Tag Archives: multi-disciplinary space engineering

Observational Cubesat. 2022 Best

Observational Cubesat.

This paper focuses on observational Cubesat. Learning Outcomes The Module Learning Outcomes are to: · Integrate a wide and mission driven knowledge base of multi-disciplinary space engineering for developing and analyzing space missions (SM1p, SM3p, EP4p)

Observational Cubesat.

1. Learning Outcomes The Module Learning Outcomes are to: · Integrate a wide and mission driven knowledge base of multi-disciplinary space engineering for developing and analyzing space missions (SM1p, SM3p, EP4p) · Conceive, define and evaluate space missions (EA4p) · Use a variety of simulation tools for mission and vehicle design from concept to operation (SM2p, EA3p) · Validate and analyze designs created in the operating space environment and in planetary atmospheres. (EA2p, D3p, ET4p) 2. Background/Context The aim of the project is to provide some experience of designing a mission for outer space.

Observational Cubesat.

Space missions are complicated with many disciplines involved and often rely on the expertise of a large number of engineers and scientists, often across various countries. In this module we look at one experiment as the payload on a CubeSat in Low Earth Orbit using accepted professional system engineering methods, and industry standard technical approaches. The experiment should be the use of a chosen sensor to observe either the ground or the atmosphere. The information gathered should be relayed back to Earth. 3. Requirements You are required to study an aspect of planning an Earth observational mission of a 2U/3U CubeSat from concept to compliance (i.e. end of mission).

Observational Cubesat.

The payload is a sensor. It is recommended to concentrate on the initial parts of the cubesat mission including the orbit and the sensor. In order to map out what is required for this assignment, you are strongly advised to talk with the lecturers supporting this module before you start and to maintain contact during the work. You must decide on the following: · The CubeSat must be 2U or 3U · The equipment used should be “Commercial off the shelf” as much as possible. · The CubeSat is assumed to be launched on a typical commercial rocket. · What your payload is. Depending on what aspect you are taking on to study, aspects to consider are:

Observational Cubesat.

How the Cubesat works and what it needs to function, · What systems and materials your payload is comprised of, · How it is contained in the CubeSat, · For how long your experiment will last, · When the CubeSat will switch on and when it finishes, · What trajectory you want it to take, · How it will be launched, · An estimate of how much it will cost, · How it will be disposed of after its mission is completed in a legal and safe fashion. Also consider whether the following are applicable to your aspect. For example the need to prove the cubesat: · will successfully reach orbit, · will operate successfully and not get too cold or too hot, ·  https://youtu.be/HZMiJ_Q47qk

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