Peloton Technology

Peloton Technology is an automated and connected vehicle technology company established in 2011 and headquartered in Mountain View, CA.[1] It is developing a vehicle platooning system that enables pairs of trucks to operate at close following distances with a stated goal of improving safety and fuel efficiency. Peloton Technology was the first company to test a non-research commercial truck platooning system on public roads in the United States, and has publicly stated it will be the first company to offer a commercial platooning system for use by truck fleets in 2017.[2][3]

About

Peloton Technology was founded in 2011 by CEO Josh Switkes with co-founders Dave Lyons, Chris Gerdes, and Stephen Boyd with the goal of commercializing vehicle platooning for commercial heavy-duty trucks.[1]

Platooning System

Peloton Technology uses 5.9 GHz DSRC to establish Vehicle-to-Vehicle (V2V) communications between pairs of trucks.[4] Combined with commercially-available radar-based forward collision avoidance systems on each truck, this allows two trucks to operate with a shorter minimum safe following distance.[5] The result is that trucks are able to platoon, improving aerodynamics to reduce fuel consumption.[6] This implementation of these technologies together for the purpose of maintaining a constant gap between vehicles is sometimes referred to as Cooperative Adaptive Cruise Control.

Peloton’s system includes connection of each individual truck to a cloud-based monitoring and management system, which they refer to as the Network Operations Center (NOC). The NOC is designed to monitor individual truck safety and geofence the use of the platooning system by approving the linking of pairs of trucks in specific order only on suitable roads under appropriate weather, vehicle and traffic conditions.[4]

Peloton’s version of truck platooning operates at SAE Automation Level 1, where drivers in both vehicles continue to steer while the following driver’s acceleration and braking is automated to immediately mimic the actions of the leading truck.[7]

Testing

Peloton’s platooning system has reportedly been tested over approximately 15,000 miles in several states, including Nevada, Texas, Utah, Michigan, and California.[8][9][10][11] Unique from government and university-funded research projects, Peloton's system is the only commercial platooning system to have been tested on public roads with the intention of deploying to fleets.[3] CEO Josh Switkes has stated that the platooning system will be commercially available in 2017.[12]

A 2013 test of Peloton’s system held on I-80 in Utah and validated by the North American Council for Freight Efficiency following the industry standard SAE J1321 Type II fuel consumption test procedure found fuel savings of 10% in the following truck and 4.5% in the lead truck at 64 miles per hour with a 36-foot following distance.[13]

In 2014, the U.S. National Renewable Energy Laboratory conducted testing of Peloton’s platooning system following the SAE J1321 Type II fuel consumption test procedure at the Continental Tire Uvalde Proving Grounds in Uvalde, TX using various truck weights and following distances. The tests found combined savings of 6.4% at 55 mph with a 30-foot gap using 65,000 lb GVW tractor trailers. Combined savings of better than 5% were found to persist at a gap of 75 feet.[14]

Funding

In April 2015, Peloton closed a $16 million Series A round led by Denso International America and Intel Capital, which also included Magna International, Castrol innoVentures, Volvo Group Venture Capital, UPS Strategic Enterprise Fund, Sand Hill Angels, Band of Angels, and Birchmere Ventures.[15] Peloton has since announced additional funding by Nokia Growth Partners and Lockheed Martin.[16][17]

Board of Directors

Peloton’s Board of Directors includes former Corporate Vice President of Research & Development for General Motors Larry Burns; former U.S. Secretary of Transportation Rodney E. Slater; Former Trimble CTO Ralph Eschenbach of Sand Hill Angels; Mark Lydon of Intel Capital, and Ken Arnold of Band of Angels.

