Chuang Shi

Chuang Shi

“I am not an adventurer by choice but by fate.” – Vincent van Gogh

Selected Publications

  1. C. Shi, M. Huang, C. Liu, and H. Li, “Active noise control with selective perceptual equalization to shape the residual sound,” Applied Acoustics, vol. 208, no. 109376, pp. 1-11, June 2023.
  2. H. Guang, Y. Tang, Z. Long, R. Lin, S. Liang, F. Zhu, T. Zhong, Y. Zhang, Y. Fan, Z. Wang, C. Shi, W. Ma, S. Sun, M. Chen, Lili Xing, Y. Zhang, Y. Zhan, and X. Xue, “Cellphone remote intelligent neuroregulation with self-powered wireless brain probe,” Nano Energy, vol. 106, no. 108105, pp. 1-13, February 2023.
  3. H. Wen, Z. Liu, Q. Luo, C. Shi, P. Xiao, “Designing enhanced multi-dimensional constellations for code-domain NOMA,” IEEE Wireless Communications Letters, vol. 11, no. 10, pp. 2130-2134, October 2022.
  4. C. Shi, J. Liang, Y. Liu, and H. Yang, “Fast non-uniform searching strategy for ambient phase estimation in stereo recordings with sparse primary components,” Applied Acoustics, vol. 198, no. 108975, pp. 1-10, September 2022.
  5. C. Shi, F. Du, and Q. Wu, “A digital twin architecture for wireless networked adaptive active noise control,” IEEE/ACM Transactions on Audio, Speech, and Language Processing, vol. 30, pp. 2768-2777, August 2022.
  6. C. Shi, M. Huang, H. Jiang, and H. Li, “Integration of anomaly machine sound detection into active noise control to shape the residual sound,” in Proceedings of the 47th IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP), Singapore, May 2022.
  7. C. Shi, Y. Wang, H. Xiao, and H. Li, “Extended convolution model for computing the far-field directivity of an amplitude-modulated parametric loudspeaker,” Journal of Physics D: Applied Physics, vol. 55, no. 244002, pp. 1-10, March 2022.
  8. C. Shi, F. Du, C. Liu, and H. Li, “Differential error feedback active noise control with the auxiliary filter based mapping method,” IEEE Signal Processing Letters, vol. 29, pp. 573-577, January 2022.
  9. H. Zhu, C. Shi, and Y. Wang, “F0-estimation-based primary ambient extraction for stereo signals,” in Proceedings of the 2021 European Signal Processing Conference (EUSIPCO), Dublin, Ireland, August 2021.
  10. C. Shi, Z. Jia, R. Xie, and H. Li, “An active noise control casing using the multi-channel feedforward control system and the relative path based virtual sensing method,” Mechanical Systems and Signal Processing, vol. 144, no. 106878, pp. 1-17, October 2020.
  11. C. Shi, R. Xie, N. Jiang, H. Li, and Y. Kajikawa, “Selective virtual sensing technique for multi-channel feedforward active noise control systems,” in Proceedings of the 44th IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP), Brighton, UK, May 2019.
  12. D. Shi, W. S. Gan, B. Lam, and C. Shi, “Two-gradient direction FXLMS: An adaptive active noise control algorithm with output constraint,” Mechanical Systems and Signal Processing, vol. 116, pp. 651-667, February 2019.
  13. C. Shi and Y. Kajikawa, “A partial-update minimax algorithm for practical implementation of multi-channel feedforward active noise control,” in Proceedings of the 16th International Workshop on Acoustic Signal Enhancement (IWAENC), Tokyo, Japan, September 2018.
  14. B. Lam, C. Shi, D. Shi, and W. S. Gan, “Active control of sound through full-sized open windows,” Building and Environment, vol. 141, pp. 16-27, August 2018.
  15. S. Elliott, J. Cheer, B. Lam, C. Shi, and W. S. Gan, “A wavenumber approach to analysing the active control of plane waves with arrays of secondary sources,” Journal of Sound and Vibration, vol. 419, pp. 405-419, April 2018.
  16. T. Murao, C. Shi, W. S. Gan, and M. Nishimura, “Mixed-error approach for multi-channel active noise control of open windows,” Applied Acoustics, vol. 127, pp. 305-315, December 2017.
