Who's Online

We have 19 guests and no members online


Project Overview

Today's Fully Electric Vehicles (FEV) have limited driving ranges. Customer surveys prove an adequately long and dependable driving range is more important than the cost of ownership. Therefore considerable efforts are being made to meet this challenge, e.g. higher capacity batteries and powertrain efficiencies.

The OpEneR project (Optimal Energy consumption and Recovery) addresses this fundamental FEV weakness. OpEneR aims to unlock the FEV market by increasing the driving range, not by enhancing battery technologies, but by the development of an intelligent energy management and recovery system, integrating existing subsystems with on-board and off-board sensors. The objective is a new energy manager coordinating control strategies to maximise real world energy saving. The system provides advanced driver support based on a networked architecture comprising battery management, e machine, regenerative braking, satellite navigation, dashboard displays, whilst integration of the vehicle stability controller and environmental sensing care also for safety issues.


OpEneR considers the dynamic boundary conditions for electric braking, i.e. traction limits, system temperatures, battery charge. The driver is assisted to maximise energy recovery, avoiding unnecessary disc braking. Driver support includes estimated braking distance, recuperation capability visualization and braking tips based on traffic flow / navigation data and predictive cooperative information, car-to-car (c2c) and car-to-infrastructure (c2i). This requires a new integrated approach where all available information is used to generate safe and efficient predictions.

Currently little data is exchanged between the diverse subsystems and no overall HMI concept exists. OpEneR addresses these issues to maximise efficiency and recuperation to significantly extend FEV range.

The final project goal is to demonstrate the benefits of OpEneR strategies with 2 fully operational FEV tested in real world conditions.

OpEneR is a European research project under the Seventh Framework Programme - Grant agreement n. 285526