Difference between revisions of "Projects:2014S1-57 Autonomous Vehicle Technologies"
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The multi-rotor with four propellers was chosen since it is easier to construct and more stable compared to other types of multi-rotor vehicles. | The multi-rotor with four propellers was chosen since it is easier to construct and more stable compared to other types of multi-rotor vehicles. | ||
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==AV Search Boat== | ==AV Search Boat== | ||
==Rough Terrian Explorer== | ==Rough Terrian Explorer== | ||
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| + | ==Supervisor== | ||
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| + | A/Prof Nesimi Ertugrul | ||
| + | Dr Braden Phillips | ||
Revision as of 11:12, 7 October 2014
Contents
Introduction
The purpose of this project is to produce the practical component of a new engineering course. It will involve students individually designing, building and testing their own autonomous vehicle (AV). This practical will give students the opportunity to develop highly useful and sought after skills, such as CAD design, 3D Printing, Altium designer, PCB prototyping and microprocessor coding. Developing these skills through practice rather then theory will set future students in good stead for their future career.
Objectives
First to prove that this practical is feasible. By providing examples of what we expect future students to achieve.This required us to design and develop our own individual AVs as proof of concept.
Second we produced resources and guides for future students. This is in the form of: documentation, gathering resources, taking notes of our experiences and developing design guidelines and procedures.
Quadcopter
The multi-rotor with four propellers was chosen since it is easier to construct and more stable compared to other types of multi-rotor vehicles.
AV Search Boat
Rough Terrian Explorer
Supervisor
A/Prof Nesimi Ertugrul Dr Braden Phillips
