForge, and is written in Java (GUI), C++ (simulation core) and Python (visualization). While all parts can be executed from the GUI, the three components share information via XML, accommodating modifications, and re-use of individual components. The software can used to simulate the flight of unguided rockets, with both design and operational applications.
simulator, rocket, stochastic
Zenodo
Box, Simon
2bc3f3c9-514a-41b8-bd55-a8b34fd11113
Eerland, Willem
7f5826c3-536f-4fdc-955e-0f9870c96a0e
Box, Simon
2bc3f3c9-514a-41b8-bd55-a8b34fd11113
Eerland, Willem
7f5826c3-536f-4fdc-955e-0f9870c96a0e

Box, Simon and Eerland, Willem (2016) Cambridge Rocketry Simulator V3.0. Zenodo doi:10.5281/zenodo.55210 [Dataset]

Record type: Dataset

Abstract

The third version of the Cambridge Rocketry Simulator consists of three parts to simulating a high power rocket flight. First the user is able to build a rocket from basic components using a GUI. Second, a verified and reviewed physics model simulates the rocket flight, this includes a Monte Carlo wrapper to quantify the uncertainty in dynamics and atmosphere. Finally, the visualization of the resulting trajectories includes nominal performance and uncertainty analysis, e.g. a splash-down region with confidence bounds. The project is available on SourceForge, and is written in Java (GUI), C++ (simulation core) and Python (visualization). While all parts can be executed from the GUI, the three components share information via XML, accommodating modifications, and re-use of individual components. The software can used to simulate the flight of unguided rockets, with both design and operational applications.

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More information

Published date: 2016
Related URLs:
Keywords: simulator, rocket, stochastic

Identifiers

Local EPrints ID: 457909
URI: http://eprints.soton.ac.uk/id/eprint/457909
DOI: doi:10.5281/zenodo.55210
PURE UUID: cf0dc25c-e6f4-4586-87d6-e40cafa30684
ORCID for Willem Eerland: ORCID iD orcid.org/0000-0002-4559-6122

Catalogue record

Date deposited: 21 Jun 2022 18:21
Last modified: 05 May 2023 15:22

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Contributors

Creator: Simon Box
Creator: Willem Eerland ORCID iD

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