1. An artificial immune system approach to CNC tool path generation
- Author
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H. Selçuk Halkacı, Mehmet Emin Turanalp, and Erkan Ülker
- Subjects
Engineering drawing ,Engineering ,Artificial immune system ,business.industry ,Control engineering ,Interval (mathematics) ,Industrial and Manufacturing Engineering ,Power (physics) ,Machining ,Artificial Intelligence ,Factor (programming language) ,Key (cryptography) ,Numerical control ,business ,computer ,Software ,System software ,computer.programming_language - Abstract
Reduced machining time and increased accuracy for a sculptured surface are both very important when producing complicated parts, so, the step-size and tool-path interval are essential components in high-speed and high-resolution machining. If they are too small, the machining time will increase, whereas if they are too large, rough surfaces will result. In particular, the machining time, which is a key factor in high-speed machining, is affected by the tool-path interval more than the step size. The present paper introduces a ‘system software’ developed to reduce machining time and increased accuracy for a sculptured surface with Non-Uniform Rational B-Spline (NURBS) patches. The system is mainly based on a new and a powerful artificial intelligence (AI) tool, called artificial immune systems (AIS). It is implemented using C programming language on a PC. It can be used as stand alone system or as the integrated module of a CNC machine tool. With the use of AIS, the impact and power of AI techniques have been reflected on the performance of the tool path optimization system. The methodology of the developed tool path optimization system is illustrated with practical examples in this paper.
- Published
- 2008