In the literature electric vehicle use is modelled using of a variety of approaches in power systems, energy and environmental analyses as well as in travel demand analysis. This …
Autonomous vehicles use sensing and communication technologies to navigate safely and efficiently with little or no input from the driver. These driverless technologies will create an …
T Okada, T Tamaki, S Managi - Transportation Research Part D: Transport …, 2019 - Elsevier
The reduction of CO 2 emission using electric vehicles (EVs) is attracting much attention as a countermeasure for global warming. In this study, we investigate the intention of non-EV …
U Khan, T Yamamoto, H Sato - Transportation Research Part D: Transport …, 2020 - Elsevier
After the successful adoption and deployment of electric vehicles in Norway with the support of generous government-led incentives, several other countries began introducing policy …
U Khan, T Yamamoto, H Sato - International Journal of Hydrogen Energy, 2021 - Elsevier
Abstract As of January 2021, Japan had the world's largest hydrogen station network with merely 4600 hydrogen fuel-cell vehicles (HFCVs) on roads, as compared to the 9000 …
Electric vehicles (EVs) hold great promise for reducing greenhouse gas emissions, yet achieving their environmental benefits depends on greater market uptake. While a growing …
We provide an in-depth theoretical discussion about the differences between individual- specific latent constructs (representing attitudes, for example, but also other characteristics …
T Ruan, Q Lv - Communications in Transportation Research, 2022 - Elsevier
Understanding public perception of electric vehicles (EVs) is imperative for increasing EV adoption, which can significantly reduce greenhouse gas (GHG) emissions, thereby …
Electric vehicles (EV) are a promising alternative for the current fossil-fuel-based vehicles. However, as of 2020, the share of EV sales was only 4.6% globally, and 1% in Australia. It is …