Rahmat, Nor Abidah (2005) Swaperlanggaran fabrik menggunakan gabungan pepohonr dan lengkungan. Masters thesis, Universiti Teknologi Malaysia, Faculty of Computer Science and Information System.

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Abstract
In fabric modeling and visual display on computer, selfcollision is a collision process of points on the surface that exist in the fabric model. Selfcollision consists of two phases; firstly is to detect the existence of collision points and secondly is to determine the result whether they are collision or adjacent points. The fabric model is generated using springmass model, which takes into account the elastic and damping forces as the internal forces and the gravity as the external forces when the object is moving. The objective of this research is to generate a selfcollision technique for fabric model by combining the Rtree technique and curvature method. The Rtree method is used to allow only a minimum number of traversing nodes in detecting collision among the potential collision points and the curvature method is used to determine the actual location of the collision points. The research result is the fabric model which has four fixed diagonal in a closed environment without other objects and together with three factors, that are spring constant, mass and damping. The test is conducted to make comparison between the model with selfcollision and the model without selfcollision. These two models are generated to evaluate the effectiveness of selfcollision. Case studies are carried out to determine the limit for the three foregoing factors to avoid penetration. The test result indicates that the maximum value of spring constant, mass and damping is 15.0, 0.005 and 0.95 respectively which causes penetration on the fabric model that leads to the unstable and broken fabric model. The overall result has shown that the generation of the fabric model that incorporates with selfcollision gives a better fabric model visual display.
Item Type:  Thesis (Masters) 

Additional Information:  Thesis (Sarjana Sains (Sains Komputer))  Universiti Teknologi Malaysia, 2005; Supervisor : Assoc. Prof. Daut Daman 
Subjects:  Q Science > QA Mathematics > QA75 Electronic computers. Computer science 
Divisions:  Computer Science and Information System (Formerly known) 
ID Code:  4444 
Deposited By:  Widya Wahid 
Deposited On:  05 Nov 2007 11:46 
Last Modified:  28 Jan 2018 15:31 
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