K. Elrayes scite author profile

K. Elrayes

4Publications

20Citation Statements Received

13Citation Statements Given

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Sensing Construction Work-Related Musculoskeletal Disorders (WMSDs)

Alwasel¹,

Elrayes²,

Abdel‐Rahman³

et al. 2011

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Much of the developed world's construction workforce is increasing in average age, and yet construction workers typically retire well before they reach the age of sixty. One reason is that their bodies are worn out because of the nature of the work. We therefore face the challenge of both reducing their physical stress and increasing their productive work life, if we wish to avert an economic and social crunch given the demographic trends towards an aging population in most developed countries. In particular, recent statistics from the U.S Department of labor show that 6.9% of all Workrelated Musculoskeletal Disorders (WMSDs) among workers in 2008 affected shoulders; this percentage becomes much larger for electricians, carpenters, and related construction crafts. The cost to our industry and to society is huge, and it is unnecessary. Reduction of certain types of movements and improvements in posture can result in reduced rates of shoulder WMSDs and in extended work lives. This can be done with a combination of robotics, work re-design, and work monitoring.This paper provides the statistical background and economic analysis that supports the scope of the problem, presents background on the kinematics of shoulder movement, and explains the biomechanics and causes of shoulder injuries. Then, preliminary results are presented for a prototype of a simple, low-cost, sensing solution for automatically monitoring undesirable movements and patterns of motion. It is expected that this could be broadly implemented to help reduce Construction Work-related Musculoskeletal Disorders (WMSDs).

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A Human Body Posture Sensor for Monitoring and Diagnosing MSD Risk Factors

Alwasel

Elrayes²,

Abdel‐Rahman³

et al. 2013

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Musculoskeletal disorders (MSDs) threaten the wellbeing and livelihood of a large number of construction workers incurring a significant cost to society. We present a new method to monitor and diagnose MSD risks in the workplace. The sensing unit of the system is an optical encoder encompassed within a non-intrusive exoskeleton to measure the joint angle of interest. This sensor can be applied to ball-and-socket and hinge-type joints of the human body, such as the shoulder, elbow, and knee joints. The system is contactless and does not require markers or cameras. Angle measurements are acquired directly without mathematical post-processing, thereby avoiding numerical noise and drift challenges. The system is a simple, robust, and deployable, but it currently lacks resolution of parallel degrees of freedom.

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Reducing shoulder injuries among construction workers

Alwasel¹,

Elrayes²,

Abdel‐Rahman³

et al. 2012

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Full paper: Reducing shoulder injuries among construction workers

Alwasel¹,

Elrayes²,

Abdel‐Rahman³

et al. 2012

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K. Elrayes

Sensing Construction Work-Related Musculoskeletal Disorders (WMSDs)

A Human Body Posture Sensor for Monitoring and Diagnosing MSD Risk Factors

Reducing shoulder injuries among construction workers

Full paper: Reducing shoulder injuries among construction workers

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