M.A. Razian scite author profile

In gait analysis, there is growing awareness of the need to simultaneously measure shear and vertical forces for the diagnosis and treatment assessment of pathological foot disorders. This is especially the case in the measurement of the forces between the plantar surface of the foot and the shoe. Although clinical awareness of the need to simultaneously measure shear and vertical forces under the foot has increased little has been done to provide the technology. This is mainly due to the difficulty in constructing devices capable of carrying out this task in the in-shoe environment. The aim of this paper is to describe the development and characteristics of a miniature triaxial transducer measuring 10 x 10 x 2.7 mm and a weight of only 2 g. This transducer is capable of simultaneously measuring three orthogonal forces under any location of the plantar surface of the foot utilizing a single element piezoelectric copolymer P(VDF-TrFE). Transducer sensitivity, linearity, hysteresis, cross-talk and temperature dependence is presented. As well as in-shoe force measurement, this triaxial transducer could have other biomedical and general engineering applications, e.g., prosthetic interface forces, handgrip forces, sport, robotics, etc.

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A novel tri-axial force transducer for in-shoe and other biomechanical applications

Razian¹,

Pepper²

1998

Journal of Biomechanics

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Effect of Dynamic Features on Diagnostic Testing for Dyspraxia

Razian

Fairhurst

Hoque

2004

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Modulating Population Granularity for Improved Diagnosis of Developmental Dyspraxia from Dynamic Drawing Analysis

Hoque

Fairhurst

Razian

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In this paper, we describe a diagnostic tool f o r automated assessment of developmental dyspraxia among children using Beery's VMI test drawings. Various attributes extracted from the dynamic pen movements are used for this assessment. The test environment is exactly the same as that used in conventional tests, except that the test population is partitioned into several age-bands. The population granularity significantly improved the diagnostic accuracy and also revealed interesting results despite limited data availability.

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Towards Universal Access Through Automated Assessment of Defined Clinical Populations

Fairhurst

Hoque

Razian

2004

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M.A. Razian

Design, development, and characteristics of an in-shoe triaxial pressure measurement transducer utilizing a single element of piezoelectric copolymer film

A novel tri-axial force transducer for in-shoe and other biomechanical applications

Effect of Dynamic Features on Diagnostic Testing for Dyspraxia

Modulating Population Granularity for Improved Diagnosis of Developmental Dyspraxia from Dynamic Drawing Analysis

Towards Universal Access Through Automated Assessment of Defined Clinical Populations

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