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27-11-2024 | Electric, Fuel Cell, and Hybrid Vehicle, Transmission and Driveline

MPC Energy Prediction Control Simulation of a Hybrid Electric Vehicle

Authors: Jinkyeom Cho, Hyeongcheol Lee

Published in: International Journal of Automotive Technology

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Abstract

The paper presents a model predictive control (MPC) energy prediction control function simulation environment using virtual controller technology. The MPC energy prediction function is a fuel economy improvement function applied to the hybrid control unit (HCU) of the Hyundai Santa Fe. This function uses the gradient and average speed information of the upcoming road to perform optimal driving point control of the engine and motor of the hybrid electric vehicle (HEV) based on the expected required power. The components of the simulation environment are HCU virtual controllers, vehicle models, roads, and navigation. Virtual controllers were created using virtual controller technology based on HCU mass production codes. The vehicle model is a Transmission Mounted Electric Device (TMED) system with the powertrain specifications of a Hyundai Santa Fe Hybrid. Road and navigation information was collected using actual vehicle test data. The consolidation of the simulation environment was confirmed by comparing the actual vehicle test data and simulation data, such as the vehicle model, MPC energy prediction control function and fuel economy model. As a result of the simulation, the characteristics of the MPC energy prediction control were confirmed and the fuel economy improved to similar to that of the vehicle test using a robot driver.

