A Self-Sensing Piezoelectric Actuator for Collocated Control

Dosch, Jeffrey; Inman, Daniel J.; Garcia, Ephrahim

doi:10.1177/1045389x9200300109

Cited by 690 publications

(396 citation statements)

References 5 publications

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“…Since this testbed works as a proof-of-concept to investigate the performance of pixlated VLC backscatter, manually controlled positioners are used for orientation. Nevertheless, in production, the orientation process can be performed by piezoelectric actuators [18] which allow the reflectors to change their orientation with low amount of energy. The cage mounted irises are installed upon the LCD shutters to manipulate the area of each pixel.…”

Section: A Testbed Setupmentioning

confidence: 99%

Pixelated VLC-Backscattering for Self-Charging Indoor IoT Devices

Shao

Khreishah

Elgala

2017

IEEE Photon. Technol. Lett.

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Abstract-Visible light communication (VLC) backscatter has been proposed as a wireless access option for Internet of Things (IoT). However, the throughput of the state-of-the-art VLC backscatter is limited by simple single-carrier pulsed modulation scheme, such as on-off keying (OOK). In this paper, a novel pixelated VLC backscatter is proposed and implemented to overcome the channel capacity limitation. In particular, multiple smaller VLC backscatters, switching on or off, are integrated to generate multi-level signals, which enables the usage of more advanced modulation schemes than OOK. Based on experimental results, rate adaptation at different communication distances can be employed to enhance the achievable data rate. Compared to OOK, the data rate can be tripled when 8-PAM is used at 2 meters. In general, n-fold throughput enhancement is realized by utilizing n smaller VLC backscatters while incurring negligible additional energy using the same device space as that of a single large backscatter.

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Section: A Testbed Setupmentioning

confidence: 99%

Pixelated VLC-Backscattering for Self-Charging Indoor IoT Devices

Shao

Khreishah

Elgala

2017

IEEE Photon. Technol. Lett.

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“…Combining the equations for the surface-bonded actuator and sensor (Dosch et al, 1992;Sims et al, 2005) …”

Section: Active Damping and The Control System Toolboxmentioning

confidence: 99%

A Fuzzy Finite Element Method Programmed in MATLAB for the Analysis of Uncertain Control Systems of Structures

Morales¹,

Rongong²,

Sims³

2011

MATLAB - A Ubiquitous Tool for the Practical Engineer

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“…2, where the piezoelectric material attached to the cantilever beam is modeled as a capacitance C p in series with a strain-dependent voltage source v p [20].…”

Section: Piezoelectric Shunt Controlmentioning

confidence: 99%

Sensorless Implementation of a PPF Controller for Active <inline-formula> <tex-math notation="TeX">$Q$ </tex-math></inline-formula> Control of an AFM Microcantilever

Fairbairn

Müller

Moheimani

2014

IEEE Trans. Contr. Syst. Technol.

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Abstract-Reducing the cantilever quality ( Q) factor in the atomic force microscope (AFM), when operating in tapping mode, allows for an increase in imaging speed. Passive piezoelectric shunt control has several advantages over alternative methods of cantilever Q factor reduction. However, this technique uses a passive electrical impedance to modify the mechanical dynamics of the cantilever, which limits the amount of Q factor reduction achievable. This paper demonstrates that further reductions in the cantilever Q factor may be obtained with the use of an active impedance in the piezoelectric shunt control framework. The active impedance parameters are designed in such a way that the piezoelectric shunt controller emulates a positive position feedback controller in a displacement feedback control loop. A significant reduction in cantilever Q factor is obtained using an active impedance compared with that achieved with a passive impedance. The improvement in scan speed using this control technique is demonstrated with AFM images of a test sample.

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A Self-Sensing Piezoelectric Actuator for Collocated Control

Cited by 690 publications

References 5 publications

Pixelated VLC-Backscattering for Self-Charging Indoor IoT Devices

Pixelated VLC-Backscattering for Self-Charging Indoor IoT Devices

A Fuzzy Finite Element Method Programmed in MATLAB for the Analysis of Uncertain Control Systems of Structures

Sensorless Implementation of a PPF Controller for Active <inline-formula> <tex-math notation="TeX">$Q$ </tex-math></inline-formula> Control of an AFM Microcantilever

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