A generalized framework for perturbation-based derivative estimation in multivariable extremum-seeking
article
In the context of model-free optimization of dynamic nonlinear multiple-input-single-output (MISO) systems using extremum-seeking (ES), accurate and fast derivative estimation of the systems steady-state performance map is essential. This paper presents a generalized derivative estimator (DE) framework for unknown MISO static maps. To this extent, the map input is perturbed with sinusoidal dither signals with different frequencies. Using the proposed framework, the derivatives can be estimated up to an arbitrary order, for maps with an arbitrary number of inputs. Conditions on the dither frequencies are provided, which optimize the DE time-scale, such that derivative estimation is as fast as possible. Simulation examples are provided to demonstrate the effectiveness of the proposed framework.
Topics
TNO Identifier
775949
ISSN
24058963
Source
IFAC-PapersOnLine, pp. 3203-3208.
Collation
6 p.
Pages
3203-3208
Files
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