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Tomographic Proximity Imaging Using Conductive Sheet for Object Tracking.

Zehao Li1, Shunsuke Yoshimoto2, Akio Yamamoto2

  • 1School of Engineering, The University of Tokyo, Tokyo 113-8656, Japan.

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|April 30, 2021
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Summary
This summary is machine-generated.

This study introduces a low-cost proximity imaging sensor using a tomographic approach. The novel sensor transforms proximity into electric potential, achieving accurate object localization and hand tracking.

Keywords:
capacitive sensingimpedance tomographymotion captureproximity imaging

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Area of Science:

  • Electrical Engineering
  • Sensor Technology
  • Computational Imaging

Background:

  • Traditional proximity sensors often lack detailed spatial information or are costly.
  • Developing cost-effective sensors for precise proximity detection remains a challenge.
  • Tomographic methods offer potential for reconstructing spatial information from limited measurements.

Purpose of the Study:

  • To propose and validate a novel proximity imaging sensor utilizing a tomographic approach.
  • To develop a theoretical model for converting capacitance density to electric potential for proximity sensing.
  • To demonstrate the sensor's capability in object localization and real-time hand tracking.

Main Methods:

  • A low-cost conductive sheet was employed as the sensing element.
  • A theoretical model was developed to solve the capacitance density problem via tomography.
  • An inverse problem was formulated and solved to image capacitance density changes.
  • A prototype sensor was constructed and evaluated for localization accuracy and hand-tracking performance.

Main Results:

  • The proximity sensor successfully transformed physical proximity into measurable electric potential.
  • The prototype achieved horizontal localization errors between 10.0% and 15.8% at varying heights.
  • Hand-tracking demonstrated a position difference of 33.8–46.7 mm compared to a depth camera at 30 frames per second.

Conclusions:

  • The proposed tomographic proximity imaging sensor is a viable, low-cost solution for spatial awareness.
  • The developed theoretical model and inverse problem-solving approach enable effective proximity imaging.
  • The system shows promise for applications requiring real-time, accurate proximity detection and tracking.