Recursive Proportional Feedback and its Use to Control Chaos in an Electrochemical System
R. W. Rollins, P. Parmananda, P. Sherard (Dept. of Physics, Ohio, Univ., Athens OH), H. D. Dewald (Dept. of Chemistry, Ohio Univ., Athens, OH)
TL;DR
This paper introduces the recursive proportional feedback (RPF) algorithm for controlling chaos, demonstrating its application to electrochemical chaos in a copper disk system with experimental and theoretical analysis.
Contribution
The paper presents a novel application of the RPF algorithm to control chemical chaos in an electrochemical system, including experimental validation and discussion of its robustness.
Findings
RPF effectively controls chaos in the electrochemical system
Experimental results support the theoretical robustness of RPF
The method offers a new approach for chaos control in chemical systems
Abstract
The recursive proportional feedback (RPF) algorithm for controlling chaos is described and applied to control chemical chaos observed during the electrodissolution of a rotating copper disk in a sodium acetate/acetic acid buffer. Experimental evidence is presented to indicate why the RPF method was used and the theoretical robustness of the algorithm is discussed. (This paper appears in the "Proceedings of the 2nd Conference on EXPERIMENTAL CHAOS," World Scientific Press, River Ridge, NJ, 1995)
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Taxonomy
TopicsNonlinear Dynamics and Pattern Formation · Power Systems and Renewable Energy · Neural Networks and Applications