Ashari, Djoni, Pislaru, Crinela, Ball, Andrew and Gu, Fengshou (2012) Artificial intelligence-based condition monitoring for practical electrical drives. In: Proceedings of The Queen’s Diamond Jubilee Computing and Engineering Annual Researchers’ Conference 2012: CEARC’12. University of Huddersfield, Huddersfield, p. 143. ISBN 978-1-86218-106-9
Abstract

The main types of existing Condition Monitoring methods (MCSA, GA, IAS) for electrical drives are
described. Then the steps for the design of expert systems are presented: problem identification and analysis, system specification, development tool selection, knowledge based, prototyping and testing. The employment of SOMA (Self-Organizing Migrating Algorithm) used for the optimization of ambient
vibration energy harvesting is analyzed. The power electronics devices are becoming smaller in size and consume less power so they are well suited for ambient vibration conversion systems for charging batteries or supplying power directly. The springless resonance mechanism has a mechanical part (mass, spring, damper), an electromagnetic energy converter (coils) and electrical load. SOMA is an artificial intelligence algorithm which is used to find the best combination of independent parameters to
optimize the device and obtain the maximum amount of electrical power. Future research will be done
to improve the quality factor of the model and to use it for a new harvester design for wireless
applications.

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