Real driving emissions (RDE) testing is an important legislative tool to reduce the gap between type-approval and real-world emissions of internal combustion engines. Since low fuel consumption and low nitrogen oxides (NOx) emissions are conflicting objectives, the setpoints of a Diesel engine and its exhaust-gas aftertreatment system have to be optimised and controlled accordingly. To this end, several authors have developed a so-called supervisory controller. In order to comply with RDE legislation, most approaches use a conservative tuning and thus sacrifice performance. In this paper, we explicitly include the RDE requirements in the optimal control problem, which we then solve using direct multiple shooting and nonlinear programming. U...
Fuel efficiency and emission reductions are the two consistent drivers for internal combustion engin...
Significant reduction in fuel consumption and NOx emissions can be achieved just by changing the dri...
In this article, a modular control framework for integrated engine and exhaust aftertreatment manage...
Heavy-duty diesel engines are used in a wide range of applications. For varying operating environmen...
Heavy-duty diesel engines are used in a wide range of applications. For varying operating environmen...
\u3cp\u3eIntegrated Emission Management (IEM) is a supervisory control strategy that minimises opera...
The energy management system of Diesel Hybrid Electric Vehicles allows the reduction of raw emission...
This article provides a detailed description of a supervisory control problem for a heavy-duty vehic...
Improvements in the availability of sensed and actuated vehicular systems have increased the opportu...
Diesel engines continue to be the prime movers in heavy-duty and non-road applications. Optimising a...
International audienceThis paper presents dynamic models associated to an experimental Diesel engine...
One of the main challenges during the development of operating strategies for modern diesel engines ...
AbstractIn this paper, we presented our research results on the implementation of approximate dynami...
Fuel economy is one of the major objectives of modern engine control. In addition, three major pollu...
In response to the increasingly stringent emission regulations and a demand for ever lower fuel cons...
Fuel efficiency and emission reductions are the two consistent drivers for internal combustion engin...
Significant reduction in fuel consumption and NOx emissions can be achieved just by changing the dri...
In this article, a modular control framework for integrated engine and exhaust aftertreatment manage...
Heavy-duty diesel engines are used in a wide range of applications. For varying operating environmen...
Heavy-duty diesel engines are used in a wide range of applications. For varying operating environmen...
\u3cp\u3eIntegrated Emission Management (IEM) is a supervisory control strategy that minimises opera...
The energy management system of Diesel Hybrid Electric Vehicles allows the reduction of raw emission...
This article provides a detailed description of a supervisory control problem for a heavy-duty vehic...
Improvements in the availability of sensed and actuated vehicular systems have increased the opportu...
Diesel engines continue to be the prime movers in heavy-duty and non-road applications. Optimising a...
International audienceThis paper presents dynamic models associated to an experimental Diesel engine...
One of the main challenges during the development of operating strategies for modern diesel engines ...
AbstractIn this paper, we presented our research results on the implementation of approximate dynami...
Fuel economy is one of the major objectives of modern engine control. In addition, three major pollu...
In response to the increasingly stringent emission regulations and a demand for ever lower fuel cons...
Fuel efficiency and emission reductions are the two consistent drivers for internal combustion engin...
Significant reduction in fuel consumption and NOx emissions can be achieved just by changing the dri...
In this article, a modular control framework for integrated engine and exhaust aftertreatment manage...