This document provides an overview of brain-computer interfaces (BCI). It begins with introducing BCI and explaining that it allows direct communication between the brain and external devices. It then covers the history of BCI, how it works using EEG signals, different BCI approaches (invasive, partially invasive, non-invasive), and applications like controlling prosthetics. Advantages include direct brain communication, while disadvantages include risks, training requirements, and costs. Examples of future projects are provided like controlling robots and games just by thinking. In conclusion, BCI allows thought-based control of devices and has many potential future applications.
2. 1) INTRODUCTION
2) BCI MODEL
3) PRINCIPAL OF BCI
4) HISTORY
5) HOW DOES IT WORK?
6) WHAT IS AN EEG?
7) BCI RESEARCHES
8) BCI APPROACHES
9) APPLICATIONS
10) ADVANTAGES
11) DISADVANTAGES
12) PROJECTS& FUTURE
13) CONCLUSION
14) REFERENCES
3. It is the study of brain functions.
A collaboration in which a brain accepts and controls a
mechanical device.
Direct communication pathway between a brain and an
external device.
Thus BCI extracts electro-physical signals from suitable
components of the brain and process them to generate
control signals for computers, robotic machines or
communication devices.
6. (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.
7. HANS BERGER was the one, completely
involved in this Brain-Computer Interface(BCI),
also called as Mind-Machine Interface’s(MMI)
invention
In 1924, he was the first to record human brain
activity by means of EEG
11MCA007 7
8.
9. EEG IS MEASUREMENT OF
ELECTRICAL ACTIVITY
PRODUCED BY BRAIN AS
RECORDED FROM
ELECTRODES PLACED ON THE
SCALP.
EEG?
10.
11. Invasive Brain Computer Interfaces
-implanted directly into the brain and has the highest
quality signals.
-provide functionality to paralyzed people.
Partially Invasive Brain Computer Interfaces
-implanted inside the skull but outside the brain.
Non Invasive Brain Computer Interfaces
-gives a patient the ability to move muscle
implants and restore partial movement.
22. 1. DIRECT
COMMUNICATION
between human brain
and computers.
2. Better LIVING, more
FEATURES, more
ADVANCEMENT in
technologies etc.
3. New work area for
scientists and researches
around the world.
4. LOW BANDWIDTH.
23. 1. Virus attacks may
occur to brain
causing ill effects.
2. Requires extensive
training.
3. BCI techniques are
costly.
4. Slow speed.
24. FUTURE
WORKS
o BRAIN GATE
o HONDA ASIMO
CONTROL
o GAMING CONTROL
o BIONIC EYE
o Improving physical
methods for gathering
EEGs.
o Improving
generalization.
o Improving knowledge of
how to interpret waves.
25. T he sensor, which is implanted into
the brain, monitors brain activity in the
patient and converts the intention of the
user into computer commands.
26. Researchers have developed an
interface for Honda's Asimo
robot that allows individuals to
control it simply by thinking.
27. Gaming control using a wearable and wireless EEG-based
brain-computer interface device with novel dry foam-
based sensors.
28. 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
30. Newly purchased computers will one day
arrive with biological signal sensors and
thought-recognition software built in, just
as keyboard and mouse are commonly
found on today's units.