2020
DOI: 10.1177/1045389x20948597
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Sliding mode predictive vibration control of a piezoelectric flexible plate

Abstract: A non-contact vibration measurement and control system for a piezoelectric-patched flexible cantilever plate is presented, using laser displacement sensors. Two laser displacement sensors are utilized to detect the deflection information of the two corners of the end of the flexible board, due to its high measurement accuracy for the small amplitude residual vibration. The vibrations of the first bending and torsional mode of the flexible plate can be extracted from the combined information. To achieve a desir… Show more

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Cited by 8 publications
(5 citation statements)
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“…From the above discussion, controllers for the piezo actuator are also identified in the application, along with classical forms to modern forms. A summarization of the control for the piezo devices are shown in figure 8 including optimal control [36, 37], LQR control [38,39], switching control [40], fuzzy control [41][42][43][44][45], fuzzy sliding mode control [42], adaptive sliding mode control [46][47][48][49], force control [50], predictive sliding mode control [51][52][53][54], proportional differential (PD) control [41,55,56], PID control [57], H-infinity technique [58], feed-forward control [59], neural networks [60,61], active control [61][62][63][64][65], and identification/delayed feedback/genetic/adaptive models [65][66][67][68][69][70].…”
Section: Piezo Actuatormentioning
confidence: 99%
“…From the above discussion, controllers for the piezo actuator are also identified in the application, along with classical forms to modern forms. A summarization of the control for the piezo devices are shown in figure 8 including optimal control [36, 37], LQR control [38,39], switching control [40], fuzzy control [41][42][43][44][45], fuzzy sliding mode control [42], adaptive sliding mode control [46][47][48][49], force control [50], predictive sliding mode control [51][52][53][54], proportional differential (PD) control [41,55,56], PID control [57], H-infinity technique [58], feed-forward control [59], neural networks [60,61], active control [61][62][63][64][65], and identification/delayed feedback/genetic/adaptive models [65][66][67][68][69][70].…”
Section: Piezo Actuatormentioning
confidence: 99%
“…), this coefficient is determined according to the boundary conditions of Euler Bernoulli beams with free ends. It should be emphasized here that when j ≥ 3, the mode function of the Euler Bernoulli beam with free ends is equation (21), which is determined by the dispersion equation of vibration of free beams at both ends. And, W j (j � 1, 2) is in the following form:…”
Section: Vibration Mode Function Of Cantilever Plate In Y-directionmentioning
confidence: 99%
“…At this point, the point discontinuity on the beam is the line discontinuity here. According to the traveling wave theory, the incident elastic wave will be reflected and transmitted at discontinuities [21,22]. Assuming a column of forward propagating waves is incident at x � 0, where the incident attenuation wave is ignored and the time factor is not considered, the displacements of the beam at x < 0 and x > 0 are respectively as follows:…”
Section: Feedback Wave Control Of Cantilever Platementioning
confidence: 99%
“…Shakir and Saber [ 69 ] developed a linear coupled FE model by ANSYS for the PZT actuation of a cantilever beam to study smart beam behavior in open and closed-loop cases. Qiu et al [ 70 ] developed a sliding mode control strategy to damp the vibration of a PZT flexible cantilever plate. The FE modeling was used to simulate the controller on bending and torsional vibration in their research.…”
Section: Introductionmentioning
confidence: 99%