English

Optimization-based Feedback Manipulation Through an Array of Ultrasonic Transducers

Systems and Control 2020-11-13 v4

Abstract

In this paper we document a novel laboratory experimental platform for non-contact planar manipulation (positioning) of millimeter-scale objects using acoustic pressure. The manipulated objects are either floating on a water surface or rolling on a solid surface. The pressure field is shaped in real time through an 8-by-8 array (matrix) of ultrasonic transducers. The transducers are driven with square voltages whose phase-shifts are updated periodically every few milliseconds based on the difference between the desired and true (estimated from video) position. Numerical optimization is used within every period of a discrete-time feedback loop to determine the phase shifts for the voltages. The platform can be used as an affordable testbed for algorithms for non-contact manipulation through arrays of actuators as all the design and implementation details for the presented platform are shared with the public through a dedicated git repository. The platform can certainly be extended towards higher numbers of simultaneously yet independently manipulated objects and larger manipulation areas by the expanding the transducer array.

Keywords

Cite

@article{arxiv.1902.01328,
  title  = {Optimization-based Feedback Manipulation Through an Array of Ultrasonic Transducers},
  author = {Josef Matouš and Adam Kollarčík and Martin Gurtner and Tomáš Michálek and Zdeněk Hurák},
  journal= {arXiv preprint arXiv:1902.01328},
  year   = {2020}
}

Comments

final version before submission to IFAC Mechatronics 2019 conference

R2 v1 2026-06-23T07:31:43.254Z