A5056282929- Electric Vehicles and Infrastructure
- Energy, Environment, and Transportation Policies
- Urban Transport and Accessibility
- Transportation and Mobility Innovations
- Energy and Environment Impacts
- Traffic and Road Safety
- Transportation Planning and Optimization
- Smart Parking Systems Research
- Traffic Prediction and Management Techniques
- Vehicle emissions and performance
- Computational and Text Analysis Methods
- Geographic Information Systems Studies
- Safety Warnings and Signage
- Insurance, Mortality, Demography, Risk Management
- Agriculture and Farm Safety
- Evacuation and Crowd Dynamics
- Technology Adoption and User Behaviour
- Human Mobility and Location-Based Analysis
- demographic modeling and climate adaptation
- Urban and Freight Transport Logistics
- Smart Grid Energy Management
National Renewable Energy Laboratory
2022-2024
Arizona State University
2020-2022
This paper documents the design and application of ATLAS (Automobile Technology Lifecycle-Based ASsignment), a comprehensive household vehicle transaction technology adoption micro-simulator in San Francisco Bay Area. evolves fleet mix individual households by simulating choice decisions response to co-evolving demographics, land use, simulations. While most existing literature has focused on aggregate clean uptake, this differentiates distributional effects decomposes underlying mechanisms...
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<title>Abstract</title> The COVID-19 pandemic has significantly shifted travel behaviors, with major changes observed in online shopping and to work. Despite considerable research into pandemic-induced behavior, it remains uncertain whether these new patterns have persisted or reverted pre-pandemic norms. This study addresses this uncertainty by evaluating shifts work during the become permanently ingrained individuals’ daily routine. Leveraging data from 2022 National Household Travel...
Autonomous electric vehicles (AEVs) can potentially revolutionize the transportation landscape, offering a safer, contact-free, easily accessible, and more eco-friendly mode of travel. Prior to market uptake AEVs, it is critical understand consumer segments that are most likely adopt these vehicles. Beyond adoption, also important quantify impact AEVs on broader systems environment, such as impacts annual vehicle miles traveled (VMT) greenhouse gas (GHG) emissions. In this pilot study, using...
Many rapidly developing countries around the world are at a crossroads when it comes to transportation, air quality, and sustainability. Indeed, challenges presented by vehicular growth in India have motivated search for sustainable transportation solutions. One solution constitutes ridehailing services, which expected reduce car ownership provide affordable means of transportation. Another key is rise electric vehicles (EVs), greenhouse gas emission address growing demand urban mobility....
Prior to the market uptake of autonomous vehicles (AVs), it is critical understand consumer segments AV adopters and quantify impact adoption on transportation systems environment, such as annual vehicle miles travelled (VMT) greenhouse gas (GHG) emission. In this study, using 2019 California Vehicle Survey (CVS) a statistical model correlating people’s intention buy an their socioeconomic built environment attributes at household level estimated sensitivity analysis used importance factors...
Residential and transportation energy consumption account for more than one-half of the overall in United States. Adoption electric vehicles (EVs) can play a key role decarbonizing sector, while adoption renewable sources (e.g., solar photovoltaics or PVs) could bring similar benefits to residential sector turn support transport electrification. Although market share both EVs PVs continue grow, these emerging technologies are deployed rather disjointly without considering existence potential...