brain computer interface
DESCRIPTION
it describe small info. about interconnection between human brain and computer device.TRANSCRIPT
BRAIN COMPUTER INTERFACE
Under guidance of: Prof.Ishani Patel.
CONTENTS
1)INTRODUCTION2) WHY BCI?3) BCI MODEL4) HOW DOES IT WORK?5) PRINCIPLE OF OPERATION6) WHAT IS AN EEG?7) BCI APPROACHES8) APPLICATIONS9) ADVANTAGES10)DISADVANTAGES11)FUTURE WORK12)CONCLUSION
INTRODUCTION
• Brain-computer interface (BCI) is a communication system that recognized user’s command only for his or her brainwaves and reacts according to them.
• A Brain Computer Interface (BCI) is a collaboration in which a brain accepts and controls a mechanical device as a natural part of its representation of the body.
• Computer-brain interfaces are designed to restore sensory function, transmit sensory information to the brain, or stimulate the brain through artificially generated electrical signals.
WHY BCI?????
o BCI is a new neuroscience paradigm that might help us better understand how the human brain works.
o BCI research allows us to develop a new class of bioengineering control devices and robots.
o BCI hold promise for rehabilitation and improving performance.
o BCI can expand possibilities for advanced human computer interfaces (HCIs).
BCI MODEL
HOW DOES IT WORK? (IN BODY PART)
CONTD…
CONTD…
WHAT IS AN EEG??
o The fullform of EEG is an ElectroEncephaloGram.
o As we know that the surface variation distribution on the scalp reflects functional activity emerging from the underlying brain.
o This surface potential variation can be recorded by a fixing a array of electrodes to the scalp, and measuring the voltage b/w pair of this electrodes, which are then filtered, amplified, and recorded.
o At last the resulting data is called EEG.o The use of EEG signals as vector of
communication between men and machines.
PRINCIPLE OF OPERATION
BCI APPROACHES
INVASIVE
invasive BCIs are system that rely on electrodes surgically implemented in the brain, in order to extract such signals.
invasive techniques provide more accurate signal translation.
very low noise compared to non-invasive techniques.
The example of invasive system is neuro-surgery.
NON-INVASIVE
BRAINWAVES PRODUCED BY EEG
*Non-invasive BCIs areon the contrary systems where the electrodes are placed on the user’s head.
*Their disadvantage is that they are time-consuming technique.
*The most common non-invasive BCIs are EEG-based BCIs.
APPLICATIONS1. M E N TA L T Y P E -
W R I T E R .
2. B C I O F F E R S PA R A LY Z E D PAT I E N T S I M P R O V E D Q U A L I T Y O F L I F E .
3. M I L I TA R Y A N D C I V I L R E S E A R C H .
4. A L L O W PAT I E N T S T O C O N T R O L A C O M P U T E R B Y C O N S C I O U S C H A N G E S O F B R A I N A C T I V I T Y.
ADVANTAGES1. D I R E C T
C O M M U N I C AT I O N B E T W E E N H U M A N B R A I N A N D C O M P U T E R S .
2. B E T T E R L I V I N G , M O R E F E AT U R E S , M O R E A D VA N C E M E N T I N T E C H N O L O G I E S E T C .
3. N E W W O R K A R E A F O R S C I E N T I S T S A N D R E S E A R C H E S A R O U N D T H E W O R L D .
4. L O W B A N D W I D T H .
DISADVANTAGES1. V I R U S AT TA C K S
M A Y O C C U R T O B R A I N C A U S I N G I L L E F F E C T S .
2. R E Q U I R E S E X T E N S I V E T R A I N I N G .
3. B C I T E C H N I Q U E S A R E C O S T LY.
4. S LO W S P E E D .
CURRENT PROJECTS
o BRAIN GATE
o HONDA ASIMO CONTROL
o GAMING CONTROL
o BIONIC EYE
FUTURE WORK
o Improving physical methods for gathering EEGs.
o Improving generalization.
o Improving knowledge of how to interpret waves.
CONCLUSION• BCI is an advancing technology promising paradigm
shift in areas like Machine Control, Human Enhancement, Virtual reality and etc. So, it’s potentially high impact technology.
• Several potential applications of BCI hold promise for rehabilitation and improving performance, such as treating emotional disorders (for example, depression or anxiety), easing chronic pain, and overcoming movement disabilities due to stroke.
Thanks For Your Precious
Time….SUBMITTED BY:-Swati BhakharCE (V-Sem)110760107010