This paper presents a new method for the design and validation of advanced driver assistance systems (ADASs). With vehicle hardware-in-the-loop (VEHIL) simulations, the development process, and more specifically the validation phase, of intelligent vehicles is carried out safer, cheaper, and is more manageable. In the VEHIL laboratory, a full-scale ADAS-equipped vehicle is set up in a hardware-in-the-loop simulation environment, where a chassis dynamometer is used to emulate the road interaction and robot vehicles to represent other traffic. In this controlled environment, the performance and dependability of an ADAS is tested to great accuracy and reliability. The working principle and the added value of VEHIL are demonstrated with test re...
To enhance the efficiency and safety of today's road transport, the application of driver support sy...
This paper presents the latest developments of the VEHIL facility, which aims to make the developmen...
The application of driver support systems and automated (intelligent) transport systems is getting i...
This paper presents a new method for the design and validation of advanced driver assistance systems...
This paper presents a new method for the design and validation of advanced driver assistance systems...
This paper presents a new method for the design and validation of advanced driver assistance systems...
This thesis presents new tools and methods for the design and validation of advanced driver assistan...
This paper presents a methodological approach for validation of advanced driver assistance systems (...
A new Hardware-in-the-Loop method for the design of Advanced Driver Assistance (ADA) systems for roa...
The project is mainly aimed to fulfill two objectives. The first, gather and explain all the informa...
We present a methodological approach for the validation of fault management systems for Advanced Dri...
The application of driver support systems and automated (intelligent) transport systems is getting i...
AbstractAdvanced driving-assistance systems (ADAS) have recently received an increasing attention fr...
This paper presents a virtual validation and testing framework for ADAS (Advanced Driver Assistant S...
To enhance the efficiency and safety of today's road transport, the application of driver support sy...
This paper presents the latest developments of the VEHIL facility, which aims to make the developmen...
The application of driver support systems and automated (intelligent) transport systems is getting i...
This paper presents a new method for the design and validation of advanced driver assistance systems...
This paper presents a new method for the design and validation of advanced driver assistance systems...
This paper presents a new method for the design and validation of advanced driver assistance systems...
This thesis presents new tools and methods for the design and validation of advanced driver assistan...
This paper presents a methodological approach for validation of advanced driver assistance systems (...
A new Hardware-in-the-Loop method for the design of Advanced Driver Assistance (ADA) systems for roa...
The project is mainly aimed to fulfill two objectives. The first, gather and explain all the informa...
We present a methodological approach for the validation of fault management systems for Advanced Dri...
The application of driver support systems and automated (intelligent) transport systems is getting i...
AbstractAdvanced driving-assistance systems (ADAS) have recently received an increasing attention fr...
This paper presents a virtual validation and testing framework for ADAS (Advanced Driver Assistant S...
To enhance the efficiency and safety of today's road transport, the application of driver support sy...
This paper presents the latest developments of the VEHIL facility, which aims to make the developmen...
The application of driver support systems and automated (intelligent) transport systems is getting i...