CONTENT
Introduction
Principal behind BCI
How BCI works
Types of BCI
Application of BCI
Advantages
conclusion
INTRODUCTION
• Brain Computer Interface is a direct technological interface between a
brain & a computer system not requires a motor output from the
user.
• It is abbreviated as BCI.
• It is also known as Direct Neural Interface (DNI) & Brain – Machine
Interface (BMI).
CONTINUED..
• Brain-computer interface is an
electrode chip which can be implemented
in the brain through surgical procedure.
• When it is implemented in brain the
electrical signal exchanged by neurons
within the brain are sent to the computer
and then the computer is controlled by
person.
PRINCIPAL BEHIND BCI
This technology is based on to sense, transmit, analyze
and apply the language of neurons.
It consist of a sensor that is implanted in the motor cortex
of the brain and a device that analyses brain signals. The
signals generated by brain are interpreted and translated
into cursor movement on computer screen to control the
computer.
It consists of a silicon array about the size of an contact
lens that contains about 100 electrodes each thinner than
a human hair.
CONTINUE.
• This is how the brain-to-brain system works. The BCI reads the
sender’s thoughts — in this case, the sender thinks about moving his
or her hands or feet.
• Thinking about feet is equivalent to binary 0, while hands is binary 1.
• With a little time/effort, whole words can be encoded as a stream of
ones and zeroes.
• These encoded words are then transmitted (via the internet or some
other network) to the recipient, who is wearing a transcranial
magnetic stimulation (TMS). The TMS is focused on the recipient’s
visual cortex.
CONTINUE.
• When the TMS receives a “1″ from the sender, it stimulates a region in
the visual cortex that produces a phosphine — the phenomenon
whereby you see flashes of light, without light actually hitting your
retina (when you rub your eyes, for example).
• The recipient “sees” these phosphine at the bottom of their visual
field. By decoding the flashes — phosphine flash = 1, no phosphine = 0
— the recipient can “read” the word being sent.
TYPES OF BCI
Invasive BCI
Invasive BCIs are implanted
directly into the grey matter of
the brain during neurosurgery.
Non Invasive BCI
Non-Invasive BCIs do not
involve neurosurgery. They are
just like wearable virtual reality
devices.
APPLICATION OF BCI
One of the most exciting areas of BCI research is the development of
devices that can be controlled by thoughts.
For a quadriplegic, something as basic as controlling a computer cursor
via mental commands would represent a revolutionary improvement in
quality of life.
Some of the applications of this technology are also frivolous, such as the
ability to control a video game by thought , ability to change TV channels
with your mind etc.
PROJECTS
Brain gate
The sensor, which is
implanted into the brain,
monitors brain activity in the
patient and converts the
intention of the user into
computer commands.
Honda Asimov
Researchers have developed
an interface for
Honda's Asimov robot that
allows individuals to control
it simply by thinking.
Gaming control
Gaming control using a wearable
and wireless EEG-based brain-
computer interface device with
novel dry foam-based sensors.
Bionic eye
A visual prosthesis, often referred
to as a bionic eye, is an
experimental visual device
intended to restore functional
vision in those suffering from
partial or total blindness
ADVANTAGES
• Allow paralyzed people to control prosthetic limbs with their mind
• Transmit visual images to the mind of a blind person, allowing them
to see
• Transmit auditory data to the mind of a deaf person, allowing them to
Hear
• Allow gamers to control video games with their minds
• Allow a mute person to have their thoughts displayed and spoken by a
computer
CONCLUSION
• A potential therapeutic tool.
• BCI is an advancing technology promising paradigm shift in areaslike Machine Control, Human Enhancement, Virtual reality andetc. So, it’s potentially high impact technology.
• Several potential applications of BCI hold promise forrehabilitation and improving performance, such as treatingemotional disorders (for example, depression or anxiety), easingchronic pain, and overcoming movement disabilities
due to stroke.
• Will enable us to achieve singularity very soon.
• Intense R&D in future to attain intuitive efficiency