I. Introduction

Now a day's EVs are popular in all over the world. Several problems of environment are relevant in recent scenario. To make the EVs as future of personal transportation and to increase the customers' acceptance, these problems should be overcome by developing suitable technology. Limited charging capacity of battery, long charging time and insufficient charging stations are the major hindrances in EV system [1]. Therefore, the primary motivation to overcome such hindrances is the stored energy is to be utilized in an efficient way which leads to the development of energy management system. From previous research studies [2], it was found that driving behavior of a driver play a significant influence of fuel consumption. By realizing such research findings, an optimal driving based Energy Management System to assist drive (so called DAEM) was proposed in [3]. DAEM presents a driving strategy to the driver for optimal driving by solving a multi-objective optimization problem (MOOP) towards minimizing the energy consumption and trip time, and maximizing driving comfort. In [3], the working principle of DAEM was presented in a simple micro trip that consists of a single driving cycle. After analysizing the DAEM results corresponding to various micro-trip lengths, it was revealed that in addition to assist the driver for proper driving, a significant reduction of EV operating cost through minimizing the fuel consumption and increasing the safety factor can be achieved with the used of DAEM.It was found that DAEM system can reduce the energy utilization (above 1.7% per Km) depending on route type of simple micro-trip with low driving cycle. In [4], an extensive study of the influence of initial battery charge and route characteristics on DAEM results was conducted.