Ergonomic Design Process of the Shape of a Diagnostic Ultrasound Probe

The paper presents an innovative system for aiding ergonomic design of work spaces. Aiding is realised with the use of augmented reality techniques which allow to move the design process from a flat surface of a computer’s monitor to a real space around the designer.

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Ergonomic Design Process of Minimally Invasive Surgery Instrument hand-held manipulator with kinematic, psychologic analysis

2019 16th International Conference on Ubiquitous Robots (UR) ◽

10.1109/urai.2019.8768653 ◽

2019 ◽

Author(s):

Hyung-Taeg Han ◽

Seong-il Kwon ◽

Chunwoo Kim

Keyword(s):

Minimally Invasive Surgery ◽

Minimally Invasive ◽

Design Process ◽

Invasive Surgery ◽

Ergonomic Design

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Minimum Torque Placement of a Kinematic Structure

Volume 2A: 27th Design Automation Conference ◽

10.1115/detc2001/dac-21014 ◽

2001 ◽

Author(s):

Wei Yu ◽

Jingzhou Yang ◽

Karim Abdel-Malek

Keyword(s):

Design Process ◽

Infinite Number ◽

Significant Contribution ◽

Optimization Methods ◽

Working Environment ◽

Kinematic Structure ◽

Ergonomic Design ◽

Number Of Solutions ◽

The Given ◽

Minimum Torque

Abstract A general formulation for calculating where a kinematic structure must be positioned (and oriented) is presented. This study is applicable to both humans; to place a human in a working environment while minimizing stress on extremity joints, or for robot manipulators. In recent years, there has been focused interest on ergonomics and ergonomic design with emphasis on the disposition of a worker while performing tasks at prolonged periods of time and where repetitive motions are exerted. To a great extent, the effect of stress on a joint is major factor leading to potential injuries. We believe there is a unique opportunity for the mechanical engineering community to make a significant contribution to this field. Furthermore, because the ergonomic design process encompasses many parameters, it is evident that it must be formulated using optimization methods where the best possible solution is calculated from an infinite number of solutions. This study presents a rigorous formulation for placement of a worker based on minimizing the torque (as a cost function) induced at a joint, whereby satisfying constraints imposed by the given task. The reverse of this problem is the calculation of the coordinates of a number of target points in the reachable space of a fixed kinematic structure, which is also addressed. Both problems are mathematically formulated and numerically solved. Examples are illustrated.

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Including Ergonomics in the Design Process to Address the Risks of Slips, Trips and Falls: Methodology and Application

Volume 2: Structures, Safety and Reliability ◽

10.1115/omae2008-57362 ◽

2008 ◽

Author(s):

Nicolas Mery ◽

Marc Lassagne ◽

Jonathan McGregor

Keyword(s):

Risk Analysis ◽

Design Process ◽

Design Principles ◽

Ergonomic Design ◽

General Methodology ◽

Offshore Installations ◽

Maritime Industries ◽

The Cost ◽

Classification Society ◽

Fatal Injuries

Much effort has been spent by the offshore and maritime industries in order to improve the safety of the vessels and installations. However, accidents such as Slips, Trips & Falls (STFs) still need to be particularly addressed since their likelihood and severity are often underestimated. According to a study by Jensen et al. [1], they cause more than 40% of non-fatal injuries onboard and a study by the American Club P&I [2] asserts they are responsible for 23% of the cost of claims for illness and injury. The best way to prevent personnel from slipping, tripping and falling is to integrate safety early in the design of the ships or offshore installations. This paper describes the way a classification society has developed guidelines based on ergonomic design principles in order to improve the design of the means of access onboard ships. The outcome of this exercise is to increase the safety of surveyors, seafarers and sea-going personnel who inspect, operate or work aboard the vessels. The methodology we used featured a two step approach: a risk analysis based on feedback from surveyors and other sources was performed; an anthropometric analysis was then used to establish the guidelines. Both exercises are detailed in the paper along with the resulting guidance. We show how this work is a first step towards a more general methodology for the inclusion of ergonomic consideration in the design process.

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