Vehicular communication systems

Vehicular communication systems are networks in which vehicles and roadside units are the communicating nodes, providing each other with information, such as safety warnings and traffic information. They can be effective in avoiding accidents and traffic congestion. Both types of nodes are dedicated short-range communications (DSRC) devices. DSRC works in 5.9 GHz band with bandwidth of 75 MHz and approximate range of 1000 m.[1] Vehicular communications is usually developed as a part of intelligent transportation systems (ITS).

Safety benefits

The main motivation for vehicular communication systems is safety and eliminating the excessive cost of traffic collisions. According to World Health Organizations (WHO), road accidents annually cause approximately 1.2 million deaths worldwide; one fourth of all deaths caused by injury. Also about 50 million persons are injured in traffic accidents. If preventive measures are not taken road death is likely to become the third-leading cause of death in 2020 from ninth place in 1990.[2] A study from the American Automobile Association (AAA) concluded that car crashes cost the United States $300 billion per year.[3] It can be used for automated traffic intersection control.[1]

However the deaths caused by car crashes are in principle avoidable. US Department of Transport states that 21,000 of the annual 43,000 road accident deaths in the US are caused by roadway departures and intersection-related incidents.[4] This number can be significantly lowered by deploying local warning systems through vehicular communications. Departing vehicles can inform other vehicles that they intend to depart the highway and arriving cars at intersections can send warning messages to other cars traversing that intersection. Studies show that in Western Europe a mere 5 km/h decrease in average vehicle speeds could result in 25% decrease in deaths.[5]


Main article: Vehicle-to-vehicle

V2V (short for vehicle to vehicle) is an automobile technology designed to allow automobiles to "talk" to each other. The systems will use a region of the 5.9 GHz band set aside by the United States Congress in 1999, the unlicensed frequency also used by WiFi. V2V is currently in active development by General Motors, which demonstrated the system in 2006 using Cadillac vehicles. Other automakers working on V2V include BMW, Daimler, Honda, Audi, Volvo and the Car-to-Car communication consortium.[6] V2V is also known as VANETs (vehicular ad hoc networks). It is a variation of MANETs (mobile ad hoc networks), with the emphasis being now the node is the vehicular. In 2001, it was mentioned in a publication[7] that ad hoc networks can be formed by cars and such networks can help overcome blind spots, avoid accidents, etc.

Over the years, there have been considerable research and projects in this area, applying VANETs for a variety of applications, ranging from safety to navigation and law enforcement. In April 2014 it was reported that U.S. regulators were close to approving V2V standards for the U.S. market, and that officials were planning for the technology to become mandatory by 2017.[8] PKI (public key infrastructure) is the current security system being used in V2V communications.[9]

Conflict over spectrum

As of 2016, V2V is under threat from cable television and other tech firms that want to take away a big chunk of the radio spectrum currently reserved for it and use those frequencies for high-speed internet service. V2V's current share of spectrum was set aside by the government in 1999. The auto industry is trying to retain all it can saying that it desperately needs the spectrum for V2V. The Federal Communications Commission has taken the side of the tech companies with the National Traffic Safety Board supporting the position of the auto industry. Internet service provides who want the spectrum claim that self-driving cars will make extensive use of V2V unnecessary. The auto industry said it is willing to share the spectrum if V2V service is not slowed or disrupted; the FCC plans to test several sharing schemes.[10]

Key players

Intelligent Transportation Society of America (ITSA) aims to improve cooperation among public and private sector organizations. ITSA summarizes its mission statement as "vision zero" meaning its goal is to reduce the fatal accidents and delays as much as possible.

Many universities are pursuing research and development of vehicular ad hoc networks. For example, University of California, Berkeley is participating in California Partners for Advanced Transit and Highways (PATH).[11]


See also

References

  1. 1 2 "Dedicated Short Range Communications (DSRC) Home". leearmstrong.com. Archived from the original on Nov 19, 2012. Retrieved 2008-02-29.
  2. M. Peden; Richard Scurfield; D. Sleet; D. Mohan; et al. "World report on road traffic injury prevention" (PDF). World Health Organization. Retrieved 2008-02-29.
  3. "Crashes Vs. Congestion -- What's the Cost to Society?" (PDF). American Automobile Association. Retrieved 2011-11-30.
  4. "Vehicle Infrastructure Integration (VII)". its.dot.gov. Retrieved 2008-02-29.
  5. "The world health report 2002 - Reducing Risks, Promoting Healthy Life". World Health Organization. Retrieved 2008-02-29.
  6. "Technical Approach". Car 2 Car. Retrieved August 13, 2016.
  7. US, van Oldenborgh, et al., "SYSTEM AND METHOD FOR DISTRIBUTED DATA NETWORK HAVING A DYNAMIC TOPOLOGY OF COMMUNICATING A PLURALITY OF PRODUCTION NODES WITH A PLURALITY OF CONSUMER NODES WITHOUT INTERMEDIATE NODE LOGICALLY", issued June 20, 2006
  8. Putic, George (April 4, 2014). "Vehicles May Soon Be Talking to Each Other". VOA News. Retrieved August 13, 2016.
  9. Harding, J (2014). "Vehicle-to-vehicle communications: Readiness of V2V technology for application" (PDF). nhtsa.gov.
  11. "UC Berkeley-Audi Pact Places Smart-Engine Research on Bay Area Roads". berkeley.edu. Retrieved 2008-02-29.

External links

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