Affiliation:
1. MARMARA ÜNİVERSİTESİ
2. Bursa Uludağ Üniversitesi
Abstract
This study presents a series of analyzes considering the traction and steering demands of an autonomous electric vehicle (AEV) as a shuttle. The considered analyzes in here are dealt with as driving cycle (DC) and driving scenarios (DS) to assess the traction and steering performance of the AEV. The aim of this study is to evaluate the issues such as over engineering for AEV traction and steering motor requirements on a certain route by comparatively analyzing traditional and dynamic calculation under the DC and DS. Therefore, DC and DS in the lit-erature are evaluated in terms of different applications, optimization techniques, generation algorithm, parametric characterization, e-motor type etc. Afterwards, NEDC, US06, WLTC, Double Lane Change (DLC), Constant Radius (CR) and Slowly Increase Steer (SIS) are determined. Then, they are arranged according to the vehicle-specific limits on an electric golf car. The modified DCs and DSs are run on the dynamic model of the vehicle. In the performed analysis, the parame-ters such as reference trajectory tracking, yaw angle, tractive and steering forces, lateral and longitudinal displacement-acceleration, steering and traction motor power–speed-torque are investigated. And the obtained results are evaluated by comparing the traditional calculation results.
Publisher
International Journal of Automotive Science and Technology
Reference84 articles.
1. [1] Ehsani M., Gao Y, Emadi A. Modern Electric, Hybrid Electric, and Fuel Cell Vehicles - Fundamentals, Theory, and Design. CRC Press 2nd ed., Boca Raton, FL: Taylor and Francis Group, LLC. 2010.
2. [2] Demir U., Aküner M. C. Design and Analysis of Radiaxial In-duction Motor. Electrical Engineering. 2018; 100(4): 2361-2371.
3. [3] Christensen, T., Sørensen, N.B., Bøg, B. Energy Efficient Con-trol of an Induction Machine for an Electric Vehicle. Master Thesis, Aalborg University, Study Board of Industry and Glob-al Business Development, Denmark. 2012.
4. [4] Demir U., Aküner M. C. Design and Optimization of in-Wheel Asynchronous Motor for Electric Vehicle. Journal of the Facul-ty of Engineering and Architecture of Gazi University. 2018; 18(2): 1-21.
5. [5] Emirler M. T., Uygan İ. M. C., Güvenç B. A., Güvenç L.Robust PID Steering Control in Parameter Space for Highly Automated Driving. International Journal of Vehicular Technology. 2014; 259465: 1687-5702.
Cited by
1 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献