Project |
Acronym: |
MVSSO |
Name: |
Modeling and Visualization of Complex Objects System 4
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Project status: |
From: 2014-10-01
To: 2015-09-30
(Completed)
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Contract number: |
+385 1 612 99 44 |
Action line: |
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Type (Programme): |
INDUSTRY |
Instrument: |
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Project cost: |
- |
Project funding: |
- |
Project coordinator |
Organisation Name: |
AVL List GmbH - Instrumentation and Test Systems |
Organisation adress: |
Hans-List-Platz 1 (Kleiststrasse 48) A-8020 Graz |
Organisation country: |
Austrija |
Contact person name: |
Stieglbauer Gerald AVL/GRZ |
Contact person email: |
Email |
Croatian partner |
Organisation name: |
Fakultet elektrotehnike i računarstva |
Organisation address: |
Unska 3, 10 000 Zagreb |
Contact person name: |
Željka Mihajlović
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Contact person tel: |
+385 1 612 99 44 |
Contact person fax: |
+385 1 612 96 53 |
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Contact person e-mail: |
Email |
Partners |
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Short description of project |
Implementing collision detection and physical models on industrial devices
This project topic involves researching different algorithms for collision detection which can include bounding volumes based algorithms, space partitioning methods with quad/oct/kd-trees, the GJK algorithm, etc.
The second part of the project would involve implementing a physical model that defines the behavior of colliding objects based on the material the objects are made of, their mass and the movement speed and direction at the time of impact.
A third part consists of implementing a set of controls that allow the user to move objects in the scene which are affected by the implemented physical model.
All the different phases of the project could be implemented in parallel by using already existing methods for the previous stage of the project that are present in the Unity engine. For example for the physical model implementation one could use the collision detection support from unity and for the user controls implementation the whole physical model of Unity could be used directly.
All the implemented methods should be applied on 3D models of two measuring devices used in the automotive industry, the AVL Micro Soot Sensor and the AVL Fuel Exact.
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Short description of the task performed by Croatian partner |
This project topic involves researching different algorithms for collision detection which can include bounding volumes based algorithms, space partitioning methods with quad/oct/kd-trees, the GJK algorithm, etc.
The second part of the project would involve implementing a physical model that defines the behavior of colliding objects based on the material the objects are made of, their mass and the movement speed and direction at the time of impact.
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