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Title: Vehicle Powertrain Simulation Accuracy for Various Drive Cycle Frequencies and Upsampling Techniques

Conference ·
DOI:https://doi.org/10.4271/2023-01-0345· OSTI ID:1986082

As connected and automated vehicle technologies emerge and proliferate, lower frequency vehicle trajectory data is becoming more widely available. In some cases, entire fleets are streaming position, speed, and telemetry at sample rates of less than 10 seconds. This presents opportunities to apply powertrain simulators such as the National Renewable Energy Laboratory's Future Automotive Systems Technology Simulator to model how advanced powertrain technologies would perform in the real world. However, connected vehicle data tends to be available at lower temporal frequencies than the 1-10 Hz trajectories that have typically been used for powertrain simulation. Higher frequency data, typically used for simulation, is costly to collect and store and therefore is often limited in density and geography. This paper explores the suitability of lower frequency, high availability, connected vehicle data for detailed powertrain simulation. A large data set of 1 Hz trajectories is used to quantify the accuracy loss when simulating energy consumption for conventional, hybrid, and battery electric powertrains using less than 1 Hz data. Techniques to upsample lower frequency drive cycle data in order to increase accuracy are also explored. Median energy consumption errors when simulating energy consumption for a 1/10 Hz trajectory are found to be 3-6% when compared to 1 Hz trajectories. Applying upsampling and interpolation techniques are shown to reduce the simulation errors by roughly 50%. The findings in this work can guide connected vehicle data collection specifications and processing techniques applied when using collected data for powertrain simulation.

Research Organization:
National Renewable Energy Laboratory (NREL), Golden, CO (United States)
Sponsoring Organization:
USDOE Office of Energy Efficiency and Renewable Energy (EERE), Transportation Office. Vehicle Technologies Office
DOE Contract Number:
AC36-08GO28308
OSTI ID:
1986082
Report Number(s):
NREL/CP-5400-85024; MainId:85797; UUID:117e6a75-27fc-4fe2-8fe0-ff5e6dfdf74c; MainAdminID:69817
Resource Relation:
Conference: Presented at the WCX SAE World Congress Experience, 18-20 April 2023, Detroit, Michigan
Country of Publication:
United States
Language:
English

References (7)

A Survey of the Connected Vehicle Landscape—Architectures, Enabling Technologies, Applications, and Development Areas journal August 2018
Review of GPS Travel Survey and GPS Data-Processing Methods journal April 2014
The Role of Mobility Data Hubs in an Integrated Decarbonized Transportation Future conference April 2021
FASTSim: A Model to Estimate Vehicle Efficiency, Cost and Performance conference April 2015
Automated Model Based Design Process to Evaluate Advanced Component Technologies conference April 2010
Vehicle's energy estimation using low frequency speed signal conference September 2012
Low-Cost Reconstruction of Typical Driving Cycles Based on Empirical Information and Low-Frequency Speed Data journal August 2020

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