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Literature
go back to reference Broy, M., Kirstan, S., Krcmar, H., & Schätz, B. (2012). What is the benefit of a model-based design of embedded software systems in the car industry?. In Emerging technologies for the evolution and maintenance of software models, 343–369 Broy, M., Kirstan, S., Krcmar, H., & Schätz, B. (2012). What is the benefit of a model-based design of embedded software systems in the car industry?. In Emerging technologies for the evolution and maintenance of software models, 343–369
go back to reference De Souza, G., Odloak, D., & Zanin, A. C. (2010). Real time optimization (RTO) with model predictive control (MPC). Computers & Chemical Engineering, 34(12), 1999–2006.CrossRef De Souza, G., Odloak, D., & Zanin, A. C. (2010). Real time optimization (RTO) with model predictive control (MPC). Computers & Chemical Engineering, 34(12), 1999–2006.CrossRef
go back to reference Kim, D., Eo, J. S., & Kim, K. K. K. (2021). Service-oriented real-time energy-optimal regenerative braking strategy for connected and autonomous electrified vehicles. IEEE Transactions on Intelligent Transportation Systems, 23(8), 11098–11115.CrossRef Kim, D., Eo, J. S., & Kim, K. K. K. (2021). Service-oriented real-time energy-optimal regenerative braking strategy for connected and autonomous electrified vehicles. IEEE Transactions on Intelligent Transportation Systems, 23(8), 11098–11115.CrossRef
go back to reference Kumar, A. S., & Ahmad, Z. (2012). Model predictive control (MPC) and its current issues in chemical engineering. Chemical Engineering Communications, 199(4), 472–511.CrossRef Kumar, A. S., & Ahmad, Z. (2012). Model predictive control (MPC) and its current issues in chemical engineering. Chemical Engineering Communications, 199(4), 472–511.CrossRef
go back to reference Lu, J., Hong, S., Sullivan, J., Hu, G., Dai, E., Reed, D., & Baker, R. (2017). Predictive transmission shift schedule for improving fuel economy and drivability using electronic horizon. SAE International Journal of Engines, 10(2), 680–688.CrossRef Lu, J., Hong, S., Sullivan, J., Hu, G., Dai, E., Reed, D., & Baker, R. (2017). Predictive transmission shift schedule for improving fuel economy and drivability using electronic horizon. SAE International Journal of Engines, 10(2), 680–688.CrossRef
go back to reference Masoudi, Y., & Azad, N. L. (2017). MPC-based battery thermal management controller for plug-in hybrid electric vehicles. In 2017 American Control Conference (ACC), 4365–4370. Masoudi, Y., & Azad, N. L. (2017). MPC-based battery thermal management controller for plug-in hybrid electric vehicles. In 2017 American Control Conference (ACC), 4365–4370.
go back to reference Ozkan, M.F. & Ma, Y. (2021). Fuel-economical distributed model predictive control for heavy-duty truck platoon. In: 2021 IEEE International Intelligent Transportation Systems Conference (ITSC). IEEE, 2021. p. 1919-1926 Ozkan, M.F. & Ma, Y. (2021). Fuel-economical distributed model predictive control for heavy-duty truck platoon. In: 2021 IEEE International Intelligent Transportation Systems Conference (ITSC). IEEE, 2021. p. 1919-1926
go back to reference Park, S., & Ahn, C. (2020). Computationally efficient stochastic model predictive controller for battery thermal management of electric vehicle. IEEE Transactions on Vehicular Technology, 69(8), 8407–8419.CrossRef Park, S., & Ahn, C. (2020). Computationally efficient stochastic model predictive controller for battery thermal management of electric vehicle. IEEE Transactions on Vehicular Technology, 69(8), 8407–8419.CrossRef
go back to reference Pisaturo, M., & Senatore, A. (2019). Thermal compensation control strategy in automated dry clutch engagement dynamics and launch manoeuvre. International Journal of Automotive Technology, 20, 1089–1101.CrossRef Pisaturo, M., & Senatore, A. (2019). Thermal compensation control strategy in automated dry clutch engagement dynamics and launch manoeuvre. International Journal of Automotive Technology, 20, 1089–1101.CrossRef
go back to reference Sciarretta, A., & Guzzella, L. (2007). Control of hybrid electric vehicles. IEEE Control Systems Magazine, 27(2), 60–70.CrossRef Sciarretta, A., & Guzzella, L. (2007). Control of hybrid electric vehicles. IEEE Control Systems Magazine, 27(2), 60–70.CrossRef
go back to reference Song, D., Bi, D., Zeng, X., & Wang, S. (2023). Energy management strategy of plug-in hybrid electric vehicles considering thermal characteristics. International Journal of Automotive Technology, 24(3), 655–668.CrossRef Song, D., Bi, D., Zeng, X., & Wang, S. (2023). Energy management strategy of plug-in hybrid electric vehicles considering thermal characteristics. International Journal of Automotive Technology, 24(3), 655–668.CrossRef
go back to reference SYNOPSYS (2023). Synopsys Automotive VDK for Level 4 Virtual ECU Abstraction. INFO SHEET-JAN-2023 SYNOPSYS (2023). Synopsys Automotive VDK for Level 4 Virtual ECU Abstraction. INFO SHEET-JAN-2023
go back to reference Yang, I., Jeon, W. H., & Lee, H. M. (2017). A study on dynamic map data provision system for automated vehicle. The Journal of the Korea Institute of Intelligent Transport Systems, 16(6), 208–218.CrossRef Yang, I., Jeon, W. H., & Lee, H. M. (2017). A study on dynamic map data provision system for automated vehicle. The Journal of the Korea Institute of Intelligent Transport Systems, 16(6), 208–218.CrossRef
go back to reference Yi, B., Gottschling, S., Ferdinand, J., Simm, N., Bonarens, F., & Stiller, C. (2016). Real time integrated vehicle dynamics control and trajectory planning with MPC for critical maneuvers. In 2016 IEEE intelligent vehicles symposium (IV), 584–589. Yi, B., Gottschling, S., Ferdinand, J., Simm, N., Bonarens, F., & Stiller, C. (2016). Real time integrated vehicle dynamics control and trajectory planning with MPC for critical maneuvers. In 2016 IEEE intelligent vehicles symposium (IV), 584–589.
go back to reference Zhang, Z., Knauder, B., Ackerl, M., & Pell, J. (2020). Validation of Road-Preview-Based Predictive Gear Selection on Heavy-Duty Vehicle Transmission Control Unit (No. 2020–01–0962). SAE Technical Paper. Zhang, Z., Knauder, B., Ackerl, M., & Pell, J. (2020). Validation of Road-Preview-Based Predictive Gear Selection on Heavy-Duty Vehicle Transmission Control Unit (No. 2020–01–0962). SAE Technical Paper.
go back to reference Zhao, R. C., Wong, P. K., Xie, Z. C., & Zhao, J. (2017). Real-time weighted multi-objective model predictive controller for adaptive cruise control systems. International Journal of Automotive Technology, 18(2), 279–292.CrossRef Zhao, R. C., Wong, P. K., Xie, Z. C., & Zhao, J. (2017). Real-time weighted multi-objective model predictive controller for adaptive cruise control systems. International Journal of Automotive Technology, 18(2), 279–292.CrossRef
Metadata
Title
MPC Energy Prediction Control Simulation of a Hybrid Electric Vehicle
Authors
Jinkyeom Cho
Hyeongcheol Lee
Publication date
27-11-2024
Publisher
The Korean Society of Automotive Engineers
Published in
International Journal of Automotive Technology
Print ISSN: 1229-9138
Electronic ISSN: 1976-3832
DOI
https://doi.org/10.1007/s12239-024-00184-7