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Obstacle Recognition System For the Blind

Obstacle Recognition System For the Blind. Presented by Team 3 Prachi Pai Asnodkar, Padmashree Patil, Sarita L. Tellez Sanchez, Thuy Tran December 13, 2014. Overview. Problem and Need Statement Value Proposition Objective Alternatives Approach & Schedule Requirements Design

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Obstacle Recognition System For the Blind

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  1. Obstacle Recognition System For the Blind Presented by Team 3 Prachi Pai Asnodkar, Padmashree Patil, Sarita L. Tellez Sanchez, Thuy Tran December 13, 2014

  2. Overview • Problem and Need Statement • Value Proposition • Objective • Alternatives • Approach & Schedule • Requirements • Design • Implementation • Testing & Results • Contributions • Lessons Learned ECE 411 Practicum Project

  3. Problem & Need Statement • Problem Statement: Without vision it can be challenging for a visually impaired person to navigate through a room or a hallway without bumping into obstacles. Even with aid, such as walking stick, it can be sometimes inconvenient, uncomfortable, and perhaps inaccurate in avoiding obstacles. • Need Statement: Develop a device that would assist visually impaired users to sense objects without touching the object or carrying a stick in their hand. ECE 411 Practicum Project

  4. Value Proposition • Significant number of visually impaired persons use long white cane or guide dog to identify the obstacles. Our project is aimed at reducing the dependency on white cane and guide dogs. • Our solution is: • Cheap and affordable • Detects both static and moving obstacles • Saves the effort of carrying the white cane, saves on the cost of maintaining a guide dog, and more. ECE 411 Practicum Project

  5. Objective • Objective: Design and build a working prototype of a system that will help visually impaired person to sense the obstacle in front of them by sending a vibration from the system. • Motivation: Our team had an interest to create a device that could aid a visually impaired person as they need an aid that can help them avoid collision with obstacles. This system will help them detect obstacles by sending vibrations. ECE 411 Practicum Project

  6. Alternatives • At present following are the primary methods used by visually impaired person to identify and avoid an obstacle: • Long white cane: A long white cane is used to extend the users range of touch sensation. It is usually swung in a low sweeping motionacross the intended path of travel to detect obstacles. • Dog guide: A small number of people employ guide dogs to assist in their mobility. These dogs are trained to navigate around various obstacles. • Human guide:A person guides the visually impaired, but this makes them dependent on others assistance. ECE 411 Practicum Project

  7. Approach • Step 1: Performed benchmarking to get ideas to help design our project • Step 2: Define components and resources required • Step 3: Read & perform tutorials to gain knowledge for the required components and resources, such as Atmel Studio and EagleCAD • Step 4: The project was divided based on each team members strength • Step 5: Communications • Timing and organization to complete tasks were formed based on homework deadlines • Most of the tasks were completed in group and through proactive communication between the team members ECE 411 Practicum Project

  8. Project Schedule ECE 411 Practicum Project

  9. User Requirements • Safe design • Accuracy in calculating distance from the object • Differing intensities of vibration according to proximity to an object • User friendly with ease to use • Cost effective • Reasonable size for comfort ECE 411 Practicum Project

  10. Technical Requirements • Sense objects within at least 1m of range • Vibrate when user is as far as 1 meter from an obstacle • Have a vibration motor • Have an ultrasonic sensor to sense distance • Have a microcontroller • Fit on two layer PCB • Assembled by hand by each member of the group • Tested for acceptable working characteristics ECE 411 Practicum Project

  11. Technical Requirements (Contd.) • Be designed in EagleCAD • Have an LCD that displays the distance values • Use a 9V battery as power supply and a voltage regulator to output 5V for the components in the device • Operate within an enclosed packaging • Be manufactured on a PCB with dimensions of 10x7 cm • Have at least a 95% of accuracy in sensing the obstacle at the farthest distance (1 meter) • Increase the intensity of the vibration based on the proximity of an obstacle ECE 411 Practicum Project

  12. Design ECE 411 Practicum Project

  13. Top Level Circuit Block Diagram There are four main components which provide a separate and distinct functionality towards the overall project, and other two are power supplies ECE 411 Practicum Project

  14. Component 1: The Ultrasonic Sensor (HC-SR04) Detects if the user is in the range of obstacle or not ECE 411 Practicum Project

  15. Component 2: Atmeg-328P Microprocessor The Atmeg-328P is the control unit of the entire device ECE 411 Practicum Project

  16. Component 3: 310-101 Vibration Motor Vibration motor is a button type motor that vibrates when sufficient power is given to it. ECE 411 Practicum Project

  17. Component 4: LCD (Liquid Crystal Display) Displays the distance value at which the user is within an obstacle. The LCD is designed for testing purposes ECE 411 Practicum Project

