Yufridin Wahab scite author profile

Foot plantar pressure is the pressure field that acts between the foot and the support surface during everyday locomotor activities. Information derived from such pressure measures is important in gait and posture research for diagnosing lower limb problems, footwear design, sport biomechanics, injury prevention and other applications. This paper reviews foot plantar sensors characteristics as reported in the literature in addition to foot plantar pressure measurement systems applied to a variety of research problems. Strengths and limitations of current systems are discussed and a wireless foot plantar pressure system is proposed suitable for measuring high pressure distributions under the foot with high accuracy and reliability. The novel system is based on highly linear pressure sensors with no hysteresis.

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Gait analysis measurement for sport application based on ultrasonic system

Wahab

Bakar

2011

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Current Development in Interdigital Transducer (IDT) Surface Acoustic Wave Devices for Live Cell In Vitro Studies: A Review

et al. 2021

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Acoustics have a wide range of uses, from noise-cancelling to ultrasonic imaging. There has been a surge in interest in developing acoustic-based approaches for biological and biomedical applications in the last decade. This review focused on the application of surface acoustic waves (SAW) based on interdigital transducers (IDT) for live-cell investigations, such as cell manipulation, cell separation, cell seeding, cell migration, cell characteristics, and cell behaviours. The approach is also known as acoustofluidic, because the SAW device is coupled with a microfluidic system that contains live cells. This article provides an overview of several forms of IDT of SAW devices on recently used cells. Conclusively, a brief viewpoint and overview of the future application of SAW techniques in live-cell investigations were presented.

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Design of MEMS biomedical pressure sensor for gait analysis

Wahab

Zayegh

Begg

et al. 2008

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Measurement of the foot and shoe interface pressure underpins a number of important applications. Abnormal pressure may indicate instability in gait, risks of diabetic ulceration and many other biomedical and sports applications. As the current foot pressure sensors in the market exhibit many limitations, a new sensor design based on the more promising MEMS technology was therefore explored. As such, this paper reports the analysis and optimization of a MEMS pressure sensor for foot pressure measurement. The pressure sensor had a high linearity output with pressure span of more than 2-MPa. This characteristic indicates excellent potential for a wide spectrum of biomechanical activities.

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Design and Analysis of Various Microcantilever Shapes for MEMS Based Sensing

Hawari

Wahab

Azmi

et al. 2014

J. Phys.: Conf. Ser.

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Yufridin Wahab

Foot Plantar Pressure Measurement System: A Review

Gait analysis measurement for sport application based on ultrasonic system

Current Development in Interdigital Transducer (IDT) Surface Acoustic Wave Devices for Live Cell In Vitro Studies: A Review

Design of MEMS biomedical pressure sensor for gait analysis

Design and Analysis of Various Microcantilever Shapes for MEMS Based Sensing

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