S15: Hand Gesture Recognition using IR Sensors
Contents
Abstract
The aim of the project is to develop hand gesture recognition system using grid of IR proximity sensors. Various hand gestures like swipe, pan etc. can be recognized. These gestures can be used to control different devices or can be used in various applications. The system will recognize different hand gestures based on the values received from IR proximity sensors.
Objectives & Introduction
We use various hand gestures in our day-to-day life to communicate while trying to explain someone something, direct them somewhere etc. It would be so cool if we could communicate with various applications running on the computers or different devices around us understand the hand gestures and give the expected output. In order to achieve this, we are using a 3-by-3 grid of analog IR proximity sensors and connecting these sensors via multiplexers to the ADC pins on SJOne Board. As a hand is moved in front of the sensors, the sensor values would in a particular pattern enabling us to detect the gesture and instruct the application to perform the corresponding action.
Team Members & Responsibilities
- Harita Parekh
- Implementing algorithm for gesture recognition
- Implementation of sensor data filters
- Shruti Rao
- Implementing algorithm for gesture recognition
- Interfacing of sensors, multiplexers and controller
- Sushant Potdar
- Implementation of final sensor grid
- Development of the application module
Schedule
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Week# | Start Date | End Date | Task | Status | Actual Completion Date |
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1 | 3/22/2015 | 3/28/2015 | Research on the sensors, order sensors and multiplexers | Completed | 3/28/2015 |
2 | 3/29/2015 | 4/4/2015 | Read the data sheet for sensors and understand its working. Test multiplexers | Completed | 4/4/2015 |
3 | 4/5/2015 | 4/11/2015 | Interfacing of sensors, multiplexers and controller | Completed | 4/15/2015 |
4 | 4/12/2015 | 4/18/2015 |
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Ongoing | |
5 | 4/19/2015 | 4/25/2015 |
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Scheduled | |
6 | 4/26/2015 | 5/2/2015 |
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Scheduled | |
7 | 5/3/2015 | 5/9/2015 | Testing and bug fixes | Scheduled | |
8 | 5/10/2015 | 5/16/2015 | Testing and final touches | Scheduled | |
9 | 5/25/2015 | 5/25/2015 | Final demo | Scheduled | |
Parts List & Cost
SR# | Component Name | Quantity | Price per component | Total Price |
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1 | Sharp Distance Measuring Sensor Unit (GP2Y0A21YK0F) | 9 | $14.95 | $134.55 |
2 | STMicroelectronics Dual 4-Channel Analog Multiplexer/Demultiplexer (M74HC4052) | 3 | $ | $ |
3 | SJ-One Board | 1 | $80 | $80 |
Design & Implementation
Hardware Design
The image shows the setup of the project.
System Block Diagram:
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Proximity Sensor:
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Multiplexer:
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UART-to-USB convertor:
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Hardware Interface
Software Design
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Implementation
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Testing & Technical Challenges
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My Issue #1
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Conclusion
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Project Video
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Project Source Code
References
Acknowledgement
All the components where procurred from Amazon, Adafruit and digikey. We are thankful to Preet for his continuous guidance during the project
References Used
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Appendix
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