Evaluation of Autonomous Vehicle Sensing and Compute Load on a Chassis Dynamometer

Brown, Nicholas E.; Motallebiaraghi, Farhang; Rojas, Johan; Ayantayo, Sherif; Meyer, Richard; Asher, Zachary; Ekti, Ali Riza; Wang, Ross; Goberville, Nicholas A.; Feinberg, Ben

doi:10.1109/ITSC57777.2023.10422013

Title: Evaluation of Autonomous Vehicle Sensing and Compute Load on a Chassis Dynamometer

Conference · Thu Feb 01 00:00:00 EST 2024

DOI:https://doi.org/10.1109/ITSC57777.2023.10422013· OSTI ID:2311313

Brown, Nicholas E. ^[1]; Motallebiaraghi, Farhang ^[1]; Rojas, Johan ^[1]; Ayantayo, Sherif ^[1]; Meyer, Richard ^[1]; Asher, Zachary ^[1]; Ekti, Ali Riza ^[2];

^[2]; Goberville, Nicholas A. ^[3]; Feinberg, Ben ^[4]

Western Michigan University
ORNL
Argonne National Laboratory
Sandia National Laboratories (SNL)

The sensing and compute load auxiliary energy consumption in autonomous vehicles may be significant due to the large number of sensors and the high compute load from sensor processing and route planning. To understand this issue, this study investigates the top-down energy usage of an electric 2015 Kia Soul fully instrumented with state sensors and a state-specific computer for path planning and sensor processing. A chassis dynamometer was then used to evaluate the cases of (1) no sensors or computation, (2) only sensors operating, and (3) sensors plus compute load. The vehicle was operated autonomously on the dynamometer using a PolySync drive-kit with drive-by-wire longitudinal control. The DynoJet model 224xLC was used to adapt the eddy current dynamometer's road load parameters to comply with an Environmental Protection Agency drive schedule and to evaluate performance against the Argonne National Laboratory Digital Dynamometer Dataset. On the UDDS-HWFET combined driving cycle, the stock battery's range was reduced by 5.6% for sensors alone and 12.2% for sensors and compute load. These results show that the added sensing and compute auxiliary load from automated and autonomous systems is significant and that research efforts need to be spent investigating new energy efficient systems.

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Research Organization:: Oak Ridge National Laboratory (ORNL), Oak Ridge, TN (United States)

Sponsoring Organization:: USDOE

DOE Contract Number:: AC05-00OR22725

OSTI ID:: 2311313

Resource Relation:: Conference: 26th IEEE International Conference on Intelligent Transportation Systems ITSC 2023 - Bilbao, Bizkaia, , Spain - 9/24/2023 8:00:00 AM-9/28/2023 8:00:00 AM

Country of Publication:: United States

Language:: English

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