EPJ Web of Conferences (Jan 2017)

Digital fringe projection for hand surface coordinate variation analysis caused by osteoarthritis

  • Wan Nor Haimi Wan Mokhdzani,
  • Tan Cheek Hau,
  • Retnasamy Vithyacharan,
  • Vairavan Rajendaran,
  • Sauli Zaliman,
  • Yusof Nor Roshidah,
  • Hambali Nor Azura Malini Ahmad,
  • Aziz Muhammad Hafiz Ab,
  • Bakhit Ahmad Syahir Ahmad

DOI
https://doi.org/10.1051/epjconf/201716201036
Journal volume & issue
Vol. 162
p. 01036

Abstract

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Hand osteoarthritis is one of the most common forms of arthritis which impact millions of people worldwide. The disabling problem occurs when the protective cartilage on the boundaries of bones wear off over time. Currently, in order to identify hand osteoarthritis, special instruments namely X-ray scanning and MRI are used for the detection but it also has its limitations such as radiation exposure and can be quite costly. In this work, an optical metrology system based on digital fringe projection which comprises of an LCD projector, CCD camera and a personal computer has been developed to anticipate abnormal growth or deformation on the joints of the hand which are common symptoms of osteoarthritis. The main concept of this optical metrology system is to apply structured light as imaging source for surface change detection. The imaging source utilizes fringe patterns generated by C++ programming and is shifted by 3 phase shifts based on the 3 steps 2 shifts method. Phase wrapping technique and analysis were applied in order to detect the deformation of live subjects. The result has demonstrated a successful method of hand deformation detection based on the pixel tracking differences of a normal and deformed state.