  17. Y. Hatano, C. Shi, and Y. Kajikawa, “Compensation for nonlinear distortion of the frequency modulation based parametric array loudspeaker,” IEEE/ACM Transactions on Audio, Speech, and Language Processing, vol. 25, no. 8, pp. 1709-1717, May 2017.
  18. D. Shi, J. He, C. Shi, T. Murao, and W. S. Gan, “Multiple parallel branch with folding architecture for multichannel filtered-x least mean square algorithm,” in Proceedings of the 42nd IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP), New Orleans, Louisiana, March 2017.
  19. K. Tanaka, C. Shi and Y. Kajikawa, “Binaural active noise control system using parametric array loudspeakers,” Applied Acoustics, vol. 116, pp. 170-176, January 2017.
  20. C. Shi and Y. Kajikawa, “Volterra model of the parametric array loudspeaker operating with ultrasonic frequencies,” Journal of the Acoustical Society of America, vol. 140, no. 5, pp. 3643-3650, November 2016.
  21. C. Shi and Y. Kajikawa, “Effect of the ultrasonic emitter on the distortion performance of the parametric array loudspeaker,” Applied Acoustics, vol. 112, pp. 108-115, November 2016.
  22. C. Shi and Y. Kajikawa, “Synthesis of Volterra filters for the parametric array loudspeaker,” in Proceedings of the 41st IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP), Shanghai, China, March 2016.
  23. C. Shi and Y. Kajikawa, “Automatic gain control for parametric array loudspeakers,” in Proceedings of the 41st IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP), Shanghai, China, March 2016.
  24. C. Shi, Y. Kajikawa, and W. S. Gan, “Generating dual beams from a single steerable parametric loudspeaker,” Applied Acoustics, vol. 99, pp. 43-50, December 2015.
  25. Y. Hatano, C. Shi, S. Kinoshita, and Y. Kajikawa, “A linearization system for parametric array loudspeakers using the parallel cascade Volterra filter,” in Proceedings of the 2015 European Signal Processing Conference (EUSIPCO), Nice, France, August 2015.
  26. C. Shi and Y. Kajikawa, “Identification of the parametric array loudspeaker with a Volterra filter using the sparse NLMS algorithm,” in Proceedings of the 40th IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP), Brisbane, Australia, April 2015.
  27. C. Shi and Y. Kajikawa, “A convolution model for computing the far-field directivity of a parametric loudspeaker array,” Journal of the Acoustical Society of America, vol. 137, no. 2, pp. 777-784, February 2015.
  28. C. Shi, Y. Kajikawa, and W. S. Gan, “An overview of directivity control methods of the parametric array loudspeaker,” APSIPA Transactions on Signal and Information Processing, vol. 3, no. E20, pp. 1-12, December 2014.
  29. C. Shi, H. Nomura, T. Kamakura, and W. S. Gan, “Spatial aliasing effects in a steerable parametric loudspeaker for stereophonic sound reproduction,” IEICE Transactions on Fundamentals of Electronics, Communications and Computer Science, vol. E97-A, no. 9, pp.1859-1866, September 2014.
  30. C. Shi, H. Mu, and W. S. Gan, “A psychoacoustical preprocessing technique for virtual bass enhancement of the parametric loudspeaker,” in Proceedings of the 38th IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP), Vancouver, Canada, May 2013.
  31. C. Shi and W. S. Gan, “Analysis and calibration of system errors in steerable parametric loudspeakers,” Applied Acoustics, vol. 73, no. 12, pp. 1263-1270, December 2012.
  32. C. Shi and W. S. Gan, “Product directivity models for parametric loudspeakers,” Journal of the Acoustical Society of America, vol. 131, no. 3, pp. 1938-1945, March 2012.
  33. C. Shi and W. S. Gan, “Grating lobe elimination in steerable parametric loudspeaker,” IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, vol. 58, no. 2, pp. 437-450, February 2011.
  34. C. Shi and W. S. Gan, “Development of a parametric loudspeaker: A novel directional sound generation technology,” IEEE Potentials, vol. 29, no. 6, pp. 20-24, November 2010.