A voice activated bi-articular exosuit for upper limb assistance during lifting tasks

• Published in: Robotics and computer-integrated manufacturing Vol. 66; p. 101995
• Main Authors: Kim, Yongtae G., Little, Kieran, Noronha, Bernardo, Xiloyannis, Michele, Masia, Lorenzo, Accoto, Dino
• Format: Journal Article
• Language: English
• Published: Oxford Elsevier Ltd 01.12.2020; Elsevier BV
• Subjects: Elbow (anatomy); Electromyography; Exosuit; Hand (anatomy); Hand tools; Hoisting; Industrial robotics; Robot control; Robotics; Underactuated Mechanism; Voice control; Voice Recognition; Wearable Robot; BB; AD; HMI; Wearable Robot; Voice Recognition; Exosuit; WMSD; VRM; MA; DoF; MVC; Underactuated Mechanism; Industrial robotics; EMG
• ISSN: 0736-5845; 1879-2537
• DOI: 10.1016/j.rcim.2020.101995

•An exosuit for augmenting upper limb strength during lifting tasks was developed.•A bi-articular, under-actuated mechanism was designed that used locking segments.•A voice recognition module was implemented as a hands-free human-robot interface.•5 subjects performed 3 manual experiments that mimicked industrial tasks.•Muscular activation reduced by 64.7% (biceps brachii) and 43.8% (anterior deltoid). Humans are favoured to conventional robotics for some tasks in industry due to their increased dexterity and fine motor skills, however, performance of these tasks can result in injury to the user at a cost to both the user and the employer. In this paper we describe a lightweight, upper-limb exosuit intended to assist the user during lifting tasks (up to 10kg) and while operating power tools, which are common activities for industrial workers. The exosuit assists elbow and shoulder flexion for both arms and allows for passive movements in the transverse plane. To achieve the design criteria an underactuated mechanism has been developed, where a single motor is used to assist two degrees of freedom per arm. In the intended application, the hands are generally busy and cannot be used to provide inputs to the robot, therefore, a voice-activated control has been developed that allows the user to give voice commands to operate the exosuit. Experiments were performed on 5 healthy subjects to assess the change in Muscular Activation (MA), inferred through Electromyography (EMG) signals, during three tasks: i) lifting and releasing a load; ii) holding a position and iii) manipulating a tool. The results showed that the exosuit is capable of reducing EMG activity (between 24.6% and 64.6%) and the recognition rate (94.8%) of the voice recognition module was evaluated.