brain computer interface presenter : jaideo chaudhari cs575:human issues in computing instructor:...
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Brain Computer Interface
Presenter : Jaideo ChaudhariCS575:Human Issues in Computing
Instructor: Dr. B. Rao
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BCI Outline
BCI Concept: rebuilding instead of repairing
BCI overview: actions from thoughts
BCI Story: from fiction to reality
BCI apps: Silent Talk
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BCI Concept: direct communication pathway between a
brain and an external device. Often aimed at assisting, augmenting or
repairing human cognitive or sensory-motor functions.
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BCI motivation: In USA, more than 200,000 patients live with the motor
sequelae (consequences) of serious injury. There are two ways to help them restore some motor function:
• Repair the damaged nerve axons
• Build neuroprosthetic device
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BCI Principle:
(a) In healthy subjects, primary motor area sends movement commands to muscles via spinal cord.
(b) But in paralyzed people this pathway is interrupted.(c) A Computer based decoder is used, which translates
this activity into commands for muscle control.
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BCI versus neuroprosthetics: Neuroprosthetics:
uses artificial devices to replace the function of impaired nervous systems or sensory organs.
connect the nervous system to a device E.g. cochlear implants, retinal implants.
BCI: connect the brain (or central nervous system) with
a computer system. E.g. EEG,
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Working of BCI: Every time we think, move,
feel or remember something,
our neurons are at work.
That work is carried out by
small electric signals that
zip from neuron to neuron as
fast as 250 mph some of the electric signal
escapes, which can be detected,
interpret and use them to direct
a device of some kind.
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BCI Input and Output: f
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Monkey thinks, Robot does! Experiments with monkey operating a robotic arm with
its mind at the Pittsburgh University Medical Center
http://www.makeahistory.com/index.php/your-details/222-the-worlds-first-commercial-brain-computer-interface-
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Ratbot! Reverse BCI
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BCI System:
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BCI System: Non-Invasive BCI Non-Invasive BCIs:
easy to wear produce poor signal resolution
because the skull dampens signals Signals recorded in this way have
been used to power muscle implants and restore partial movement
E.g. EEG.
http://www.youtube.com/watch?v=G0cz-q1g6go&feature=player_embedded
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BCI System: Partially-Invasive BCI Electrocorticography (ECoG) is a very promising
intermediate BCI modality. higher spatial resolution, better signal-to-noise ratio, wider frequency range
first trialed on humans in 2004 on a teenage boy suffering from epilepsy to play Space Invaders.
http://www.braingate2.org/systemOverview.html
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BCI System: Invasive BCI Dobelle implant "had permitted him to
see rough images of large objects BCI containing 68 electrodes was
implanted onto Jen’s brain and
succeeded in producing phosphenes Initially, allowed Jen to see shades of
grey in a limited field of vision at a low
frame-rate. able to use his imperfectly restored
vision to drive slowly Cost indication: $125,000
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Human BCI Research: sighted person: image resolution of some 32 by
32 pixels Image resolution of the brain implant:
In 2002 resolution of 144 pixels In 2003, 250 pixels i.e. 15 by 16 pixel matrix Now its around 625 pixels.
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Cell-culture BCIs: Aim of the experiment:
to study how brain cells function as a network and to learn more about one of the most complex devices in the known universe: the human brain.
to find out exactly how the neurons do what they do and extract those rules and apply them in software or hardware for novel types of computing
By watching the brain cells interact, scientists hope to understand what causes neural disorders, such as epilepsy. The research may also help the researchers in their quest to build "living" computers that combine neural and silicon systems.
Computers lack the flexibility and adaptability of the human brain and perform poorly at pattern recognition tasks.
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Cell-culture BCIs: Experiment at Univ. of Florida
25,000 neurons taken from the brain of a rat that are connected to a computer via 60 electrodes.
rapidly began to reconnect themselves to form a living neural network.
To put the experimental brain to the test, it is connected to a jet flight simulator via the electrode grid and a desktop computer.
If you take these cells out of the cortex and you put them into one of these dishes, you remove all of the inputs—sensory systems like vision or hearing—that they would normally have. The only thing that's going on is the spontaneous activity of reconnecting.
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Cell-culture BCIs: Experiment at Univ. of Florida
neurons begin to receive information from the computer about flight conditions
The neurons analyze data from the computer, like whether the plane is flying level or is tilted to one side
Information is sent back and forth creating a feedback system
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Military applications: Pentagon’s mad-science division Darpa to
start program named Silent Talk – synthetic telepathy.
Budget is $4 million. nerve signals are used as the mechanism for
information transfer two major groups - passive and active
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Simulated reality: In the futuristic vision of movies like The Matrix
and Avatar, humans dive into a virtual world by connecting their brains directly to a computer……
Simulation hypothesis – are we living in a simulated reality?
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Simulated reality: In the futuristic vision of movies like The Matrix
and Avatar, humans dive into a virtual world by connecting their brains directly to a computer……
Simulation hypothesis – are we living in a simulated reality?1. It is possible that an advanced civilization could create a
computer simulation which contains individuals with AI.2. Such a civilization would likely run many, billions for
example, of these simulations (just for fun, for research or any other permutation of possible reasons.)
3. A simulated individual inside the simulation wouldn’t necessarily know that it is inside a simulation — it is just going about its daily business in what it considers to be the "real world."
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Simulated reality: Then the ultimate question is — if one accepts
that the above premises are at least possible— which of the following is more likely? We are the one civilization which develops AI
simulations and happens not to be in one itself? We are one of the many (billions) of simulations
that has run?(Remember point 3!)
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Commercialization and companies: Ciberkinetics Honda Neural Signals Starlab NASA
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BCI Challenges: The brain is incredibly complex. There are chemical processes involved as
well. The signal is weak and prone to interference
i.e. reading brain signals is like listening to a bad phone connection. There's lots of static.
The equipment is less than portable.
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BCI video In this short talk, Dr. Shenoy describes how his
team of Stanford researchers has built a system that achieves typing at 15 words-per-minute, just by "thinking about it".
http://www.youtube.com/watch?v=I7lmJe_EXEU&feature=related