Special Issue: Intelligent control using deep learning and its application s in Assistive systems



  1. [1] C. Meyer, M. Hling, A. Peterson, et al., Control and design of DC grids for offshore wind farms, IEEE Transactions on Industry Applications, 43(6), 2007, 1475–1482 4
  2. [2] CIGRE B4-52 Working GroupHVDC Grid Feasibility Study (Melbourne: International Council on Large Electric Systems, 2011).
  3. [3] H. Bai, C.C. Mi, and S. Gargies, The short-time-scale transient processes in high-voltage and high-power isolated bidirectional DC–DC converters, IEEE Transactions on Power Electronics, 23(6), 2008, 2648–2656.
  4. [4] R. Parvathy, D. Elizabeth, and C. Muhamed, Analysis of extended-state-observer and active-disturbance-rejectioncontrol in the speed control of DC motor system, Mechatronic Systems and Control, 47(2), 2019, 63–70.
  5. [5] G. Ortiz, D. Bortis, J. W. Kolar, et al., Soft-switching techniques for medium-voltage isolated bidirectional DC/DC converters in solid state transformers, in 38th Annual Conference on IEEE Industrial Electronics Society (IECON), 2012: 5233–5240.
  6. [6] S. Falcones, R. Ayyanar, and X. Mao, A DC-DC multiport converter based solid state transformer integrating distributed generation and storage, IEEE Transactions on Power Electronics, 28(5), 2013, 2192–2203
  7. [7] M. Hagiwara and H. Akagi, Control and experiment of pulsewidth-modulated modular multilevel converters, IEEE Transactions on Power Electronics, 24(7), 2009, 1737–1746.
  8. [8] L. ¨Angquist, A. Antonopoulos, D. Siemaszko, et al., Open-loop control of modular multilevel converters using estimation of stored energy, IEEE Transactions on Industry Applications, 47(6), 2011, 2516–2524.

Important Links:

Go Back