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Autonomous vehicles

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Rabiya Khalid

This slideshow provides a glimpse of autonomous vehicles

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Autonomous Vehicles Computer Architecture Presented to: Dr. Assad Ali Safi Presented By: Rabiya Khalid
Autonomous vehicles Definition  Vehicle that get from one point to another point without human interaction.  Autonomous vehicles are also called driverless cars, robotic cars or self-driving cars.[1]  Autonomous Vehicles are capable of fulfilling main transportation capabilities of a traditional car.  Driverless cars move from one place to another place without drivers.  These cars plays an important role in reduction of car accidents[2].  These cars eliminate the human errors[2].
Companies Working on Autonomous Vehicles:  Top 5 Companies working on autonomous cars are [3]  Google  Intel  General Motors  Mercedes Benz  Audi  Toyota, Nissan and Honda (big three of Japan) will join together to work on autonomous vehicles[4]
Companies Working on Autonomous Vehicles:  Top 5 Companies working on autonomous cars are [3]  Google  Intel  General Motors  Mercedes Benz  Audi  Toyota, Nissan and Honda (big three of Japan) will join together to work on autonomous vehicles[4]
Companies Working on Autonomous Vehicles:  Top 5 Companies working on autonomous cars are [3]  Google  Intel  General Motors  Mercedes Benz  Audi  Toyota, Nissan and Honda (big three of Japan) will join together to work on autonomous vehicles[4]
Companies Working on Autonomous Vehicles:  Top 5 Companies working on autonomous cars are [3]  Google  Intel  General Motors  Mercedes Benz  Audi  Toyota, Nissan and Honda (big three of Japan) will join together to work on autonomous vehicles[4]
The Technology of the Car • Anti-Lock Brakes(ABS) • Electronic Stability control • Adaptive cruise control • Lane-departure warning system • Self parking • Automated guided vehicle systems • Lidar-Systems(with google cars) or Cruise Automated Systems(Audi) • Infrared cameras.
The Lidar System  Lidar is used to detect obstacles  Detects obstacles through light and determines where the vehicle is in relation to those obstacles  Singapore's Singapore-MIT Alliance for Research and Technology (SMART) is actively developing technologies for autonomous Lidar vehicles[5].  companies that produce lidar sensors commonly used in robotics or vehicle automation are Sick[5]and Hokuyo[7].
Example of Lidar in vehicles
Adoptive Cruise Control Systems  It is optional for road vehicles that automatically adjusts the vehicle speed.  It makes no use of satellite or roadside infrastructure nor of any cooperative support from other vehicles  control is imposed based on sensor information from on-board sensors only  Cooperative Cruise Control (CACC) further extends the automation by gathering information from fixed infrastructure such satellites and roadside beacons, or mobile infrastructure.  It can be LASER based or RADAR based
Types of Algorithms The combination of:  3-D imaging with multiple 1064 nm lasers.  Edge-Detection Algorithm  Motion-Detection algorithm  Tracking algorithm
Vehicle to Infrastructure Communication  Vehicle-to-Infrastructure (V2I) Communications for Safety is the wireless exchange of critical safety and operational data between vehicles and roadway infrastructure.  The vision for V2I research is to enable safety applications designed to avoid or mitigate vehicle crashes, particularly for crash scenarios not addressed by V2V communications alone  It is based on widespread deployment of a dedicated short-range communications link, incorporating IEEE 802.11
Vehicle to Infrastructure Communication
Vehicle to vehicle Communication  V2V is an automobile technology designed to allow automobiles to "talk" to each other.  V2V is also known as VANETs. It is a variation of MANETs .  In V2V vehicles share information related to their speed, direction maneuvers.  It helps to reduce the road crashes by getting the information of the surrounding.  The information can be exchanged using DSRC and GPS.
Vehicle to Vehicle Communication
Current Adoption of the Technology  Google, as mentioned previously  Cruise Automation  Tesla Model D announced in 2014  Car will be able to autonomously pick owners up (on private property)  Cadillac Super Cruise announced in 2014 for 2017 models  Hands-free driving in certain conditions  Vehicle to vehicle communication  Ford Traffic Jam Assist announced in 2012 gives similar features
Components  Lane departure warning  Lazy or inattentive drivers can automatically be moved  Blind spot monitoring  Warn if cars are in blind spots  Sonic blind support assisting system(SONAR)  Pedestrian detection  Automatic brake or warning  Adaptive cruise control + forward collision warning  Car stays a safe distance behind cars ahead of it  Warns or takes action in case of danger
Companies working on Autonomous cars
Statistical and Professional Support  32,719 people were killed in car accidents in the US alone in 2013  The Institute for Highway Safety reported the following in 2014  7% reduction in crashes for vehicles with forward collision warning systems.  14-15% reduction for vehicles with automatic braking.  In 2012 pedestrian deaths were 14% of all crash fatalities  Insurance Institute for Highway Safety found 72% of people who try the technology want them in their own vehicle.  Automatic braking lowers severity of unavoidable crashes according to an IIHS official.
Drawbacks  Although there are people who want the technology in their cars, it can cost:  $2,000 on average for safety-related tech (not automation)  $10,000 for Cruise in Audi S4s, as mentioned.  Poor performance in adverse weather conditions  Who is to blame?  The car manufacturer? The programmer?  The driver?
Reference 1. https://www.google.com.pk/webhp?sourceid=chrome-instant&ion=1&espv=2&ie=UTF- 8#q=what%20is%20autonomous%20cars 2. Vehicle Crashes and Pre-Crash Scenarios Based on the 2000 General Estimates System. (Report No. DOT HS 809 573). Washington, DC: National Highway Traffic Safety Administration. 3. Najm, W. G., Smith, J. D., & Yanagisawa, M. (2007, April). Pre-Crash Scenario Typology for Crash Avoidance Research. (Report No. DOT HS 810 767). Washington, DC: National Highway Traffic Safety Administration. 4. DaSilva, M. P., Smith, J. D., & Najm, W. G. (2009, February). Heavy Vehicle Pre-Crash Scenario Typology For Crash Avoidance Research. Washington, DC: National Highway Traffic Safety Administration. 5. http://motioncars.inquirer.net/36858/filipino-turns-ordinary-car-into-autonomous-vehicle 6. "Sick Senor Intelligence product portfolio". 2014-11-12. Retrieved 2014-11-12 7. "Hokuyo scanning range finder". 2014-11-12. Retrieved 2014-11-12.

