Obiettivo
The proposal is to set up intelligent technologies for power trains to generate nearly collision free vehicle. Such a vehicle will not only reactively cope with dangerous situations, it will also be in the position to predict such situation and thus prevent accidents. These possibilities are limited in today's power trains, e.g. because of lack of a x-by-wire steering and lack of failure tolerant system architecture. A secure failure tolerant power train system has not been considered yet in any automobile accident prevention system. To achieve the necessary requirement, an intelligent automatic control of the vehicle kinematics and safety features is needed. A fully electronically power train provides the technological basis.
Objectives:
The objectives of PEIT project are to set up new technologies for power trains in order to create a nearly collision free vehicle. Such a vehicle's power train will not only reactively cope with dangerous situations it will also be able to predict such a situation and thus prevent an accident. The PEIT functions will be demonstrate on a heavy truck as vehicle base. More specific objectives include:- nearly accident free vehicles by providing an intelligent power train- failure tolerant system Architecture- electronic stabilisation programs (ESP) with additional steering control- predictive collision avoidance, lane departure, speed limitations- early detection of defects (predictive diagnosis)- building of a demonstration vehicle.
Work description:
To realize these technologies a vehicle base will be set up that enables a pure electronic control of the vehicle's kinematics and thus the vehicle's power train.
The technical and work is carried out in the following work packages:
- Definition of a failure-tolerant system architecture (work package 2);
- Development of the following individual chassis subsystems for the demonstration of the PEIT functions (work package 3):
- Intelligent power train architecture;
- Electronic stabilisation program (ESP) with additional steering control to improve the vehicle dynamics;
- Brake-by-wire system with a 2-electronic-circuit architecture;
- Fail-safe intelligent energy management system for the electric energy supply;
- Intelligent tyre yielding information on the friction coefficient for braking capability;
- Integration of the subsystems into the vehicle base (work package 4);
- Demonstration and evaluation of the demonstrator vehicle (workpackage 5).
Furthermore, in order to prepare the intelligent power train for market introduction, supporting work on legal assessment is part of the project. Also, work will be undertaken to assist the formulation of an open European standards (architecture and the interfaces) and homologation of the systems. This is done in workpackage 6.Finally a wide dissemination of the project via the Web and through traditional channels results will be performed in workpackage 7.
Milestones:
The work progress of the project is measured by the achievement of the following milestones
M1: Overall architecture and interfaces defined (month 9)
M2: Accident analysis finished and subsystems specified (month 12);
M3: Subsystems developed (month 18);
M4: Subsystems integrated in vehicle base (month 24);
M5: Demonstrator truck ready for testing (month 27);
M6: Demonstrator truck evaluated (month 36).
Campo scientifico
Not validated
Not validated
- engineering and technologyelectrical engineering, electronic engineering, information engineeringelectrical engineeringelectric energy
- engineering and technologyenvironmental engineeringenergy and fuelsrenewable energy
- engineering and technologymechanical engineeringvehicle engineeringautomotive engineeringdrive by wire
Argomento(i)
Invito a presentare proposte
Data not availableMeccanismo di finanziamento
CSC - Cost-sharing contractsCoordinatore
70567 STUTTGART
Germania