Brain Computer Interfaces, more commonly known as BCIs, are the building blocks for all robotic assistive aids. It is by using BCIs that the robotic assistive aids can know and… Read more
Cybathlon
On 8th October 2016, the world’s first Cybathlon took place in Zurich, Switzerland. The Cybathlon is a competition for people with disabilities using robotic assistive aids to complete tasks… Read more
Cybathlon 2020
The executive board of ETH Zurich has officially announced that Cybathlon will take place 2020 in Zurich! Also, discover the Cybathlon set of stamps issued by Sierra Leone & find out which Cybathlon image was selected as part of the BBC’s most striking photos of 2016.
Cybathlon 2020 announced
09.02.17 – In today’s press conference with the executive board of ETH Zurich an official announcement was made: The Cybathlon will take place once again in Zurich in 2020 – organised by ETH ZurichBehind the scenes, planning for the next Cybathlon has been taking place since the successful premiere in October last year. The success …
Open Postdoc positions
07.12.16 – We are looking for two Postdocs in soft wearable robotics.*****Postdoc in Soft Wearable Robotics: Kinetic / Haptic feedback The EPFL Laboratory of Intelligent Systems (Prof. Dario Floreano, http://lis.epfl.ch) and the EPFL Translational Neural Engineering Lab (Prof. Silvestro Micera, http:// tne.epfl.ch) invite applications for a postdoctoral fellowship in wearable technologies for human-robot interaction. The postdoc will work …
Intento win 130k at Venture Kick
30.11.16 – Congratulations to our spin fund winners Intento, who have won 130k CHF at Venture Kick. Read more.
Past Events
| Date/Time | Event | Description |
|---|---|---|
|
15 Jun – 16 Jun 2017 All Day |
Building Bodies for Brains & Brains for Bodies & 3rd Japan-EU Workshop on Neurorobotics
Geneva, Geneva |
Building Bodies for Brains & Brains for Bodies & 3rd Japan-EU Workshop on Neurorobotics Registration for both events now open. |
|
9 Oct – 12 Oct 2016 All Day |
WORKSHOP ON BRAIN-MACHINE INTERFACES (SMC 2016)
Intercontinental Hotel, BUDAPEST, 1052 Budapest |
Please see: https://documents.epfl.ch/users/c/ch/chavarri/www/IEEESMC2016_BMI/BMI-IEEESMC2016.html |
Telepresence robots can give people with disabilities the feeling of being home
Posted on: June 23, 2015
A dual-therapy approach to boost motor recovery after a stroke
Publication date: June 20, 2018
Published in: Science Daily
Dual-therapy approach can help boost motor recovery in stroke victims
Publication date: June 20, 2018
Published in: News Medical
Novel approach to boost motor recovery after a stroke
Publication date: June 20, 2018
Published in: TECH EXPLORIST
Double thérapie pour booster la mobilité à la suite d’un AVC
Publication date: June 20, 2018
Published in: RJB (Radio Jura Bernois)
Double thérapie pour booster la mobilité à la suite d’un AVC
Publication date: June 20, 2018
Published in: swissinfo.ch
Humans and machines learn together to win a competition
Publication date: May 14, 2018
Published in: myscience.org
Brain-computer interface based on mutual learning helps tetraplegics in avatar race
Publication date: May 10, 2018
Published in: Medicine News Line
How We Won Gold in the Cyborg Olympics’ Brain Race
Publication date: August 30, 2017
Published in: IEEE Spectrum
Elastic Interfaces for Your Body- SXSW 2017
Publication date: April 27, 2017
One Small Step for a Paraplegic, One Big Step Toward Reversing Paralysis
Publication date: March 14, 2017
Published in: IEEE Spectrum
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A Brain-Controlled Exoskeleton with Cascaded Event-Related Desynchronization Classifiers
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This paper describes a brain-machine interface for the online control of a powered lower-limb exoskeleton based on electroencephalogram (EEG) signals recorded over the user’s sensorimotor cortical areas. We train a binary decoder that can distinguish two different mental states, which is applied in a cascaded manner to efficiently control the exoskeleton in three different directions: walk front, turn left and turn right. This is realized by first classifying the user’s intention to walk front or change the direction. If the user decides to change the direction, a subsequent classification is performed to decide turn left or right. The user’s mental command is conditionally executed considering the possibility of obstacle collision. All five subjects were able to successfully complete the 3-way navigation task using brain signals while mounted in the exoskeleton. We observed on average 10.2% decrease in overall task completion time compared to the baseline protocol.
Posted on: August 31, 2016
Heading for new shores! Overcoming pitfalls in BCI design
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Research in brain-computer interfaces has achieved impressive progress towards implementing assistive technologies for restoration or substitution of lost motor capabilities, as well as supporting technologies for able-bodied subjects. Notwithstanding this progress, effective translation of these interfaces from proof-of concept prototypes into reliable applications remains elusive. As a matter of fact, most of the current BCI systems cannot be used independently for long periods of time by their intended end-users. Multiple factors that impair achieving this goal have already been identified. However, it is not clear how do they affect the overall BCI performance or how they should be tackled. This is worsened by the publication bias where only positive results are disseminated, preventing the research community from learning from its errors. This paper is the result of a workshop held at the 6th International BCI meeting in Asilomar. We summarize here the discussion on concrete research avenues and guidelines that may help overcoming common pitfalls and make BCIs become a useful alternative communication device.
Posted on: December 18, 2016
Keywords: artifacts, BCI, eeg, publication bias, signal processing, user centered design, user training
On the Need for Both Internal and External Context Awareness for Reliable BCIs
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In this paper we argue that for brain-computer interfaces (BCIs) to be used reliably for extended periods of time, they must be able to adapt to the user’s evolving needs. This adaptation should not only be a function of the environmental (external) context, but should also consider the internal context, such as cognitive states and brain signal reliability. We demonstrate two successful approaches to modulating the level of assistance: by using online task performance metrics; and by monitoring the reliability of the BCI decoders. We then describe how these approaches could be fused together, resulting in a more user-centred solution.
Posted on: April 29, 2013