Rüdiger Rupp scite author profile

In recent years, new research has brought the field of electroencephalogram (EEG)-based brain–computer interfacing (BCI) out of its infancy and into a phase of relative maturity through many demonstrated prototypes such as brain-controlled wheelchairs, keyboards, and computer games. With this proof-of-concept phase in the past, the time is now ripe to focus on the development of practical BCI technologies that can be brought out of the lab and into real-world applications. In particular, we focus on the prospect of improving the lives of countless disabled individuals through a combination of BCI technology with existing assistive technologies (AT). In pursuit of more practical BCIs for use outside of the lab, in this paper, we identify four application areas where disabled individuals could greatly benefit from advancements in BCI technology, namely, “Communication and Control”, “Motor Substitution”, “Entertainment”, and “Motor Recovery”. We review the current state of the art and possible future developments, while discussing the main research issues in these four areas. In particular, we expect the most progress in the development of technologies such as hybrid BCI architectures, user–machine adaptation algorithms, the exploitation of users’ mental states for BCI reliability and confidence measures, the incorporation of principles in human–computer interaction (HCI) to improve BCI usability, and the development of novel BCI technology including better EEG devices.

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‘Thought’ – control of functional electrical stimulation to restore hand grasp in a patient with tetraplegia

Pfurtscheller

Müller

Pfurtscheller³

et al. 2003

Neuroscience Letters

470

258

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EEG-based neuroprosthesis control: A step towards clinical practice

Müller-Putz

Scherer

Pfurtscheller

et al. 2005

Neuroscience Letters

402

239

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Proceedings of the first workshop on Peripheral Machine Interfaces: going beyond traditional surface electromyography

et al. 2014

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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 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.

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Hybrid brain–computer interfaces and hybrid neuroprostheses for restoration of upper limb functions in individuals with high-level spinal cord injury

Rohm

Schneiders

Müller

et al. 2013

Artificial Intelligence in Medicine

161

140

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One year of home-based daily FES in complete lower motor neuron paraplegia: recovery of tetanic contractility drives the structural improvements of denervated muscle

Kern

Carraro

Adami

et al. 2010

Neurological Research

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Event-related beta EEG changes during wrist movements induced by functional electrical stimulation of forearm muscles in man

Müller

Neuper

Rupp

et al. 2003

Neuroscience Letters

133

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International Standards for Neurological Classification of Spinal Cord Injury

Rupp¹,

Biering‐Sørensen²,

Burns³

et al. 2021

137

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Rüdiger Rupp

Combining brain-computer interfaces and assistive technologies: state-of-the-art and challenges

‘Thought’ – control of functional electrical stimulation to restore hand grasp in a patient with tetraplegia

EEG-based neuroprosthesis control: A step towards clinical practice

Proceedings of the first workshop on Peripheral Machine Interfaces: going beyond traditional surface electromyography

Hybrid brain–computer interfaces and hybrid neuroprostheses for restoration of upper limb functions in individuals with high-level spinal cord injury

One year of home-based daily FES in complete lower motor neuron paraplegia: recovery of tetanic contractility drives the structural improvements of denervated muscle

Event-related beta EEG changes during wrist movements induced by functional electrical stimulation of forearm muscles in man

International Standards for Neurological Classification of Spinal Cord Injury

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