Aaron Brooker scite author profile

The Future Automotive Systems Technology Simulator (FASTSim) is a high-level advanced vehicle powertrain systems analysis tool supported by the U.S. Department of Energy's Vehicle Technologies Office. FASTSim provides a quick and simple approach to compare powertrains and estimate the impact of technology improvements on light-and heavy-duty vehicle efficiency, performance, cost, and battery life. The input data for most light-duty vehicles can be automatically imported. Those inputs can be modified to represent variations of the vehicle or powertrain. The vehicle and its components are then simulated through speed-versus-time drive cycles. At each time step, FASTSim accounts for drag, acceleration, ascent, rolling resistance, each powertrain component's efficiency and power limits, and regenerative braking. Conventional vehicles, hybrid electric vehicles, plug-in hybrid electric vehicles, all-electric vehicles, compressed natural gas vehicles, and fuel cell vehicles are included. Powertrains with electric-traction drive can optionally be simulated using electric roadway technologies such as dynamic wireless power transfer. FASTSim also has an interface for running large batches of real-world drive cycles. FASTSim's calculation framework and balance among detail, accuracy, and speed enable it to simulate thousands of driven miles in minutes. The key components and vehicle outputs have been validated by comparing the model outputs to test data for many different vehicles to provide confidence in the results. A graphical user interface makes FASTSim easy and efficient to use. FASTSim is freely available for download from the National Renewable Energy Laboratory's website (see www.nrel.gov/fastsim). Powertrain Components FASTSim captures the key inputs for most high-level vehicle powertrain modeling. They include parameters that define the vehicle, including the fuel storage, fuel converter, motor, traction battery, wheel, and energy management strategy.

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Sensitivity of battery electric vehicle economics to drive patterns, vehicle range, and charge strategies

Neubauer

Brooker

Wood

2012

Journal of Power Sources

121

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Sensitivity of plug-in hybrid electric vehicle economics to drive patterns, electric range, energy management, and charge strategies

Neubauer

Brooker

Wood

2013

Journal of Power Sources

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ADOPT: A Historically Validated Light Duty Vehicle Consumer Choice Model

Brooker

Gonder

Lopp

et al. 2015

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The Automotive Deployment Options Projection Tool (ADOPT) is a light-duty vehicle consumer choice and stock model supported by the U.S. Department of Energy's Vehicle Technologies Office. It estimates technology improvement impacts on future U.S. light-duty vehicles sales, petroleum use, and greenhouse gas emissions. ADOPT uses techniques from the multinomial logit method and the mixed logit method to estimate vehicle sales. Specifically, it estimate sales based on the weighted value of key attributes including vehicle price, fuel cost, acceleration, range and usable volume. The average importance of several attributes changes nonlinearly across its range and changes with income. For several attributes, a distribution of importance around the average value is used to represent consumer heterogeneity. The majority of existing vehicle makes, models, and trims are included to fully represent the market. The Corporate Average Fuel Economy regulations are enforced. The sales feed into the ADOPT stock model. It captures key aspects for summing petroleum use and greenhouse gas emissions. This includes capturing the change in vehicle miles traveled by vehicle age, the creation of new model options based on the success of existing vehicles, new vehicle option introduction rate limits, and survival rates by vehicle age. ADOPT has been extensively validated with historical sales data. It matches in key dimensions including sales by fuel economy, acceleration, price, vehicle size class, and powertrain across multiple years. A graphical user interface provides easy and efficient use. It manages the inputs, simulation, and results.

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Aaron Brooker

ADVISOR: a systems analysis tool for advanced vehicle modeling

FASTSim: A Model to Estimate Vehicle Efficiency, Cost and Performance

Sensitivity of battery electric vehicle economics to drive patterns, vehicle range, and charge strategies

Sensitivity of plug-in hybrid electric vehicle economics to drive patterns, electric range, energy management, and charge strategies

ADOPT: A Historically Validated Light Duty Vehicle Consumer Choice Model

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