about blue eyes technology

1. BLUE EYES
TECHNOLOGY
even machines can See and feel too…

2. CONTENTS
 What is Blue Eyes Technology?
 Why Blue Eyes?
 What is Blue Eyes?
 How can computer see & feel
 Technologies Used
 Advantages & Disadvantages
 Future applications
 Conclusion
 Any queries?
 Thank you

3. WHAT IS BLUE EYES
TECHNOLOGY?
 Use camera and
microphone to
identify user
actions and
emotions.

4. WHY BLUE EYES?
 To avoid and reduce Human limitation such as:
 Tiredness
 Oversight
 Mental illness, etc…
 Monitoring of conscious brain involvement
(automation, long driving)
 To built a machine that can understand your
emotions
 Verify your identity, feels your presence and
interact with you.

5. WHAT IS BLUE EYES?
 BLUE : in the term stands for Bluetooth, which
enables reliable wireless communication
 EYES : because the eye movement enables
us to obtain a lot of interesting and important
information.
 Bluetooth device + Eyes tracking Device

6. MAIN OBJECTIVE OF THIS TECHNOLOGY:
 The main objective of Blue eyes technology
is to develop a computational machine
having sensory and perceptual ability like
those of humans.
 The Blue Eyes technology system is a
combination of a set of hardware and
software systems.

7. HOW CAN WE MAKE
COMPUTERS “SEE” AND “FEEL” ?
 Blue eyes uses
sensing technology
to identify a user’s
actions and to extract
key information.
 Information is then
analyzed to
determine the user’s
physical, emotional,
or informational
state.

8. TECHNOLOGIES USED
 Emotion Mouse
 Manual And Gaze Input Cascaded (MAGIC)
 Artificial Intelligent Speech Recognition
 Simple User Interest Tracker (SUITOR)
 The eye movement Sensor

9. EMOTION MOUSE
 Emotion mouse
sense the mood by
analyzing pressure ,
temperature and
heart beat of the
user.
 Analyzing these
parameters six
types of mood can
be sensed by
computer.

10. HOW IT WORKS?
 Like humans
have five sense
organs, emotion
mouse is
designed with
five sensors to
sense the
different moods
of user.

12. MAGIC
 Webcam is used to
quickly determine the
glints and pupils of
the user under
variable and realistic
lightning conditions.

13. MAGIC pointing is the technique of tracking eye movement of
the user and perform the desired operation.

14. IMAGE OF PUPIL OF USER’S EYE
IS TRACKED USING AN
INFRARED LIGHT SOURCE

15. SUITOR
 Help by fetching more
information at desktop
 Notice where the
user’s eyes focus on
the screen
 Fills a scrolling ticker
on a computer screen
with information
related to user’s task
 Ex. If reading
headline ,pops up the
story in the browser
window.

16. ARTIFICIAL INTELLIGENT
SPEECH RECOGNITION
 Input words are
scanned and matched
against internally stored
words.
 User speaks to the
computer through
microphone.
 Pattern matching is
designed to look for the
best fit because of
variations in loudness,
pitch, frequency
difference, time gap etc.

17. THE EYE MOVEMENT
SENSOR DESIGN
 A personal area network for
linking all the operators and the
supervising system
 Two major units :
o DAU (Data Acquisition Unit )
o CSU (Central System Unit )

18. DAU AND CSU:
Atmel 89C52
microcontroller
Jazz
Multi sensor
Bluetooth
Data Analysis
Visualization
Module
Bluetooth
Connection
Manager
Data
Logger

19. Data Acquisition Unit
 Features :
 Lightweight
 Runs on batteries - low
power consumption
 Easy to use
 ID cards for operator
authorization

20. Micro controller Bluetooth Module

21. MULTI SENSORS

22. Central System Unit
 Components :
 CONNECTION MANAGER – main task to perform low-level blue
tooth communication
 DATA ANALYSIS MODULE – performs the analysis of the raw
sensor data in order to obtain information about operator’s
physiological condition
 DATA LOGGER MODULE – provides support for storing the
monitored data.
 VISULAIZATION MODULE – provides user interface for the
supervisors

23. Central System Unit
 Features :
 Maintains Bluetooth
connections
 Data processing
 Records conclusion for
further exploration
 Provides visualization
interface
Data Analysis
Visualization
Module
Bluetooth
Connection
Manager
Data
Logger

24. ADVANTAGES
 Physiological condition monitoring
 Reduces manual work
 Increases efficiency
Disadvantages
 Not 100% accurate.
 System is bulky, needs minimization.
 Expensive

25. FUTURE APPLICATIONS
 In automobile industry
 In video games
 To create “Face Responsive Display”
 Power station
 Flight control centres and many more…

26. CONCLUSION
 In the future, ordinary household devices such as
televisions, refrigerators, and ovens may be able to do their
jobs when we look at them and speak to them.
 Provide more delicate and user friendly facilities in
computing devices.
 Gap between the electronic and physical world is reduced
 The computers can be run using implicit commands instead
of the explicit commands