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Human motor augmentation with an extra robotic arm without functional interference

Giulia Dominijanni, Daniel J. L. L. Pinheiro, Leonardo Pollina, Bastien Orset, Martina Gini, Eugenio Anselmino, Camilla Pierella, Jérémy Olivier, Solaiman Shokur, Silvestro Micera

发表年份
2023
引用次数
27

摘要

Extra robotic arms (XRAs) are gaining interest in neuroscience and robotics, offering potential tools for daily activities. However, this compelling opportunity poses new challenges for sensorimotor control strategies and human-machine interfaces (HMIs). A key unsolved challenge is allowing users to proficiently control XRAs without hindering their existing functions. To address this, we propose a pipeline to identify suitable HMIs given a defined task to accomplish with the XRA. Following such a scheme, we assessed a multimodal motor HMI based on gaze detection and diaphragmatic respiration in a purposely designed modular neurorobotic platform integrating virtual reality and a bilateral upper limb exoskeleton. Our results show that the proposed HMI does not interfere with speaking or visual exploration and that it can be used to control an extra virtual arm independently from the biological ones or in coordination with them. Participants showed significant improvements in performance with daily training and retention of learning, with no further improvements when artificial haptic feedback was provided. As a final proof of concept, naïve and experienced participants used a simplified version of the HMI to control a wearable XRA. Our analysis indicates how the presented HMI can be effectively used to control XRAs. The observation that experienced users achieved a success rate 22.2% higher than that of naïve users, combined with the result that naïve users showed average success rates of 74% when they first engaged with the system, endorses the viability of both the virtual reality-based testing and training and the proposed pipeline.

关键词

Computer scienceVirtual realityHaptic technologyHuman–computer interactionTask (project management)Modular designWearable computerPipeline (software)Artificial intelligenceControl (management)

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