Add to ORKGIn this work, a methodology for the estimation of the liquid fraction of a proton exchange membrane fuel cell (PEMFC) is developed. Specifically, a model-based chattering- free high order sliding mode (CHOSM) observer is designed for the estimation of two dynamic states: the PEMFC temperature and the liquid water saturation. The observation strategy is discussed in a simulation environment using the common ARTEMIS driving cycle (CADC) as a case study
Optimal control of liquid water dynamics plays an instrumental role in achieving optimised performan...
This work presents the design of an adaptive observer to estimate the cathode catalytic layer's wate...
This paper presents the development of a nonlinear state observer to estimate the different gas spec...
In this work, a methodology for the estimation of the liquid fraction of the liquid fraction of a pr...
In this work, a methodology for the estimation of the liquid fraction of a proton exchange membrane ...
In this paper, a nonlinear distributed parameter observer (NDOP) is developed for the estimation of ...
In this paper, a nonlinear distributed parameter observer (NDOP) is developed for the estimation of ...
International audienceThis work proposes a state observer as a tool to manage cost and durability is...
This paper presents a scheme of designing finite-time high-order sliding mode (HOSM) observer which ...
This paper compares two Nonlinear Distributed Parameter Observers (NDPO) for the observation of a Pr...
Efficiency, reliability and lifetime of polymer electrolyte membrane fuel cells (PEMFCs) are signifi...
A scheme for designing a second-order sliding-mode (SOSM) observer that estimates critical internal ...
This paper presents a nonlinear observer design for Proton Exchange Membrane Fuel-Cell (PEMFC) syste...
This paper compares two Nonlinear Distributed Parameter Observers (NDPO) for the observation of a Pr...
The main objective of this manuscript is to design a high-order sliding-mode observer to provide fin...
Optimal control of liquid water dynamics plays an instrumental role in achieving optimised performan...
This work presents the design of an adaptive observer to estimate the cathode catalytic layer's wate...
This paper presents the development of a nonlinear state observer to estimate the different gas spec...
In this work, a methodology for the estimation of the liquid fraction of the liquid fraction of a pr...
In this work, a methodology for the estimation of the liquid fraction of a proton exchange membrane ...
In this paper, a nonlinear distributed parameter observer (NDOP) is developed for the estimation of ...
In this paper, a nonlinear distributed parameter observer (NDOP) is developed for the estimation of ...
International audienceThis work proposes a state observer as a tool to manage cost and durability is...
This paper presents a scheme of designing finite-time high-order sliding mode (HOSM) observer which ...
This paper compares two Nonlinear Distributed Parameter Observers (NDPO) for the observation of a Pr...
Efficiency, reliability and lifetime of polymer electrolyte membrane fuel cells (PEMFCs) are signifi...
A scheme for designing a second-order sliding-mode (SOSM) observer that estimates critical internal ...
This paper presents a nonlinear observer design for Proton Exchange Membrane Fuel-Cell (PEMFC) syste...
This paper compares two Nonlinear Distributed Parameter Observers (NDPO) for the observation of a Pr...
The main objective of this manuscript is to design a high-order sliding-mode observer to provide fin...
Optimal control of liquid water dynamics plays an instrumental role in achieving optimised performan...
This work presents the design of an adaptive observer to estimate the cathode catalytic layer's wate...
This paper presents the development of a nonlinear state observer to estimate the different gas spec...