Organizer: | Daniel BD Rubin (Deactivated) , Yulia Sandamirskaya (Deactivated) |
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Format: Guest speaker and final round table with speakers and audience | |
Session recording | |
(Guest highlight speaker) Christoph Guger, g. tech medical engineering GmbH, Schleidberg, Austria Current and future applications of brain-computer interfaces Brain-computer interfaces are extracting information in real-time from the human brain. The work with non-invasive or invasive sensors and can be used for many applications: brain assessment for patients with disorders of consciousness, rehabilitation of upper and lower limbs of stroke patients, communication interface for locked-in patients, treatment of Parkinson with deep brain stimulation and many more. | |
Margherita Ronchini (presenter), Hai Au Huynh, Milad Zamani, Hooman Farkhani, and Farshad Moradi, Electrical and Computer Engineering Dept., Aarhus University, Denmark Towards an implantable Neuromorphic Computing System for online seizure detection | |
Sliman Bensmaia, Department of Organismal Biology and Anatomy, Chicago U Biomimetic artificial touch: Speaking the language of the brain to write-in information Our ability to manipulate objects dexterously relies critically on sensory signals from the hand. Accordingly, to restore motor function with bionic limbs requires that somatosensory feedback be provided to the tetraplegic patient or amputee. Given the complexity of upper limb behavior, we seek to minimize the need of the user to learn associations between events impinging upon the limb and arbitrary sensations. To this end, we develop approaches to intuitively convey sensory information by leveraging what we know about how this information is encoded in the somatosensory system of able bodied individuals. We shot that biomimetic sensory feedback leads to improved manual dexterity compared to its non-biomimetic counterpart. | |
Mike Ambinder,Valve Corp. Brain-Computer Interfaces: One Possible Future For How We Play | |
Discussion Panel - Question sketches | •How suitable are neuromorphic computing paradigms and analytical techniques for gaming applications? •How close we are to really making neuromorphic tech chronically implantable? |
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