Presentation is loading. Please wait.

Presentation is loading. Please wait.

EOG Based Robot Controller

Published byFay Curtis Modified over 9 years ago

Similar presentations

Presentation on theme: "EOG Based Robot Controller"— Presentation transcript:

1 EOG Based Robot Controller
Presented By: Charbel A. Habib Harpreet Kaur Jassal Hassan A.M. Muhsen

2 Outline The Project Future Work Conclusion Input unit Processing unit
Control Unit Output unit Future Work Conclusion

3 The Project System Architecture

4 EOG EOG Signal EOG: Electrooculogram
the recording of the changes in voltage that occur with the eye position. Electro: electrical Oculo: eye Gram: recording

5 EOG EOG Signal EOG: Electrooculogram spherical battery 0.4 and 1 mV
positive terminal: the cornea negative terminal: the retina. 0.4 and 1 mV

6 EOG EOG Signal

7 EOG EOG Signal The signals are measured using EEG disposable electrodes

8 Input Unit Sensors Amplifier

9 EOG Electrode signal: This low voltage is not strong neither usable
0.4 and 1 mV This low voltage is not strong neither usable SOLUTION: ???

10 EOG Amplifier Designing an amplifier Requirements: Total gain of 5000
Cutoff frequency of 25Hz LPF Offset compensation

11 Amplifier Design

12 Buffer Amplifier

13 Difference Amplifier Amplifier Gain = -R2/R1

14 High Frequency Filter 4th order Butterworth Filter Cut off Frequency of Filter (f0)= 1/(2π*R*C)

15 Low Pass Filter

16 Summer Amplifier

17 Inverting and Non inverting Amplifier + Rectifier
Inverting Amplifier = -R2/R1 & Non Inverting Amplifier = 1+ R2/R1

18 Half Wave Rectifier

19 Amplifier Implementation

20 Amplifier Gain

21 Problems Unavailability of small power supply Electrodes
Amplifier Vcc supplier

22 Main Unit Process Unit Control Unit

23 Processing Unit Right side movement of eyes Left side movement of eyes
Movement of eyes during reading Upside movement of eyes Downward movement of eyes Blinking movement of eyes

24 Signal Processing Filtering (Median Filter) Segmentation (Clustering)

25 Original Data

26 Filtered Data

27 Segmented Data

28 Problems Microcontroller Delay Median Filter Window Size

29 Control Unit

30 Control Unit Translation (PWM) Communication Center = 128
Right & Up = 185 Left & Down = 70 Communication Direct from Microcontroller

31 Main Unit Overall Picture

32 Problems Calibration ADC Delay

33 Output Unit

34 Demo

35 Future Work On/Off Mechanism Real Neck Implementation
Applying to Aesop3000

36 Conclusion

37 THANKS Any Questions???

Download ppt "EOG Based Robot Controller"

Similar presentations

Zo Tester Collin Wells. Original Zo Tester Original AOL Circuit.

Zo Tester Collin Wells. Original Zo Tester Original AOL Circuit.
Operational Amplifiers

Operational Amplifiers
Operational Amplifiers

Operational Amplifiers
Op-Amp- An active circuit element designed to perform mathematical operations of addition, subtraction, multiplication, division, differentiation and.

Op-Amp- An active circuit element designed to perform mathematical operations of addition, subtraction, multiplication, division, differentiation and.
BIOPOTENTIAL AMPLIFIERS

BIOPOTENTIAL AMPLIFIERS
ECG Biopotential Amplifier ASHLEY MULCHRONE ZEXI LIU.

ECG Biopotential Amplifier ASHLEY MULCHRONE ZEXI LIU.
Greg Henderson Abdul Jaroudi Nishanth Mehanathan.

Greg Henderson Abdul Jaroudi Nishanth Mehanathan.
Lecture 23 Filters Hung-yi Lee.

Lecture 23 Filters Hung-yi Lee.
Biomedical applications of filters and amplifiers.

Biomedical applications of filters and amplifiers.
NONIDEAL OP AMP CIRCUITS. Objective of Lecture Describe the impact of real operational amplifiers on the models used in simulation and on the design approaches.

NONIDEAL OP AMP CIRCUITS. Objective of Lecture Describe the impact of real operational amplifiers on the models used in simulation and on the design approaches.
Non-Ideal Characteristics Input impedance Output impedance Frequency response Slew rate Saturation Bias current Offset voltage.

Non-Ideal Characteristics Input impedance Output impedance Frequency response Slew rate Saturation Bias current Offset voltage.
A.G.I.L.E Team Members: Brad Ramsey Derek Rodriguez Dane Wielgopolan Project Managers: Dr. Joel Schipper Dr. James Irwin Autonomously Guided Intelligent.

A.G.I.L.E Team Members: Brad Ramsey Derek Rodriguez Dane Wielgopolan Project Managers: Dr. Joel Schipper Dr. James Irwin Autonomously Guided Intelligent.
The transmission line circuit block used in Cadence Major Blocks and Peak Detector Sections of Channel Equalization Techniques for Ethernet Communication.

The transmission line circuit block used in Cadence Major Blocks and Peak Detector Sections of Channel Equalization Techniques for Ethernet Communication.
Electro-Oculography (EOG) Measurement System The goal : To measure eye movement with maximum accuracy using skin electrodes around the eyes that detect.

Electro-Oculography (EOG) Measurement System The goal : To measure eye movement with maximum accuracy using skin electrodes around the eyes that detect.
Vital Signs Monitor UConn BME 4900 Vital Signs Monitor Purpose As the population ages, many people are required by their doctors to take vital signs.

Vital Signs Monitor UConn BME 4900 Vital Signs Monitor Purpose As the population ages, many people are required by their doctors to take vital signs.
Operational Amplifiers

Operational Amplifiers
Department of Information Engineering357 Feedback Op amp golden rules Approximations: 1.Voltage difference between the two inputs is zero 2.Input draws.

Department of Information Engineering357 Feedback Op amp golden rules Approximations: 1.Voltage difference between the two inputs is zero 2.Input draws.
5th Order Butterworth Low Pass Filter. Fifth Order Butterworth LPF The normalized Butterworth low pass filter equation is: Design a fifth order Butterworth.

5th Order Butterworth Low Pass Filter. Fifth Order Butterworth LPF The normalized Butterworth low pass filter equation is: Design a fifth order Butterworth.
ELG 4135 :Electronics III Fall 2006 Voltage Filters Analysis, design and implementation of active filters in DC power supplies Presented to :

ELG 4135 :Electronics III Fall 2006 Voltage Filters Analysis, design and implementation of active filters in DC power supplies Presented to :
Differential Amplifier

Differential Amplifier

Similar presentations

Ads by Google