Chapter 7   Induction motors  207


                 motor control techniques are continually evolving, recent work has incorporated a range
                 of approaches including expert systems, neural networks and fuzzy logic as discussed by
                 Chan and Shi (2011). These approaches enhance the performance of the induction
                 motor in many areas including servo applications.


                 References

                 Bose, B.K., 2006. Power Electronics and Motor Drives - Advances and Trends. Elsevier Science &
                   Technology, Burlington, MA, USA.
                 Chan, T., Shi, K., 2011. Applied intelligent control of induction motor drives. Wiley-Blackwell, Oxford,
                   UK.
                 Crowder, R.M., Smith, G.A., 1979. Induction motors for crane applications. IEE Journal of Electric Power
                   Applications 2 (6), 194e198.
                 Holtz, J., 2002. Sensorless control of induction motor drives. In: Proceedings of the IEEE, pp. 1359e1394.
                 Sen, P.C., 1989. Principles of Electric Machines and Power Electronics. John Wiley, New York.
                 Sunter, S., Clare, J., 1996. A true four quadrent matrix converter induction motor drive with servo
                   performance. IEEE Transactions on Industrial Electronics 146e151.
                 Tripathi, S.M., Vaish, R., 2019. Taxonomic research survey on vector controlled induction motor drives.
                   in IET Power Electronics 12 (7), 1603e1615. https://doi.org/10.1049/iet-pel.2018.5216.
                 Wheeler, P., et al., 2002. Matric conveters: a technology review. IEEE Transactions on Industrial
                   Electronics 49 (2), 176e288.
                 Zhang, J., Li, L., Dorrell, D.G., 2018. Control and applications of direct matrix converters : a review.
                   Chinese Journal of Electrical Engineering 4 (2), 18e27.