Publication Detail
Brief: Future Connected and Automated Vehicle Adoption Will Likely Increase Car Dependence and Reduce Transit Use Without Policy Intervention
UCD-ITS-RR-22-48 Brief National Center for Sustainable Transportation, 3 Revolutions Future Mobility Program Available online at: https://escholarship.org/uc/item/0rb439tv and https://doi.org/10.7922/G2BZ64CX |
Suggested Citation:
Circella, Giovanni, Miguel Jaller, Ran Sun, Xiaodong Qian, Farzad Alemi (2022) Brief: Future Connected and Automated Vehicle Adoption Will Likely Increase Car Dependence and Reduce Transit Use Without Policy Intervention. Institute of Transportation Studies, University of California, Davis, Brief UCD-ITS-RR-22-48
California sits at the epicenter of self-driving vehicle technology development, with numerous companies testing connected and automated vehicles (CAVs) in the state. CAVs have the potential to improve safety and increase mobility for children, the elderly, and people with disabilities. These vehicles will operate more efficiently, use less space on the roadway, and cause fewer crashes, all of which are expected to relieve traffic congestion. However, CAVs will also likely bring about complex changes to travel demand, urban design, and land use. The degree to which these changes will affect vehicle miles traveled, energy use, and air pollution in California is unknown and could have wideranging implications for the state’s ability to meet its climate goals.
Researchers at the University of California, Davis investigated the range of potential impacts that rapid adoption of CAVs in California might have on vehicle miles traveled and emissions. The researchers estimated the vehicle miles traveled and emissions of each scenario using a statewide travel demand model, emissions factors from California agencies, and assumptions derived from the scientific literature and expert input. This policy brief summarizes the findings from that research and provides policy implications.
Key words: automated vehicle (AV), emissions, planning, electric vehicle (EV), mobility (shared), connected and automated vehicle (CAV)
Key words: automated vehicle (AV), emissions, planning, electric vehicle (EV), mobility (shared), connected and automated vehicle (CAV)