An optimization-based method for layout design (also called equipment layout) is presented that is based upon kinetic functions also introduced in this paper. The layout problem is defined by the method whereby positions of target points are specified in the environment surrounding a human. The problem is of importance to ergonomists, vehicle/cockpit packaging engineers, designers of manufacturing assembly lines, and designers concerned with the placement of lever, knobs, and controls in the reachable workspace of a human, but also to users of digital human modeling code, where digital prototyping has become a valuable tool. The method comprises kinematically-driven constraints for reaching the target points and for satisfying the joint ranges of motion. The algorithm is driven by a cost function (also called objective function) that is kinetic in nature to minimize approximate energy consumption and visual discomfort. The formulation is not restricted by the number of degrees of freedom used to model the upper extremity or by the number of target points. A commercially available optimization code is used to implement the algorithm and to yield global optimum solutions. The method is demonstrated using a 15 degree-of-freedom model of the upper extremity. It is indeed shown that this method yields the most comfortable regions in space for a particular anthropometric model and for one or more cost function(s).


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    Title :

    Layout Design using an Optimization-Based Human Energy Consumption Formulation


    Additional title:

    Sae Technical Papers


    Contributors:
    Kim, Joo H. (author) / Abdel-Malek, Karim (author) / Nebel, Kyle (author) / Mi, Zan (author)

    Conference:

    Digital Human Modeling for Design and Engineering Symposium ; 2004



    Publication date :

    2004-06-15




    Type of media :

    Conference paper


    Type of material :

    Print


    Language :

    English




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