GOOGLE DRIVERLESS CAR

2. GOOGLE DRIVERLESS CAR Presented By: Ashok D. Kumbhar T.E. Comp, KJCOEMR Roll No.:- 29 Guided By: Mrs. ManaliVashi Mam Comp. Dept., KJCOEMR

3. CONTENT • Introduction • What is Driverless Car ? • History • Component • Action • Technology • Advantages • Disadvantages • Conclusion • Reference

4. INTRODUCTION • Driver error is the most common cause of Traffic Accidents. • Cell phones in Car, entertainment system, more traffic and more complicated road systems making it more frequent. • By this improving technology Google car will do the concentrating us.

5. WHAT IS DRIVERLESS CAR?

6. The Google Driverless Car is like any car, but: • It can steer itself while looking out for obstacles. • It can accelerate itself to the correct speed limit. • It can stop and go itself based on any traffic condition.

7. HISTORY • The Project is currently being led by: Sebastian Thrun • Director of the Stanford Artificial Intelligence Laboratory • 2005 DARPA Grand Challenge Winner • Co-inventor of Google Street View

8. COMPONENTS Integrates Google Maps with various hardware sensors and artificial intelligence software • Google Maps • Hardware Sensors • Artificial Intelligence

9. Google Maps • Google Maps interacts with GPS & Acts like a database. • Speed Limits • Upcoming Intersection • Traffic Report • Nearby collisions • Directions

10. Hardware Sensors • The hardware sensors gives real time environment properties. • Environment is dynamic so need real time results. • Sensors attempt to create fully observable environment.

11. Hardware Sensors (cont.…) • LIDAR • VIDEO CAMERA • POSITION ESTIMATOR • DISTANCE SENSOR

13. Artificial Intelligence • Google Maps and the hardware sensors data are sent to the AI. • The agent’s goal is take the passenger to its desired destination safely and legally.

14. ACTION • A look from the inside…….

15. ACTION (cont.…) • A look from the outside…..

16. TECHNOLOGY • Anti-lock brakes (ABS) • Electronic stability control (ESC) • Cruise Control • Self Parking • Automated Guided Vehicle Systems

17. Anti-lock Brakes System (ABS)

18. Electronic Stability Control (ESC) • A computerized technology improves vehicle’s stability by detecting & minimizing skids. • Automatically applies the brakes. • Helps to minimize a loss of control. • ESC compares the driver’s intended direction to the vehicle’s actual direction.

19. Cruise control • Cruise control keeps the car at a constant speed by taking over the throttle of the car • It also maintain a set distance between it and the car in front of it

20. Self-parking Cars

22. ADVANTAGES • Managing traffic flow to increase read capacity. • Quick reaction time. • To avoid accidents. • Increasing roadway capacity by reducing the distances between cars. • The current location of vehicle can be determine using GPS.

23. DISADVANTAGES • Hackers can change the rout. • In case of failure of main sensor and backup sensors the vehicle can create a change of accident. • Expensive software.

24. CONCLUTION • The driver less car’s technologies improves vehicle's stability helps to minimize loss of control. • Driver less cars are designed to minimize accidents by addressing the main causes of collisions: driving error, distraction and drowsiness.

25. REFERENCE • http://en.wikipedia.org/wiki/Google_driverless_car • http://www.popsci.com/cars/article/2013-09/google-self-driving-car • http://autocontrols.com.au/ • http://www.howstuffworks.com/cruise-control • http://www.howstuffworks.com/electronic-stability-control