Home /Research /Development of a Soft Exosuit for Industrial Applications
OTHER

Development of a Soft Exosuit for Industrial Applications

Yongtae G. Kim, Michele Xiloyannis, Dino Accoto, Lorenzo Masia

Year
2018
Citations
46

Abstract

Wearable robotic devices and exoskeletons, that assist human beings in physically-demanding tasks have the potential to both increase productivity and reduce the risk of musculoskeletal disorders. Soft exoskeletons, known as exosuit, provide improved portability and fit. While many exosuits are populating the market to support light weights, very few are powerful enough to reinforce workers in lifting heavy loads. Adopting the advantages of novel soft-robotic principles, we propose a voice-controlled upper limb exosuit designed to aid its user in lifting up to 10kg per arm. The exosuit uses a wire-driven mechanism to transmit power from a proximally-located actuation stage to the shoulder and elbow. Forces are transmitted to the human body via soft, textile-based components. We evaluate the impact of the device on the muscular effort of a wearer in both a lifting and a holding task. Holding a weight of 14kg with the exosuit results in an average reduction in muscular effort of the biceps brachii and anterior deltoid of 50% and 68%, respectively. Similarly, lifting a weight of 7kg with the exosuit reduces the muscular activity of the same two muscles by 23.4% and 41.2%, respectively.

Keywords

Powered exoskeletonExoskeletonWearable computerComputer scienceBicepsDeltoid curveSimulationPhysical medicine and rehabilitationMedicineEmbedded system

Related papers

Browse all OTHER papers