AN EXPERT SYSTEM FOR MOTOR SIZING USING MECHANICAL DYNAMICS AND THERMAL CHARACTERIZATION

Ibrahim M. Gadala, Bing Li, Max Q.-H. Meng, and Clarence W. de Silva

References

  1. [1] C. Fritz and B. MacCleery, Lower Your Energy Bill With Field-Oriented Motor Control (Austin, TX: NI Instrumentation Newsletter, 2009).
  2. [2] W. Voss, A Comprehensible Guide to Servo Motor Sizing (Greenfield, MA: Copper Hill, 2007).
  3. [3] G.A. McCoy, Energy-Efficient Electric Motor Selection Handbook (Washington, DC: U.S. Department of Energy, 1993).
  4. [4] F.O. Karray and C.W. de Silva, Soft Computing and Intelligent Systems Design—Theory, Tools, and Applications (New York, NY: Addison Wesley, 2004).
  5. [5] S. Liao, Expert system methodologies and applications – a decade review from 1995 to 2004, Expert Systems with Applications, 28(1), 2004, 93–103.
  6. [6] C. Grosan and A. Abraham, Rule-Based Expert Systems (Berlin, Heidelberg: Springer, 2011).
  7. [7] R. Ganguli and S. Bandopadhyay, Expert system for equipment selection, International Journal of Mining, Reclamation and Environment, 16(3), 2002, 163–170.
  8. [8] S.M. Sapuan, A knowledge-based system for materials selection in mechanical engineering design, Materials and Design, 22, 2001, 687–695.
  9. [9] D. Agrawal and P.T. Vasudevan, PLASSEX: an expert system for plastics selection, Advances in Polymer Technology, 12(4), 1993, 419–428.
  10. [10] A. Er and R. Dias, A rule-based expert system approach to process selection for cast components, Knowledge-Based Systems, 13, 2000, 225–234.
  11. [11] A.A. Milani and M. Hamedi, A knowledge-based system for selecting fastening tools in automobile assembly lines, Proc. IEEE Int. Conf. on Industrial Technology, Chengdu, China, April 21–24, 2008.
  12. [12] T.I. Liu, J.H. Singonahalli, and N.R. Iyer, Detection of roller bearing defects using expert system and fuzzy logic, Mechanical Systems and Signal Processing, 10(5), 1996, 595–614.
  13. [13] R. Franklin and U.B. Halabe, Knowledge-based assistant for ultrasonic inspection in metals, Proc. of SPIE – The International Society for Optical Engineering, Vol. 3203 (Architectures, Networks, and Intelligent Systems for Manufacturing Integration), 1997, 44–48.
  14. [14] B. Yang, D. Lim, and A. Tan, VIBEX: an expert system for vibration fault diagnosis of rotating machinery using decision tree and decision table, Expert Systems with Applications, 28, 2005, 735–742.
  15. [15] M. Xia, T. Li, L. Xu, L, Liu, and C.W. de Silva, Fault diagnosis for rotating machinery using multiple sensors and convolutional neural networks, IEEE/ASME Transactions on Mechatronics, 23(1), 2018, 101–110.
  16. [16] A. Al-Taani, An expert system for car failure diagnosis, World Academy of Science, Engineering and Technology, 12, 2005, 4–7.
  17. [17] R. Moshage, Application of Expert Systems for Diagnosing Equipment Failures at Central Energy Plants (Champaign, IL: U.S. Army Construction Engineering Research Laboratories (USACERL), 1993).
  18. [18] C. Nan, F. Khan, and M.T. Iqbal, Real-time fault diagnosis using knowledge-based expert system, Process Safety and Environmental Protection, 86, 2008, 55–71.
  19. [19] S.R.H. Hoole, An expert design environment for electrical devices and its engineering assistant, IEEE Transactions on Magnetics, 39(3), 2003, 1693–1696.
  20. [20] B. Abersek, J. Flasker, and J. Balic, Expert system for designing and manufacturing of a gear box, Expert Systems with Applications, 11(3), 1996, 397–405.
  21. [21] J.A. Matelli, E. Bazzo, and C. de Silva, An expert system prototype for designing natural gas cogeneration plants, Expert Systems with Applications, 36, 2009, 8375–8384.
  22. [22] K.M. Sakr and M.U. Hosain, Applications of expert system building tools in structural design, Canadian Journal of Civil Engineering, 18, 1991, 493–503.
  23. [23] J.S. Saggu and A.J. Morris, Design for manufacture: a knowledge-based approach, Proc. of IEEE Second Int’l Conf. on Data and Knowledge Systems for Manufacturing and Engineering, 1990, 198–205.
  24. [24] T.I. Liu, X.M. Yang, and G.J. Kalambur, Design for machining using expert system and fuzzy logic approach, Journal of Materials Engineering and Performance, 4(5), 1995, 599–605.
  25. [25] T.I. Liu and X.M. Yang, Design for quality and reliability using expert system and computer spreadsheet, Journal of the Franklin Institute, 336, 1999, 1063–1074.
  26. [26] S. Kendal and M. Creen, An Introduction to Knowledge Engineering (Berlin, Heidelberg: Springer, 2007).
  27. [27] J. Liebowitz and S.I. Baek, The protocol multimedia expert system, The New Review of Applied Expert Systems, 1, 1996, 3–17.
  28. [28] Panasonic Industrial Solutions Global, 2018, https://na.industrial.panasonic.com/products/electromechanical.
  29. [29] Differential (mechanical device), In Wikipedia, 2011, n.d., http://en.wikipedia.org/wiki/Differential_(mechanical_device).
  30. [30] SKF Group, 2018, http://www.skf.com/group/index.html. 55
  31. [31] C.W. de Silva, SENSORS AND ACTUATORS—Engineering System Instrumentation, 2nd ed. (Boca Raton, FL: Taylor & Francis/CRC Press, 2016).
  32. [32] C.W. de Silva, MODELING OF DYNAMIC SYSTEMS— With Engineering Applications (Boca Raton, FL: Taylor & Francis/CRC Press, 2018).
  33. [33] C.W. de Silva, Mechatronics—A Foundation Course (Boca Raton, FL: Taylor & Francis/CRC Press, 2010).
  34. [34] A.H. Bonnet, Operating temperature considerations and performance characteristics for IEEE 841 Motors, IEEE Transactions on Industry Applications, 37(4), 2001, 1120–1131.

Important Links:

Go Back