This paper is concerned with the experimental validation of pinning controllability in networks of Chua's circuits. Firstly, the implementation of an appropriate setup to carry out experiments on networks of Chua's with settable topology is presented. Then, for the first time, the stability thresholds on coupling and control gains estimated through the Pinning Controllability approach are shown to be in excellent agreement with the experiments performed in a real scenario, affected by unavoidable uncertainties and noise. The results illustrated in the paper confirm the effectiveness of the considered approach as an effective analysis and design tool.
EXPERIMENTAL VALIDATION OF PINNING CONTROLLABILITY IN NETWORKED CHUA???S CIRCUITS / DE LELLIS, Pietro; DE MAGISTRIS, Massimiliano; DI BERNARDO, Mario; Manfredi, Sabato. - (2012), pp. 616-619. (Intervento presentato al convegno IEEE International Symposium on Circuits and Systems (ISCAS) tenutosi a Seoul nel 20-23 maggio 2012) [10.1109/ISCAS.2012.6272107].
EXPERIMENTAL VALIDATION OF PINNING CONTROLLABILITY IN NETWORKED CHUA???S CIRCUITS
DE LELLIS, PIETRO;DE MAGISTRIS, MASSIMILIANO;DI BERNARDO, MARIO;MANFREDI, SABATO
2012
Abstract
This paper is concerned with the experimental validation of pinning controllability in networks of Chua's circuits. Firstly, the implementation of an appropriate setup to carry out experiments on networks of Chua's with settable topology is presented. Then, for the first time, the stability thresholds on coupling and control gains estimated through the Pinning Controllability approach are shown to be in excellent agreement with the experiments performed in a real scenario, affected by unavoidable uncertainties and noise. The results illustrated in the paper confirm the effectiveness of the considered approach as an effective analysis and design tool.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