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Autonomous vehicles

  • 1. Autonomous Vehicles Computer Architecture Presented to: Dr. Assad Ali Safi Presented By: Rabiya Khalid
  • 2. Autonomous vehicles Definition  Vehicle that get from one point to another point without human interaction.  Autonomous vehicles are also called driverless cars, robotic cars or self-driving cars.[1]  Autonomous Vehicles are capable of fulfilling main transportation capabilities of a traditional car.  Driverless cars move from one place to another place without drivers.  These cars plays an important role in reduction of car accidents[2].  These cars eliminate the human errors[2].
  • 3. Companies Working on Autonomous Vehicles:  Top 5 Companies working on autonomous cars are [3]  Google  Intel  General Motors  Mercedes Benz  Audi  Toyota, Nissan and Honda (big three of Japan) will join together to work on autonomous vehicles[4]
  • 4. Companies Working on Autonomous Vehicles:  Top 5 Companies working on autonomous cars are [3]  Google  Intel  General Motors  Mercedes Benz  Audi  Toyota, Nissan and Honda (big three of Japan) will join together to work on autonomous vehicles[4]
  • 5. Companies Working on Autonomous Vehicles:  Top 5 Companies working on autonomous cars are [3]  Google  Intel  General Motors  Mercedes Benz  Audi  Toyota, Nissan and Honda (big three of Japan) will join together to work on autonomous vehicles[4]
  • 6. Companies Working on Autonomous Vehicles:  Top 5 Companies working on autonomous cars are [3]  Google  Intel  General Motors  Mercedes Benz  Audi  Toyota, Nissan and Honda (big three of Japan) will join together to work on autonomous vehicles[4]
  • 7. The Technology of the Car • Anti-Lock Brakes(ABS) • Electronic Stability control • Adaptive cruise control • Lane-departure warning system • Self parking • Automated guided vehicle systems • Lidar-Systems(with google cars) or Cruise Automated Systems(Audi) • Infrared cameras.
  • 8. The Lidar System  Lidar is used to detect obstacles  Detects obstacles through light and determines where the vehicle is in relation to those obstacles  Singapore's Singapore-MIT Alliance for Research and Technology (SMART) is actively developing technologies for autonomous Lidar vehicles[5].  companies that produce lidar sensors commonly used in robotics or vehicle automation are Sick[5]and Hokuyo[7].
  • 9. Example of Lidar in vehicles
  • 10. Adoptive Cruise Control Systems  It is optional for road vehicles that automatically adjusts the vehicle speed.  It makes no use of satellite or roadside infrastructure nor of any cooperative support from other vehicles  control is imposed based on sensor information from on-board sensors only  Cooperative Cruise Control (CACC) further extends the automation by gathering information from fixed infrastructure such satellites and roadside beacons, or mobile infrastructure.  It can be LASER based or RADAR based
  • 11. Types of Algorithms The combination of:  3-D imaging with multiple 1064 nm lasers.  Edge-Detection Algorithm  Motion-Detection algorithm  Tracking algorithm
  • 12. Vehicle to Infrastructure Communication  Vehicle-to-Infrastructure (V2I) Communications for Safety is the wireless exchange of critical safety and operational data between vehicles and roadway infrastructure.  The vision for V2I research is to enable safety applications designed to avoid or mitigate vehicle crashes, particularly for crash scenarios not addressed by V2V communications alone  It is based on widespread deployment of a dedicated short-range communications link, incorporating IEEE 802.11