Government Research and Technology Deployment Projects

Peloton is engaged in several state and federally funded research projects related to truck platooning. The company is a partner in a Federal Highway Administration-funded “Partial Automation for Truck Platooning” project led by Auburn University that includes the American Transportation Research Institute, Meritor WABCO, and Peterbilt Trucks.[18] Peloton also contributes to a second FHWA-funded platooning research project led by UC Berkeley PATH and including Volvo Trucks.[19] Peloton is a partner in the US Department of Transportation-funded Smart City Challenge project awarded to Columbus, OH in July 2016.[20][21] The California Energy Commission granted the San Diego Port Tenants Association a $5.9 million grant in July 2016 to fund 10 zero-emissions freight vehicles, which includes Peloton Technology as a technology subcontractor.[22]

See also

References

  1. 1 2 "Peloton Technology | crunchbase". www.crunchbase.com. Retrieved 2016-10-06.
  2. "Truck Platooning, Past, Present, and Future - Article - TruckingInfo.com". www.truckinginfo.com. Retrieved 2016-10-07.
  3. 1 2 "Panelists Say Driverless Trucks Decades Away; Platooning Pairs Coming in 2017 | Transport Topics Online". Retrieved 2016-10-07.
  4. 1 2 "How Truck Platooning Works - Peloton Technology". Peloton Technology. Retrieved 2016-10-06.
  5. "Platooning is closer than you think – just like the trucks". fleetowner.com. Retrieved 2016-10-06.
  6. "Two-Truck Platooning | Trucking Efficiency". truckingefficiency.org. Retrieved 2016-10-06.
  7. "SAE Levels of Driving Automation". cyberlaw.stanford.edu. Retrieved 2016-10-06.
  8. "Robot Truck Convoy Tested In Nevada". Popular Science. Retrieved 2016-10-06.
  9. Gross, Daniel (2015-06-08). "What Trucks Can Learn From Bicycles". Slate. ISSN 1091-2339. Retrieved 2016-10-06.
  10. "Truck Platooning, Past, Present, and Future - Article - TruckingInfo.com". www.truckinginfo.com. Retrieved 2016-10-06.
  11. Hawes, Clarissa (2016-08-28). "Truck Platooning Technology Advances, with Skeptics". Trucks.com. Retrieved 2016-10-06.
  12. "Panelists Say Driverless Trucks Decades Away; Platooning Pairs Coming in 2017 | Transport Topics Online". Retrieved 2016-10-06.
  13. Roeth, Michael (Nov 2013). "CR England Peloton Technology Platooning Test Nov 2013" (PDF). NACFE.org. North American Council on Freight Efficiency. Retrieved 10/6/17. Check date values in: |access-date= (help)
  14. Lammert, Michael P.; Duran, Adam; Diez, Jeremy; Burton, Kevin; Nicholson, Alex. "Effect of Platooning on Fuel Consumption of Class 8 Vehicles Over a Range of Speeds, Following Distances, and Mass". SAE International Commercial Vehicle Engineering Congress. 2014.
  15. "Five Fortune 500 companies Invest to Bring Groundbreaking Automated Truck Driving Technology to Market". VentureBeat. Retrieved 2016-10-06.
  16. "NGP invests in Peloton Technology | Nokia Growth Partners". Nokia Growth Partners. 2015-07-23. Retrieved 2016-10-06.
  17. "Lockheed Martin just invested in this Silicon Valley trucking tech startup". Fortune. 2015-08-31. Retrieved 2016-10-06.
  18. Bevly, Dr. David. "Heavy Truck Cooperative Adaptive Cruise Control: Evaluation, Testing, and Stakeholder Engagement for Near Term Deployment: Phase One Final Report". Federal Highway Administration Task Report. Auburn University.
  19. Altan, Osman D (2015-07-21). "Partial Automation for Truck Platooning (PATP) - Testing" (PDF). its.dot.gov. Federal Highway Administration. Retrieved 10/6/16. Check date values in: |access-date= (help)
  20. "Columbus and Peloton Technology plan to test partially automated heavy truck platooning on Alum Creek Drive and Williams Road near Rickenbacker International Airport - Columbus - Columbus Business First". Columbus Business First. Retrieved 2016-10-06.
  21. "Smart City Challenge". Department of Transportation. 2016-03-15. Retrieved 2016-10-06.
  22. "San Diego Port Tenants Association Awarded $5.9M Grant by California Energy Commission". www.portofsandiego.org. Retrieved 2016-10-06.
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