Publication | Closed Access
Three-dimensional sensing of rough surfaces by coherence radar
503
Citations
11
References
1992
Year
RadarEngineeringRough ObjectsCoherent Gradient SensingSynthetic Aperture RadarSmall Coherence LengthInterferometryRemote SensingCoherenceMethod Coherence RadarRadar Signal ProcessingComputational ElectromagneticsRadar ApplicationInstrumentationOptical SystemsLaser-based SensorRange ImagingCoherence Radar
Unlike conventional optical systems, whose depth accuracy is limited by aperture size, this approach does not share that limitation. The study introduces a 3‑D sensor for rough objects whose accuracy is limited only by surface roughness. The sensor employs a Michelson interferometer with the rough surface as one mirror, using a short‑coherence light source and depth scanning to detect interference within speckles. The resulting coherence radar achieves high‑accuracy depth measurements with a small aperture, enabling probing of narrow crevices and holes.
We introduce a three-dimensional sensor designed primarily for rough objects that supplies an accuracy that is limited only by the roughness of the object surface. This differs from conventional optical systems in which the depth accuracy is limited by the aperture. Consequently, our sensor supplies high accuracy with a small aperture, i.e., we can probe narrow crevices and holes. The sensor is based on a Michelson interferometer, with the rough object surface serving as one mirror. The small coherence length of the light source is used. While scanning the object in depth, one can detect the local occurrence of interference within the speckles emerging from the object. We call this method coherence radar.
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