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Virtual Dictionary
Neural Interface Device A Neural Interface Device or NID is defined as any device that enables BMI (Brain Machine Interface). It is the actual device that connects the two computational systems ? one in silico, one wetware, together. Below, we offer a selection of links from our resource databases which may match this term.
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in our database matching the Term Neural Interface Device:
Results by page [1] [2] [3] [4] [5] [6] [7] [8] [9] [10] [11] [12] [13] [14] [15] [16] Japanese researchers have created the very first, incredibly crude, neural-jack interface, a distant ancestor of those seen in cyberpunk and the Matrix films, but of the same lineage all the same. An in-depth technical look at the neural-controlled weapon in Sol Bianca. How it would actually function, and the basics of how we would go about recreating it in functional form, from technology available today. Researchers at the University of South Florida have developed a wheelchair-mounted robotic arm, which is capable of interfacing with the wheelchair user's thoughts via a non-invasive neural interface. Disney Research has come up with a truly novel type of interface device – a way to turn any house plant into a programmable haptic controller, by taking advantage of the capacitive capability of plants. The Inupathy collar is an empathic collar, a brain machine interface for your dog, that visually transmits your dogs emotions in real-time, by reading the dog's heartbeat as a biometric marker for the emotional turmoil going on inside. It learns and adapts to the dog, and offers an insight into your best friend's thought process, to bolster the ones you already have. It's a brain machine interface for the heart. A surprising find from an old anime space opera released in 1999. The main plot and most of the episodes have nothing to do with VR, but this element does. It is by far the most comprehensive and well thought out brain-machine-interface controlled firearm, we have ever come across in any genre of televised fiction. It would actually function as shown, using modern interface technology. In a paradigm where overcoming physical constraints is key, a webcam may seem a very odd VR interface device. However, what lays true for one section of individuals, dows not always lay true for another. The PS2?s EyeToy has done much in the cause of using physical body form as an input device. An excellent, easy-to-follow look at using neural networks to control the movement of AI vehicles (or dragons, or whatever). Includes careful break down of how neural networks work, and carries a gradual learning curve upwards. A look at a different type of Brain Machine Interface: The emerging field of animats, or robots controlled by neural tissue that grows and multiplies between electrode arrays. Neural readers and neurostimulators. You will never encounter two more opposing types of brain prosthesis. It is ironic then, that these two are perhaps the most frequently confused, by the lay-person.
Industry
News containing the Term Neural Interface Device:
Results by page (04/03/2013)
In a significant advance for brain-machine interfaces, engineers at Brown University have developed a novel wireless, broadband, rechargeable, fully implantable brain sensor that has performed well in animal models for more than a year. The...
(05/03/2010)
A paralyzed patient implanted with a brain-computer interface device has allowed University of Chicago scientists to determine the relationship between brain waves and attention. Using a small chip containing nearly 100 micro...
(11/10/2007)
A touch-sensitive gadget with the sensing panel on its back, instead of the screen, is being developed by US researchers. Using your fingers behind the device allows a firmer grip and more accurate performance without obscuring your view of...
(27/09/2005)
Programming Neural Networks in Java will show the intermediate to advanced Java programmer how to create neural networks. This book attempts to teach neural network programming through two mechanisms. First the reader is shown how to create...
(27/07/2007)
By tapping directly into the brain's electrical signals, scientists at John's Hopkins University, in Baltimore, US, are on their way to developing a prosthetic hand more dextrous than ever before. They have demonstrated for the first time...
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