Prospects for Implementing a Decision-making Support System for an Electric Car Driver

Authors

  • V. V. Horeniuk Vinnytsia National Technical University
  • B. I. Mokin Vinnytsia National Technical University
  • O. B. Mokin Vinnytsia National Technical University

DOI:

https://doi.org/10.31649/1997-9266-2022-162-3-31-35

Keywords:

electric car, horizontal movement, descent and ascent movement, cornering movement, optimization, model, traction induction electric drive, decision-making support system

Abstract

There has been proposed a way of implementing the decision-making support system for the driver of an electric car while driving it along the horizontal section of the road as well as on descent and ascent with different angles of the slope.

The system was based on the synthesized the authors' mathematical models of the electric car's optimal movement by the criterion of the minimum consumption of the electric car power battery charge by its frequency-controlled induction motor which is traction in the drive system of an electric vehicle using Lagrange variational method and a mathematical model of the magnetization curve in the form of an inverted hyperbolic sine, which with high precision binds the current in the stator winding of an induction motor with a magnetic flux created by the field of this current and based on the mathematical models of determination of speeds values while the car with an internal combustion engine or electric car cornering not exceeding which makes it impossible to overturn or skid, which has been synthesized based on the balance equations of both kinematics and dynamics.

Carried out the analysis of on-board electronic systems of modern cars, which are currently mandatory for passenger vehicles under the European Union norms and has been revealed that the available ones are quite sufficient for the implementation of decision-making support system for the driver of an electric car in the bound of the proposed concept.

Determining the necessary angles of pitch and yaw of the car is possible with the help of sensors of the Electronic Stability Control. Determining electrical parameters of the electric drive - current, voltage, frequency, and mechanical - the position or speed of rotation of the electric drive shaft of an electric vehicle is possible from the engine control unit, which it receives from the relevant sensors through feedback.

It is also has been proposed to extend the implementation of the proposed decision-making support system for the driver of an electric car while driving it by integrating navigation elements based on open source projects into it, which will allow defining and considering such additional parameters as road signs, road markings, etc.

Author Biographies

V. V. Horeniuk, Vinnytsia National Technical University

Post-Graduate Students of the Faculty of Power Engineering, Electric Engineering and Electromechanics

B. I. Mokin, Vinnytsia National Technical University

Academician of NAPS of Ukraine, Dr. Sc. (Eng.), Professor of the Chair of Systems Analysis and Information Systems

O. B. Mokin, Vinnytsia National Technical University

Dr. Sc. (Eng.), Professor, Professor of the Chair of Systems Analysis and Information Systems

References

Б. І. Мокін, О. Б. Мокін, і В. В. Горенюк, «До питання оптимізації руху електромобіля з асинхронним електроприводом,» Вісник Вінницького політехнічного інституту, вип. 3, с. 32-39, Черв. 2019. https://doi.org/10.31649/1997-9266-2019-144-3-32-39 .

Б. І. Мокін, О. Б. Мокін, і В. В. Горенюк, «Метод ідентифікації моделей оптимального руху електромобіля з асинхронним електроприводом,» Вісник Вінницького політехнічного інституту, вип. 1, с. 32-38, Лют. 2020. https://doi.org/10.31649/1997-9266-2020-148-1-32-38 .

Б. І. Мокін, О. Б. Мокін, і В. В. Горенюк, «Моделювання оптимального руху електромобіля з асинхронним електроприводом горизонтальним відрізком дороги,» Вісник Вінницького політехнічного інституту, вип. 5, с. 26-33, Листоп. 2020. https://doi.org/10.31649/1997-9266-2020-152-5-26-33 .

В. В. Горенюк, «Синтез та ідентифікація моделей оптимального руху електромобіля з асинхронним електроприводом по схилах і підйомах дороги,» Вісник Вінницького політехнічного інституту, вип. 2, с. 37-44, Квіт. 2021. https://doi.org/10.31649/1997-9266-2021-155-2-37-44 .

В. В. Горенюк, «Моделювання оптимального руху електромобіля з асинхронним електроприводом на схилах і підйомах дороги,» Вісник Вінницького політехнічного інституту, вип. 5, с. 43-49, Жовт. 2021. https://doi.org/10.31649/1997-9266-2021-158-5-43-49 .

V. Horeniuk, “Integration of kinematic and dynamic mathematical models of a two-axle electric car in the problem of estimating its stability on turns,” SR, no. 5, pp. 23-29, Oct. 2021. https://doi.org/10.21303/2313-8416.2021.002145

Texas Instruments. HEV/EV Traction Inverter Design Guide Using Isolated IGBT and SiC Gate Drivers. Application Report. SLUA963A - November 2019 - Revised June 2020. [Electronic resource]. Available: https://www.ti.com/lit/an/slua963a/slua963a.pdf?ts=1653198250507&ref_url=https%253A%252F%252Fwww.google.com%252F .

Bosch. Inertial measurement unit. [Electronic resource]. Available: https://www.bosch-mobility-solutions.com/en/solutions/sensors/inertial-measurement-unit/ .

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Published

2022-06-30

How to Cite

[1]
V. V. . Horeniuk, B. I. Mokin, and O. B. Mokin, “Prospects for Implementing a Decision-making Support System for an Electric Car Driver”, Вісник ВПІ, no. 3, pp. 31–35, Jun. 2022.

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Information technologies and computer sciences

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