论文信息 - Towards Design Guidelines for Physical Interfaces on Industrial Exoskeletons: Overview on Evaluation Metrics

Towards Design Guidelines for Physical Interfaces on Industrial Exoskeletons: Overview on Evaluation Metrics

On exoskeletons, physical interfaces with the body are one of the key enabling component to promote user acceptance, comfort and force transmission efficiency. A structured design workflow is needed for any application-driven product, such as industrial exoskeletons. In this paper, we review objective and subjective evaluation metrics that can be applied to physical interfaces. These indexes can be evaluated to create an ordered list of requirements to guide their future design. Pressure magnitude, duration, distribution, direction and time to don and doff are relevant objective indexes related to interfaces. Pain, comfort and ease of operation are subjective indexes. We propose that collecting a suitable set of metrics will lay the foundation for effective design guideline for industrial exoskeletons.

[1] M. de Looze,et al. Assessment of an active industrial exoskeleton to aid dynamic lifting and lowering manual handling tasks. , 2018, Applied Ergonomics.

[2] Marcel P Dijkers,et al. Framework for Assessment of the Usability of Lower-Extremity Robotic Exoskeletal Orthoses , 2015, American journal of physical medicine & rehabilitation.

[3] Valerie Power,et al. Computerized Cuff Pressure Algometry as Guidance for Circumferential Tissue Compression for Wearable Soft Robotic Applications: A Systematic Review. , 2017, Soft robotics.

[4] Scott Pardoel,et al. Experimental comfort assessment of an active exoskeleton interface , 2017, 2017 IEEE International Symposium on Robotics and Intelligent Sensors (IRIS).

[5] Conor Walsh,et al. Physical interface dynamics alter how robotic exosuits augment human movement: implications for optimizing wearable assistive devices , 2017, Journal of NeuroEngineering and Rehabilitation.

[6] Frans C. T. van der Helm,et al. Influence of attachment pressure and kinematic configuration on pHRI with wearable robots , 2009 .

[7] Frank Krause,et al. Exoskeletons for industrial application and their potential effects on physical work load , 2016, Ergonomics.