To meet increasingly stringent emission regulations modern internal combustion engines require highly accurate control of the air-to-fuel ratio. The performance of the conventional air-to-fuel ratio feedback loop is limited by the combustion delay between fuel injection and engine exhaust, and by the transport delay for the exhaust gas to propagate to the air-to-fuel ratio sensor location. The combined delay is variable, since it depends on engine speed and airflow. Drivability, fuel economy and emission requirements result in constraints on the deviations of the air-to-fuel ratio, stored oxygen in the three-way catalyst, and fuel injection. This paper proposes an approach for air-to-fuel ratio control based on Model Predictive Control (MPC...
Future emission standards make it necessary to focus on the conditions under which engine emissions ...
The air-fuel ratio control problem has been the focus of research in academia ever since the advent ...
A precise control of the normalized air to fuel ratio in spark ignition engines is an essential task...
To meet increasingly stringent emission regulations modern internal combustion engines require highl...
The focus of this paper is the air fuel ratio control of spark ignited engines. It is known that for...
Model Predictive Control (MPC) can enable powertrain systems to satisfy more stringent vehicle requi...
Idle speed control is a landmark application of feedback control in automotive vehicles that continu...
Around the world, vehicle emission regulations become stricter, increasing exhaust emission demands....
The process to induct air into engine cylinders, via the air inlet system and cylin-der port valves,...
A model-based approach for the idle speed control of ultra-lean burn engines is presented. The resul...
In this work, a model-based controller for the air to fuel ratio (represented by λ) is designed for ...
International audienceThis paper deals with air-fuel ratio control for a gasoline combustion engine....
The work presented in this thesis is motivated by the need to reliably operate a compression-ignitio...
As a response to the ever more stringent emission standards, automotive engines have become more com...
The control of Internal Combustion (IC) engines is dominated by conventional controllers that regula...
Future emission standards make it necessary to focus on the conditions under which engine emissions ...
The air-fuel ratio control problem has been the focus of research in academia ever since the advent ...
A precise control of the normalized air to fuel ratio in spark ignition engines is an essential task...
To meet increasingly stringent emission regulations modern internal combustion engines require highl...
The focus of this paper is the air fuel ratio control of spark ignited engines. It is known that for...
Model Predictive Control (MPC) can enable powertrain systems to satisfy more stringent vehicle requi...
Idle speed control is a landmark application of feedback control in automotive vehicles that continu...
Around the world, vehicle emission regulations become stricter, increasing exhaust emission demands....
The process to induct air into engine cylinders, via the air inlet system and cylin-der port valves,...
A model-based approach for the idle speed control of ultra-lean burn engines is presented. The resul...
In this work, a model-based controller for the air to fuel ratio (represented by λ) is designed for ...
International audienceThis paper deals with air-fuel ratio control for a gasoline combustion engine....
The work presented in this thesis is motivated by the need to reliably operate a compression-ignitio...
As a response to the ever more stringent emission standards, automotive engines have become more com...
The control of Internal Combustion (IC) engines is dominated by conventional controllers that regula...
Future emission standards make it necessary to focus on the conditions under which engine emissions ...
The air-fuel ratio control problem has been the focus of research in academia ever since the advent ...
A precise control of the normalized air to fuel ratio in spark ignition engines is an essential task...