Article: Sensitivity optimisation of an optical pressure sensor-based low-cost dynamic pedograph for improved foot pressure analysis Journal: International Journal of Biomedical Engineering and Technology (IJBET) 2026 Vol.50 No.2 pp.109 - 131 Abstract: Accurate measurement and analysis of dynamic foot pressure are crucial for preventing complications associated with peripheral neuropathy, particularly in individuals with diabetes. This study focuses on optimising the calibration and sensitivity of an optical pressure sensor-based dynamic pedograph, designed and made in Bangladesh, to enhance its accuracy in assessing foot pressure distribution. The system employs total internal reflection in a transparent glass slab; foot-applied pressure disrupts light propagation, producing scattered light that is captured as greyscale intensity by a camera positioned beneath. Calibration was performed using a custom four-pad platform, establishing a linear relationship between applied pressure and pixel intensity (100-200 out of 255). Dedicated Java-based software enabled real-time analysis and precise correlation. Systematic tuning of camera parameters - gamma 100, gain 0, contrast 0 - enhanced sensitivity, linearity, and spatial uniformity, with spatial sensitivity variation of 8.2% and temporal variation of 1.92, indicating stable performance. The optimised pedograph generates high-resolution pressure maps, providing a cost-effective, reliable alternative to commercial systems, supporting improved plantar pressure assessment and diabetic foot care in clinical settings. Inderscience Publishers - linking academia, business and industry through research

Title: Sensitivity optimisation of an optical pressure sensor-based low-cost dynamic pedograph for improved foot pressure analysis

Authors: Jewel Haque; Md. Ibrahim Al Imran; Khondkar Siddique-e-Rabbani

Addresses: Department of Biomedical Physics and Technology, University of Dhaka, Dhaka, Bangladesh ' Department of Biomedical Physics and Technology, University of Dhaka, Dhaka, Bangladesh ' Department of Biomedical Physics and Technology, University of Dhaka, Dhaka, Bangladesh

Abstract: Accurate measurement and analysis of dynamic foot pressure are crucial for preventing complications associated with peripheral neuropathy, particularly in individuals with diabetes. This study focuses on optimising the calibration and sensitivity of an optical pressure sensor-based dynamic pedograph, designed and made in Bangladesh, to enhance its accuracy in assessing foot pressure distribution. The system employs total internal reflection in a transparent glass slab; foot-applied pressure disrupts light propagation, producing scattered light that is captured as greyscale intensity by a camera positioned beneath. Calibration was performed using a custom four-pad platform, establishing a linear relationship between applied pressure and pixel intensity (100-200 out of 255). Dedicated Java-based software enabled real-time analysis and precise correlation. Systematic tuning of camera parameters - gamma 100, gain 0, contrast 0 - enhanced sensitivity, linearity, and spatial uniformity, with spatial sensitivity variation of 8.2% and temporal variation of 1.92, indicating stable performance. The optimised pedograph generates high-resolution pressure maps, providing a cost-effective, reliable alternative to commercial systems, supporting improved plantar pressure assessment and diabetic foot care in clinical settings.

Keywords: pedograph; foot-pressure; intensity; sensitivity; pressure-map; calibration.

DOI: 10.1504/IJBET.2026.151950

International Journal of Biomedical Engineering and Technology, 2026 Vol.50 No.2, pp.109 - 131

Received: 26 May 2025
Accepted: 29 Sep 2025
Published online: 27 Feb 2026 *

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Title: Sensitivity optimisation of an optical pressure sensor-based low-cost dynamic pedograph for improved foot pressure analysis

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