  18. Implementation ECE 411 Practicum Project

  19. Schematic ECE 411 Practicum Project

  20. DC Voltage Regulator ECE 411 Practicum Project

  21. Connecting the AVR Programmer The AVR programmer is connected to the microcontroller on the PCB via the ISP (In System Programming) connections ECE 411 Practicum Project

  22. Ultrasonic Sensor Connect the Trigger pin and Echo pin of the ultrasonic sensor to two I/O pin of microcontroller ECE 411 Practicum Project

  23. Vibration Motor ECE 411 Practicum Project

  24. LCD Display ECE 411 Practicum Project

  25. Board Layout Top View Bottom Layer ECE 411 Practicum Project

  26. Flow chart Start Initialize Obstacle within 1m? Display distance Y N Enable PWM Display distance Turn on motor ECE 411 Practicum Project

  27. Design Code ECE 411 Practicum Project

  28. Testing Test 1: Acceptance test for the obstacle recognition system Explanation • The system unit must vibrate within 1 meter from an obstacle Action • Write program for a LCD to monitor the distance from an obstacle • Test the device by having a person wear the device and approach an obstacle Expected Results • The LCD should give 90% accurate distance that it is from the user to the obstacle • Vibration motor should start vibrating when the person is within 1 meter of an obstacle ECE 411 Practicum Project

  29. Testing Test 2: Integration test case for the Ultrasonic module HC-SR04 with Atmega 328P Explanation • The ultrasonic sensor should have 95% accuracy in sensing obstacles as far as 1 meter Action • Place an object within 1 meter of the sensor • Place an object further than 1 meter of the sensor Expected Results • Within 1 meter, LED should turn ON • Further than 1 meter, LED should turn OFF ECE 411 Practicum Project

  30. Results • Ultrasonic sensor worked accurately • Able to observe the behavior we expected when an object was within the 100 cm range • Burnt at least 2-3 sensors in the debugging process but our end result was better than expected • LCD displayed accurate distance values • Methodology of PWM to increase and decrease the voltage on the motor pin worked accurately from what we could observed on the multi-meter. ECE 411 Practicum Project

  31. Results (Contd.) • Challenges • The motorhas a small operating voltage range • Soldering Surface Mount components • Inexperience with the software needed for project ECE 411 Practicum Project

  32. Contributions Our team divided the contributions by assigning leading or co-leading responsibilities along with support roles to each member for various tasks Sarita • Lead schematic development • Lead management of documentation and writing • Co-lead homework’s with Padma • Co-lead PCB setup with Thuy • Co-lead Wiki management with Prachi • System Testing and Validation Support • Project Idea development support • Consolidate final presentation Thuy • Lead Board layout development • Lead System Testing and Validation • Co-lead PCB setup with Sarita • Co-Lead Code Testing with Prachi • Schematic development support • Homework support • Project Idea development support • Enclosure design Prachi • Lead Code Development • Lead Project Idea development • Co-Lead Code Testing with Thuy • Co-lead Wiki management with Sarita • System Testing and Validation support • Homework support Padma • Lead ordering, organization, and management of major components • Lead Wiki Setup • Co-lead homework’s with Sarita • System Testing and Validation Support • PCB setup support • Project Idea development support • Co-lead management of documentation and writing with Sarita ECE 411 Practicum Project

  33. Lessons Learnt • Time management and working with other team members to split tasks and conquer are very important for success • Trust, mutual respect, team efforts is important to successfully accomplish the tasks • Project management is as important as solving for the project requirements • Project schedule and GNATT chart is a great tool to manage and track work progress • Debugging takes a lot of time and requires relying on team members for their expertise, which can result in positive outcomes • Collaboration and coordination are key to success ECE 411 Practicum Project

  34. Lessons Learnt (Contd.) • Better understanding of synergies of tasks and due dates • Better coordination amongst team members for ordering of parts • Division of tasks could have been more balanced • Need to highlight team expectations at the forming stage of the project ECE 411 Practicum Project

  35. Reference Ultrasonic sensor • https://docs.google.com/a/pdx.edu/document/d/1Y-yZnNhMYy7rwhAgyL_pfa39RsB-x2qR4vP8saG73rE/edit • http://www.ezdenki.com/ultrasonic.php Atmel • http://www.micahcarrick.com/tutorials/avr-microcontroller-tutorial/getting-started.html#section_4 • http://www.atmel.com/microsite/atmel_studio6/ Eagle • http://tinkerlog.com/howto/mega328-header/ • https://learn.sparkfun.com/tutorials/using-eagle-schematic/adding-parts-to-a-schematic LCD • http://extremeelectronics.co.in/avr-tutorials/using-lcd-module-with-avrs/ Vibration motor • http://www.learningaboutelectronics.com/Datasheets/Precision-Microdrives-Vibration-Motor-Datasheet.pdf ECE 411 Practicum Project

  36. Questions ECE 411 Practicum Project

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