The transportation sector significantly contributes to carbon emissions, prompting a surge in
research on emission reduction. Carbon estimation methods include bottom-up, top-down …

Since transportation accounts for a large portion of a city's overall greenhouse gas
emissions, cities are looking to lessen this effect by replacing more internal combustion …

Shared cars will likely have larger annual vehicle driving distances than individually owned
cars. This may accelerate passenger car retirement. Here we develop a semi-empirical …

With the emergence of research on Shared autonomous electric vehicles (SAEVs) as a
futuristic transportation option, it becomes important to explore the environmental …

The introduction of vehicle automation, shared mobility, and vehicle electrification will bring
about changes in urban transportation, land use, energy, and the environment. The accurate …

The growth of the electric vehicles (EVs) use forces a need of verification their emissivity due
to the electric power source. The thesis of non-emissivity EV is contested. Based on the …

Electrified autonomous mobility-on-demand (E-AMoD) systems will play a crucial role in
future cities, which couple the carbon emissions generated by the transportation system and …

This research examines the use of Shared Autonomous Electric Vehicles (SAEVs) in 374 US
small and medium-sized urban areas, focusing on fleet and infrastructure needs through …

Although electric vehicles (EVs) eliminate CO 2 emissions on the road, the upstream
emissions from electricity generation still affect the emissions benefit brought by vehicle …

Plug-in electric vehicles (PEVs) can reduce air emissions when charged with clean power,
but prior work estimated that in 2010, PEVs produced 2 to 3 times the consequential air …