5 September 2000 Noncontact laser metrology with real-time detection and high-speed processing for material analysis
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Abstract
This paper describes the development of real-time non-contact metrology based on holographic interferometry and neural network fringe analysis software to detect defects in composite materials. The object under inspection is illuminated by a high-power solid-state laser, and the light scattered from the material surface is recorded in real time using a double-exposure holographic interferometer, which can detect minute surface deformation caused by defects in the material. Thermal stimulation of the object creates a non- uniform time-varying material reaction, which causes surface deformation that is characteristic of the material's internal structure. This deformation in turn creates time-varying interference patterns, which are recorded by a real-time holographic interferometric system and displayed on the computer monitor through a CCD camera. The system allows real- time, in-depth non-contact inspection of composite materials used in aircraft and other military vehicles. A genetic algorithm has also been developed for fast data processing in a non-laboratory environment. The sophisticated neural network recognizes the types of defects at high speed.
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Yunlu Zou, Tin M. Aye, Gajendra D. Savant, Andrew A. Kostrzewski, Dai Hyun Kim, Charles G. Pergantis, "Noncontact laser metrology with real-time detection and high-speed processing for material analysis", Proc. SPIE 4035, Laser Radar Technology and Applications V, (5 September 2000); doi: 10.1117/12.397799; https://doi.org/10.1117/12.397799
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