Problem definition: We develop a crossdisciplinary analytics framework to understand
citywide mobility-energy synergy. In particular, we investigate the potential of shared …

Operations.” This topic has come a long way—from its historical roots in the form of “Yellow
Pages” listings provided by city officials in the 1970s to the modern use of advanced …

Abstract Vehicle-to-Grid (V2G) services utilize idle electric vehicle (EV) batteries as
distributed energy storage units for the power grid to stabilize the fluctuating demand. The …

Urban mobility is currently undergoing three fundamental transformations with the sharing
economy, electrification, and autonomous vehicles changing how people and goods move …

The transportation sector is a major source of greenhouse gas (GHG) emissions. Shared
autonomous electric vehicles (SAEVs) have the potential to mitigate emissions, but the effect …

Abstract Shared Autonomous Electric Vehicles (SAEVs) are pivotal for future transportation,
offering both promise and challenges upon integration with the power grid. This symbiosis …

Transportation is the fastest-growing source of greenhouse gas (GHG) emissions and
energy consumption globally. While the convergence of shared mobility, vehicle automation …

Shared autonomous electric vehicles (SAEVs) are expected to become commercially
available within the next decade. This technology could transform transport paradigms and …

The transport sector is one of the leading contributors of anthropogenic climate change.
Particularly, internal combustion engine (ICE) dominancy coupled with heavy private motor …

The digitalization of the power grid to smart grid provides value added services to the
prosumers and other stakeholders involved in the energy market, and possibly disrupts …