Matching Items (2)
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Description

Assistive and rehabilitation devices are a promising and challenging field of recent robotics research. Motivated by societal needs such as aging populations, such devices can support motor functionality and subject training. The design, control, sensing, and assessment of the devices become more sophisticated due to a human in the loop.

Assistive and rehabilitation devices are a promising and challenging field of recent robotics research. Motivated by societal needs such as aging populations, such devices can support motor functionality and subject training. The design, control, sensing, and assessment of the devices become more sophisticated due to a human in the loop. This paper gives a human-robot interaction perspective on current issues and opportunities in the field. On the topic of control and machine learning, approaches that support but do not distract subjects are reviewed. Options to provide sensory user feedback that are currently missing from robotic devices are outlined. Parallels between device acceptance and affective computing are made. Furthermore, requirements for functional assessment protocols that relate to real-world tasks are discussed. In all topic areas, the design of human-oriented frameworks and methods is dominated by challenges related to the close interaction between the human and robotic device. This paper discusses the aforementioned aspects in order to open up new perspectives for future robotic solutions.

ContributorsBeckerle, Philipp (Author) / Salvietti, Gionata (Author) / Unal, Ramazan (Author) / Prattichizzo, Domenico (Author) / Rossi, Simone (Author) / Castellini, Claudio (Author) / Hirche, Sandra (Author) / Endo, Satoshi (Author) / Ben Amor, Hani (Author) / Ciocarlie, Matei (Author) / Mastrogiovanni, Fulvio (Author) / Argall, Brenna D. (Author) / Bianchi, Matteo (Author) / Ira A. Fulton Schools of Engineering (Contributor)
Created2017-05-23
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One of the hottest topics in rehabilitation robotics is that of proper control of prosthetic devices. Despite decades of research, the state of the art is dramatically behind the expectations. To shed light on this issue, in June, 2013 the first international workshop on Present and future of non-invasive peripheral

One of the hottest topics in rehabilitation robotics is that of proper control of prosthetic devices. Despite decades of research, the state of the art is dramatically behind the expectations. To shed light on this issue, in June, 2013 the first international workshop on Present and future of non-invasive peripheral nervous system (PNS)–Machine Interfaces (MI; PMI) was convened, hosted by the International Conference on Rehabilitation Robotics. The keyword PMI has been selected to denote human–machine interfaces targeted at the limb-deficient, mainly upper-limb amputees, dealing with signals gathered from the PNS in a non-invasive way, that is, from the surface of the residuum. The workshop was intended to provide an overview of the state of the art and future perspectives of such interfaces; this paper represents is a collection of opinions expressed by each and every researcher/group involved in it.

ContributorsCastellini, Claudio (Author) / Artemiadis, Panagiotis (Author) / Wininger, Michael (Author) / Ajoudani, Arash (Author) / Alimusaj, Merkur (Author) / Bicchi, Antonio (Author) / Caputo, Barbara (Author) / Craelius, William (Author) / Dosen, Strahinja (Author) / Englehart, Kevin (Author) / Farina, Dario (Author) / Gijsberts, Arjan (Author) / Godfrey, Sasha B. (Author) / Hargrove, Levi (Author) / Ison, Mark (Author) / Kuiken, Todd (Author) / Markovic, Marko (Author) / Pilarski, Patrick M. (Author) / Rupp, Ruediger (Author) / Scheme, Erik (Author) / Ira A. Fulton Schools of Engineering (Contributor)
Created2014-08-15