Anuradha Singh scite author profile

Chest wall motion can provide information on critical vital signs, including respiration and heartbeat. Mathematical modelling of chest wall motion can reduce an extensive requirement of human testing in the development of many biomedical applications. In this paper, we propose a mathematical model that simulates a chest wall motion due to cardiorespiratory activity. Chest wall motion due to respiration is simulated based on the optimal chemical–mechanical respiratory control-based mechanics. The theory of relaxation oscillation system is applied to model the motion due to cardiac activity. The proposed mathematical chest wall model can be utilized in designing and optimizing different design parameters for radar-based non-contact vital sign (NCVS) systems.

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International Post Stroke Epilepsy Research Consortium (IPSERC): A consortium to accelerate discoveries in preventing epileptogenesis after stroke

Mishra¹,

Engel²,

Liebeskind³

et al. 2022

Epilepsy & Behavior

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Using Android platform to detect free fall

Tiwari

Singh²,

Khan

2013

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Anuradha Singh

Sensor Technologies for Fall Detection Systems: A Review

Multi-Resident Non-Contact Vital Sign Monitoring Using Radar: A Review

Modelling of Chest Wall Motion for Cardiorespiratory Activity for Radar-Based NCVS Systems

International Post Stroke Epilepsy Research Consortium (IPSERC): A consortium to accelerate discoveries in preventing epileptogenesis after stroke

Using Android platform to detect free fall

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