Eco-driving control of electric vehicle with battery dynamic model and multiple traffic signals

Limited capacity and short life cycle of a battery are the major impediments in development of practical Electric Vehicles (EVs). Eco-driving is an optimization technique through which a velocity trajectory that consumes minimum energy is advised to the driver. However, presence of traffic signals to control large traffic network degrades the performance of eco-driving; as applying brakes to stop and then maximum re-acceleration to restart a trip consumes lot of energy. Eco-driving problem with multiple traffic signals and static model of battery has been proposed as Two Point Boundary Value Problem (TPBVP). TPBVP fails to solve multi-phase problem as a single phase due to discontinuity of the co-states at the junction, that is, start of a new phase. This paper investigates an optimal solution with both EV and battery dynamics in the presence of multiple traffic signals as Multi Point Boundary Value Problem (MPBVP) using multiple shooting technique. Traffic signals come at some intermediate points of a trip. MPBVP ensures continuity at the junction to solve the multi-phase problem as a single phase through inter dependencies between each phases. Goal of this work is not only to solve constrained eco-driving problem with traffic signals but also include charging and discharging limits on battery that indirectly improves battery’s life cycle. Results indicate that EV has crossed all the traffic signals during their green duration without applying brakes with also satisfying all the other constraints and continuity condition. Moreover, it can be seen that energy consumption using MPBVP is also marginally lesser as compared to TPBVP.

[1]  Antonio Sciarretta,et al.  Optimal Ecodriving Control: Energy-Efficient Driving of Road Vehicles as an Optimal Control Problem , 2015, IEEE Control Systems.

[2]  U Zoelch,et al.  Dynamic optimization method for design and rating of the components of a hybrid vehicle , 2014 .

[3]  Thomas Antony,et al.  Rapid Indirect Trajectory Optimization on Highly Parallel Computing Architectures , 2017 .

[4]  Victor M. Becerra,et al.  Solving optimal control problems with state constraints using nonlinear programming and simulation tools , 2004, IEEE Transactions on Education.

[5]  J. Barkenbus Eco-driving: An overlooked climate change initiative , 2010 .

[6]  Edward K. Morlok,et al.  Vehicle Speed Profiles to Minimize Work and Fuel Consumption , 2005 .

[7]  Himanshu,et al.  An Online Data-Driven Model Identification and Adaptive State of Charge Estimation Approach for Lithium-ion-Batteries Using the Lagrange Multiplier Method , 2018, Energies.

[8]  Jonas Sjöberg,et al.  Component sizing of a plug-in hybrid electric powertrain via convex optimization , 2012 .

[9]  Lino Guzzella,et al.  Particle swarm optimisation for hybrid electric drive-train sizing , 2012 .

[10]  O. V. Stryk,et al.  Numerical Solution of Optimal Control Problems by Direct Collocation , 1993 .

[11]  Philippe Moulin,et al.  Optimal Energy Management Compliant with Online Requirements for an Electric Vehicle in Eco-Driving Applications , 2012 .

[12]  N. Petit,et al.  Optimal drive of electric vehicles using an inversion-based trajectory generation approach , 2011 .

[13]  Simona Onori,et al.  Hybrid Electric Vehicles , 2016 .

[14]  Stefano Di Cairano,et al.  Cloud-Based Velocity Profile Optimization for Everyday Driving: A Dynamic-Programming-Based Solution , 2014, IEEE Transactions on Intelligent Transportation Systems.

[15]  Ardalan Vahidi,et al.  Predictive Cruise Control: Utilizing Upcoming Traffic Signal Information for Improving Fuel Economy and Reducing Trip Time , 2011, IEEE Transactions on Control Systems Technology.

[16]  Maarten Steinbuch,et al.  Review of Optimization Strategies for System-Level Design in Hybrid Electric Vehicles , 2017, IEEE Transactions on Vehicular Technology.

[17]  R. Bellman Dynamic Programming , 1957, Science.

[18]  Hesham Rakha,et al.  A methodology for assessing eco-cruise control for passenger vehicles , 2013 .

[19]  Erik Hellström,et al.  Look-ahead Control for Heavy Trucks to minimize Trip Time and Fuel Consumption , 2007 .

[20]  A. I. Bhatti,et al.  Cyclic torque imbalance detection in gasoline engines using a uniform second-order sliding mode observer , 2019, Proceedings of the Institution of Mechanical Engineers, Part D: Journal of Automobile Engineering.

[21]  Wissam Dib,et al.  Optimal energy management for an electric vehicle in eco-driving applications , 2014 .

[22]  Carlos Canudas de Wit,et al.  Eco-driving in urban traffic networks using traffic signal information , 2013, 52nd IEEE Conference on Decision and Control.

[23]  Dimitar Filev,et al.  Analytical Solution to the Minimum Energy Consumption Based Velocity Profile Optimization Problem With Variable Road Grade , 2014 .