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Related Concept Videos

Design Example: Resistive Touchscreen01:14

Design Example: Resistive Touchscreen

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A device engineer plays a crucial role in designing user interfaces for mobile devices. One such interface is the resistive touchscreen, which fundamentally consists of two metallic layers: a flexible upper layer and a rigid lower layer, separated by a narrow gap. The high resistance between these two layers is a key characteristic of this design.
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Ultrasonography is an imaging technique that uses high-frequency sound waves to visualize the body's internal structures. It is a non-invasive and safe procedure that does not involve the use of ionizing radiation, making it widely used in various medical fields. Ultrasonography is used to study heart function, blood flow in the neck or extremities, certain conditions such as gallbladder disease, and fetal growth and development.
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Embedded real-time ultrasound-based multi-touch system.

Maxime Bilodeau1, Jérémy Moriot1, Joëlle Fréchette-Viens1

  • 1Department of Mechanical Engineering, Centre de Recherche Acoustique-Signal-Humain de l'Université de Sherbrooke, Université de Sherbrooke, Sherbrooke, J1K 2R1, Québec, Canadamaxime.bilodeau2@usherbrooke.ca, jeremy.moriot@usherbrooke.ca, joelle.frechette-viens@usherbrooke.ca, raphael.bouchard2@usherbrooke.ca, philippe.boulais@usherbrooke.ca, nicolas.quaegebeur@usherbrooke.ca, patrice.masson@usherbrooke.ca.

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Summary
This summary is machine-generated.

This study introduces an ultrasound-based touchscreen using Lamb waves for real-time multi-touch detection and localization on glass panels. The technology also enables relative pressure measurement, enhancing interactive surface capabilities.

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Area of Science:

  • Materials Science
  • Acoustics
  • Human-Computer Interaction

Background:

  • Traditional touchscreens face limitations in multi-touch accuracy and pressure sensing.
  • Ultrasound technology offers a potential avenue for advanced touch interaction.

Purpose of the Study:

  • To develop and evaluate an active ultrasound-based touchscreen system.
  • To enable real-time monitoring of multiple contacts on a glass panel.
  • To assess the feasibility of relative pressure measurement using this technology.

Main Methods:

  • Utilized fundamental Lamb wave modes generated by a linear chirp (50-100 kHz) via a piezoelectric ceramic lead zirconate titanate (PZT) transducer.
  • Employed four PZT elements for signal measurement.
  • Implemented real-time localization and detection on an i.MX 8M Nano system on module.

Main Results:

  • Demonstrated successful real-time multi-touch detection and localization on both sides of a 20x19 cm glass panel.
  • Confirmed the capability of Lamb waves for precise touch event tracking.
  • Validated the prototype's ability to perform relative pressure measurements.

Conclusions:

  • Active ultrasound-based touchscreen technology effectively enables real-time multi-touch detection and localization.
  • Lamb wave propagation is a viable method for advanced interactive surface applications.
  • The developed prototype shows promise for pressure-sensitive touch interfaces.