The Demonstration of Using Singularity Theory and Dynamic Singularities
Main Article Content
Abstract
The purpose of this article is to demonstrate the process of using Singularity theory and dynamic singularities to investigate the generic solution behaviour of dynamical systems. The idea of this technique is used to predict all possible solution behavior. It is widely used in many fields such as industry, engineering and research fields. This technique provides the overview solution behavior before doing real experiment. It is safer and less expensive for experimenters. Therefore, this method will be very useful for future research in Royal Thai Air Force. It can be used in many of RTAF research fields such as rocket fuel, explosive, airplane wing, airplane frame.
Article Details
- Content and information in articles published in NKRAFA Journal of Science and Technology are comment and responsibility of authors of articles directly. Journal editorial do no need to agree or share any responsibility.
- NKRAFA Journal of Science and Technology Articles holds the copyright of the content, pictures, images etc. which published in it. If any person or agency require to reuse all or some part of articles, the permission must be obtained from the NKRAFA Journal of Science and Technology.
References
[2] M.Golubitsky and D.Schaeffer. The classification theorem, in Singularities and Groups in Bifurcation Theory, 1st Edition, Vol 1, Chap IV, Springer, Berlin, Germany: 196-202, 1985.
[3] T.Luangwilai, H.S. Sidhu, M.I. Nelson and X.D. Chen. The Semenov Formulation of the Biological Self-Heating Process in Compost Piles, Proceedings of the 9th Biennial Engineering Mathematics and Applications Conference, EMAC-2009, ANZIAM J., 51: C425-C445, 2010.
[4] T.Luangwilai, H.S.Sidhu and M.I.Nelson. Biological self-heating in compost piles: A Semenov formulation, Chemical Engineering Science, 10: 533–542, 2013.
[5] M.I.Nelson, H.S. Sidhu and X.D.Chen. A Spatially Uniform Model of Oxidative Self-Heating in Compost Piles, In proceedings of the 35th Australian Chemical Engineering Conference, CHEMECA 2007: 1673 -1683, 2007.