  • 13. Vehicle to Infrastructure Communication
  • 14. Vehicle to vehicle Communication  V2V is an automobile technology designed to allow automobiles to "talk" to each other.  V2V is also known as VANETs. It is a variation of MANETs .  In V2V vehicles share information related to their speed, direction maneuvers.  It helps to reduce the road crashes by getting the information of the surrounding.  The information can be exchanged using DSRC and GPS.
  • 15. Vehicle to Vehicle Communication
  • 16. Current Adoption of the Technology  Google, as mentioned previously  Cruise Automation  Tesla Model D announced in 2014  Car will be able to autonomously pick owners up (on private property)  Cadillac Super Cruise announced in 2014 for 2017 models  Hands-free driving in certain conditions  Vehicle to vehicle communication  Ford Traffic Jam Assist announced in 2012 gives similar features
  • 17. Components  Lane departure warning  Lazy or inattentive drivers can automatically be moved  Blind spot monitoring  Warn if cars are in blind spots  Sonic blind support assisting system(SONAR)  Pedestrian detection  Automatic brake or warning  Adaptive cruise control + forward collision warning  Car stays a safe distance behind cars ahead of it  Warns or takes action in case of danger
  • 18. Companies working on Autonomous cars
  • 19. Statistical and Professional Support  32,719 people were killed in car accidents in the US alone in 2013  The Institute for Highway Safety reported the following in 2014  7% reduction in crashes for vehicles with forward collision warning systems.  14-15% reduction for vehicles with automatic braking.  In 2012 pedestrian deaths were 14% of all crash fatalities  Insurance Institute for Highway Safety found 72% of people who try the technology want them in their own vehicle.  Automatic braking lowers severity of unavoidable crashes according to an IIHS official.
  • 20. Drawbacks  Although there are people who want the technology in their cars, it can cost:  $2,000 on average for safety-related tech (not automation)  $10,000 for Cruise in Audi S4s, as mentioned.  Poor performance in adverse weather conditions  Who is to blame?  The car manufacturer? The programmer?  The driver?
  • 21. Reference 1. https://www.google.com.pk/webhp?sourceid=chrome-instant&ion=1&espv=2&ie=UTF- 8#q=what%20is%20autonomous%20cars 2. Vehicle Crashes and Pre-Crash Scenarios Based on the 2000 General Estimates System. (Report No. DOT HS 809 573). Washington, DC: National Highway Traffic Safety Administration. 3. Najm, W. G., Smith, J. D., & Yanagisawa, M. (2007, April). Pre-Crash Scenario Typology for Crash Avoidance Research. (Report No. DOT HS 810 767). Washington, DC: National Highway Traffic Safety Administration. 4. DaSilva, M. P., Smith, J. D., & Najm, W. G. (2009, February). Heavy Vehicle Pre-Crash Scenario Typology For Crash Avoidance Research. Washington, DC: National Highway Traffic Safety Administration. 5. http://motioncars.inquirer.net/36858/filipino-turns-ordinary-car-into-autonomous-vehicle 6. "Sick Senor Intelligence product portfolio". 2014-11-12. Retrieved 2014-11-12 7. "Hokuyo scanning range finder". 2014-11-12. Retrieved 2014-11-12.