TY - GEN
T1 - Extremum Seeking Based on Approximated Sign of Gradient of Unknown Plant Maps
AU - Yamanaka, Osamu
AU - Onishi, Yuta
AU - Hiraoka, Yukio
AU - Hidaka, Koichi
AU - Ohmori, Hiromitsu
N1 - Publisher Copyright:
© 2020 The Society of Instrument and Control Engineers - SICE.
PY - 2020/9/23
Y1 - 2020/9/23
N2 - This paper presents a novel perturbation-based extremum seeking (ES) based on the smooth approximation of the sign of the gradient of unknown plant maps, which will improve the stability and the control performance of ES. The stability and the convergence speed of conventional sinusoidally perturbed gradient-based ES are very sensitive to the curvature of an unknown plant map, which has motivated the development of improved ES schemes that are less sensitive to the curvature such as Newton-like ES schemes. In this paper, an alternative ES scheme is proposed by estimating the sign of the gradient instead of the gradient itself. The ES scheme not only frees us from taking care of the curvature of the unknown map but also is able to minimize the increase of implementation complexity by just incorporating the signum function for the conventional ES scheme. Moreover, the signum function is replaced by its smooth approximation such as the softsign or a sigmoid function in order not only to suppress chattering phenomena but also to be able to adjust the behavior in the vicinity of an extremum point. It is also shown that the local-stability of the proposed ES scheme can be proved under some mild assumptions for the approximation function. The effectiveness of the proposed ES is demonstrated by some simulation examples for a simple process model and for a complex nonlinear biological wastewater treatment process model.
AB - This paper presents a novel perturbation-based extremum seeking (ES) based on the smooth approximation of the sign of the gradient of unknown plant maps, which will improve the stability and the control performance of ES. The stability and the convergence speed of conventional sinusoidally perturbed gradient-based ES are very sensitive to the curvature of an unknown plant map, which has motivated the development of improved ES schemes that are less sensitive to the curvature such as Newton-like ES schemes. In this paper, an alternative ES scheme is proposed by estimating the sign of the gradient instead of the gradient itself. The ES scheme not only frees us from taking care of the curvature of the unknown map but also is able to minimize the increase of implementation complexity by just incorporating the signum function for the conventional ES scheme. Moreover, the signum function is replaced by its smooth approximation such as the softsign or a sigmoid function in order not only to suppress chattering phenomena but also to be able to adjust the behavior in the vicinity of an extremum point. It is also shown that the local-stability of the proposed ES scheme can be proved under some mild assumptions for the approximation function. The effectiveness of the proposed ES is demonstrated by some simulation examples for a simple process model and for a complex nonlinear biological wastewater treatment process model.
KW - Extremum seeking
KW - gradient estimation
KW - real-time optimization
KW - stability
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M3 - Conference contribution
AN - SCOPUS:85096352327
T3 - 2020 59th Annual Conference of the Society of Instrument and Control Engineers of Japan, SICE 2020
SP - 249
EP - 254
BT - 2020 59th Annual Conference of the Society of Instrument and Control Engineers of Japan, SICE 2020
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 59th Annual Conference of the Society of Instrument and Control Engineers of Japan, SICE 2020
Y2 - 23 September 2020 through 26 September 2020
ER -