A New Simple-to-Configure Self-Perturbing Multivariable Extremum-Seeking Controller
This work simplifies the configuration of extremum-seeking controllers for multi-input systems, making them more accessible for real-world applications.
The paper introduces a stochastic relay-based extremum-seeking controller for MISO systems that requires only one configurable parameter per input channel (plus one extra for dynamic systems), simplifying deployment. Simulations show effective optimization of both static and dynamic systems.
This paper presents a new stochastic relay-based extremum-seeking controller (ESC) for multi-input-single-output (MISO) systems. The goal of this work was to create an algorithm that is much simpler to configure than alternative approaches making deployment to real-world problems easier. A solution is developed first for a static map and then adapted for a general class of dynamic systems. The number of configurable parameters is one per input channel for the static case and only one additional parameter is needed for the dynamic version. The problem of gradient identification is solved via the use of stochastic relay gains and a simple stability proof for the static case is presented. Simulation tests demonstrate the performance of the strategy for optimizing both static and dynamic systems.