Proton exchange membrane fuel cells (PEMFCs) as power systems have been widely
studied in various application fields because of advantages such as cleanness and high …

The proton exchange membrane fuel cell (PEMFC) system is a promising candidate for the
future electric vehicle power source. But the widespread deployment of fuel cell vehicle is …

In this paper, an output feedback stabilization of perturbed double-integrator systems using
super-twisting control (STC) is studied. It is shown that when STC is implemented based on …

In this paper, a model-based robust control is proposed for the polymer electrolyte
membrane fuel cell air-feed system, based on the second-order sliding mode algorithm. The …

Efficient oxygen excess ratio (OER) control is of great importance for proton exchange
membrane fuel cell because it is closely associated with the economic efficiency and safety …

Insufficient and time-delayed air supply reduces the performance and durability of fuel cell
system in vehicular application. Considering the strong coupling between mass flow and …

In this paper, a feedback linearization controller is proposed for the van compressor in the
air supply system of a proton exchange membrane fuel cell. The control goal is to avoid …

Fuel cells are a promising solution for increasing driving range of electric vehicles. To
guarantee the high efficiency and stable operation of fuel cells, the effective regulation of …

In this paper, a novel hybrid Neural Network Algorithm-Differential Evolution (NNA-DE)
optimizer which integrates both NNA and DE is proposed. The proposed hybrid NNA-DE …

Optimized robust control for proton exchange membrane (PEM) fuel cell air supply systems
is now a hot topic in improving the performance of oxygen excess ratio (OER) and the net …