Preliminary Design Review Team 22: Driver Assist

1. Preliminary Design ReviewTeam 22:Driver Assist

2. Team 22 Members Sam Burke –EE Steve Cook –EE Andrew Klinkowski –EE Qingchuan Wu –EE Faculty Advisor : Professor Janaswamy

3. What is the Problem ? • Current disabled driving assistance modules require the driver to have two functional hands • There are no devices on the market that allow drivers to fully control a car safely with one hand. http://www.auto-handcontrols.com/knob_ford_lg.gif

4. How significant is the problem? • According to the 2010 US census approximately 20 million people between ages of 21 – 64 live with a serve disability* • The NY DMV states “An examiner determines what is required and whether restrictions must be added to your driver license. The DMV can also require you to take and pass a road test to keep the driver license” *Needed assistance of another person to perform one or more IADLs (aged 15 and older). **http://dmv.ny.gov/org/driver-license/license-restrictions-medical-conditions

5. How significant is the problem? • Currently there is no device that controls the gas, brakes, and steering wheel • No major car manufactures offer an option to control the car with one hand • On average it costs approximately $1500 to install a driving assist module on a car • This module is limited to controlling only the gas and brake pedals, and requires an additional spinner knob

6. Effect On Individual • Will give handicap drivers more functionality over the car • Will restore independence to individuals • Reduce cost compared to conventional handicap driving assist modules • Will allow more citizens the opportunity to drive

7. Primary Solution • Our solution is to create a joystick that mechanically controls the steering wheel, brakes, and throttle as well as control over the blinkers, lights, and horn. • The joystick will pivot horizontally allowing the driver to turn left and right. http://img.gizmag.com/onehandeddriving.JPG?fit=max&h=670&w=770&s=4af0a21ce275fd7e9e9c78f8c92c344c

8. Primary solution • A throttle will allow the driver to control the gas • A hand break will be used to stop the car http://img.gizmag.com/onehandeddriving.JPG?fit=max&h=670&w=770&s=4af0a21ce275fd7e9e9c78f8c92c344c

9. Block Diagram Control signal Joystick signal Feedback signal Power

10. Assignments Steve: • Throttle • Brakes Sam: • Steering motor • Joystick Qingchuan: • Power • PID Andrew: • Control • Joystick

11. Joystick Will Control: • Throttle • Brake • Steering Stretch Goals: • Signals • Windshield Wipers • Horn • Headlights

12. Controller • Will include an Arduino and a PID • Self calibrated • Manage power consumption Stretch Goals: • Arduino used to communicate with the CAN-BUS (Computer Area Network) • Signals sent from the Arduino will interface with the car’s computer to control basic traffic signals

13. Motor Controller • PID controller will be used for maintaining the position of the steering wheel. • Gas and braking power is proportional the position of the hand brake and gas throttle. • The position of the brake, gas, and steering wheel will be fed back to the controller to minimize disturbance. • All the motors used will be synchronous motors

14. Mechanical Steering • Create a wheel jacket that connects around the steering wheel. • Wheel jacket will contain tracks • Motor behind steering wheel will link to tracks • Position of the steering wheel will be sent back to the controller • A “home” position will be placed on the track to assist calibration

15. Mechanical Steering • A track will be attached to a wheel jacket, and enable the motor to “grip” the wheel more effectively • A synchronous motor will be able to control the precision of the motor during static and dynamic use

16. Mechanical Gas & Break • The gas and brakes will be controlled using a linear actuator attached to each pedal • Response of the linear actuator will be dictated by the controller

17. Power • A external battery will be used to power this device • External battery will be charged from the cigarette lighter socket; the charging current will be limited to 15 Amps. • Polyphase inverter will be used to drive the motors

18. CAN-BUS • The CAN-BUS can be used to access all the electrical functionalities on modern cars • Control for the turning signals, lights, and horn can be accessed by sending a signal to the computer • In newer cars, controls are done by wire making it possible to control the gas and brakes as well

19. Requirements • Steering Wheel Motor response time <50ms • 1.5 seconds per steering wheel revolution • Powerful enough to rotate steering wheel while at stand still • Able to hold wheel in place while off center • Brake engagement time <350ms* • Giving computer decision time<50ms • *http://www.visualexpert.com/Resources/reactiontime.html

20. Requirements • Can not interfere with safety features (i.e. the airbag) • Can not visually impair drivers ability to see road • Power loss can not result in loss of control Stretch Requirements: • Functionality over some electronic components

21. Alternative Joystick This joy stick will pivot horizontally allowing the driver to turn left and right. And triggers will be located on the back to control the gas and brake

22. Alternative Steering • Control the steering wheel through magnetic coils • Control the brake through pneumatics • Pneumatic piston have higher power • Control steering though the CAN-BUS for newer cars • Put a gear on the collar of the steering shaft which will be controlled by the motor

23. Proof of concept • We will implement our design on a virtual car. The xbox360 has a racing wheel car attachment which includes a steering column, brake pedal, and gas pedal. • We will attach our device on this and control the car in the video game https://images-na.ssl-images-amazon.com/images/G/01/videogames/detail-page/sc_b005o6z028-01pedal.jpg

24. Cost • 1 Throttle - $20 • 1 Hand brake - $10 • 2 Linear Actuator - $300 • 1 Wheel Motor - $100 • 1 Wheel Jacket and Track - $20 • 1 Printed Circuit Board $50 • 1 Joystick – $50 • 1 Arduino - $25 • Electronic components $50 • Estimated Total Cost $625

25. MDR Deliverables Moveable components • Motors • Actuator • Move motors discretely from input

26. Questions Questions?