Optimal energy utilization in conventional, electric and hybrid vehicles and its application to eco-driving

19 Nu¨esch T., Wang M., Voser C., Guzzella L (2012) Optimal energy management and sizing for hybrid electric vehicles considering transient emissions, 2012 IFAC Workshop on Engine

Concretely the road transportation impact on cli- mate change can be lowered by: encouraging eco-driving behaviors or limiting the use of car itself (Driver part), enhancing

A hybrid iterative local search algorithm for the electric fleet size and mix vehicle routing problem with time windows and recharging stations. IFAC-PapersOnLine, 49

The vehicle speed, the accumulated fuel consumption, the gear-box ratio and the torque needed to follow the driving cycles for the EUDC case are given in Figures 7, 9, 8 and

The result is that, for the two systems considered, in the case of urban driving cycles (mean speed values less than 35km/h), a look-ahead distance of 300m to 500km leads to

Vehicle speed (km/h) vs distance (meter) for different cycles: initial (blue dotted line), Maximum authorized speed (green dashed line), Internal Combustion Engine based

To manage velocity and acceleration overflows, we pro- ceed in two steps. Firstly, we detect for each component of the input function the intervals over which a kinematic bound

Consequently, to produce the same torque, the copper losses will be lower (Fig.5.). However, the fact of the higher alimentation frequency may give higher iron losses.