One of the major challenges in implementing the equivalent fuel consumption minimisation strategy in hybrid electric vehicles is the adaptation of the equivalence factor to real-world driving. In this paper, a novel adaptive equivalent fuel consumption minimisation strategy (A-ECMS) has been developed for a hybrid two-wheeler to further improve fuel savings by predicting the drive cycles and thereby estimating and adapting the equivalence factor online for the ECMS energy management control. A learning vector quantitative neural network (LVQNN)-based classifier was first proposed to recognise the real-world driving cycle based on a fixed time window of past driving information. Along with standardised drive cycles, real-world driving data w...
Meticulous design of the energy management control algorithm is required to exploit all fuel-saving ...
The depletion of fossil fuel and growing environmental pollution has led to the transformation of th...
Abstract: The paper considers a high efficiency energy management control strategy for a hybrid fuel...
One of the major challenges in implementing the equivalent fuel consumption minimisation strategy in...
Hybrid electric vehicles (HEVs) are considered the most practical option for reducing emissions and ...
An emerging technology is the hybridization of wheel loaders. Since wheel loaders commonly operate i...
The Equivalent Consumption Minimization Strategy (ECMS) is a well-known control strategy for the def...
Concerns over rising CO2 emissions, poor air quality and energy sustainability have led the transpor...
In order to achieve near-optimal fuel economy for plug-in hybrid electric vehicles (PHEVs) using the...
Abstract The most viable option to achieve the goals of saving energy and protecting the environment...
Energy management strategies can directly determine the dynamic performance and fuel economy of plug...
New equivalent consumption minimization strategy (ECMS) tools have been developed and applied to id...
The energy management strategy has a great influence on the fuel economy of hybrid electric vehicles...
Continued increases in the emission of greenhouse gases by passenger vehicles has accelerated the pr...
The paper considers a high efficiency energy management control strategy for a hybrid fuel cell vehi...
Meticulous design of the energy management control algorithm is required to exploit all fuel-saving ...
The depletion of fossil fuel and growing environmental pollution has led to the transformation of th...
Abstract: The paper considers a high efficiency energy management control strategy for a hybrid fuel...
One of the major challenges in implementing the equivalent fuel consumption minimisation strategy in...
Hybrid electric vehicles (HEVs) are considered the most practical option for reducing emissions and ...
An emerging technology is the hybridization of wheel loaders. Since wheel loaders commonly operate i...
The Equivalent Consumption Minimization Strategy (ECMS) is a well-known control strategy for the def...
Concerns over rising CO2 emissions, poor air quality and energy sustainability have led the transpor...
In order to achieve near-optimal fuel economy for plug-in hybrid electric vehicles (PHEVs) using the...
Abstract The most viable option to achieve the goals of saving energy and protecting the environment...
Energy management strategies can directly determine the dynamic performance and fuel economy of plug...
New equivalent consumption minimization strategy (ECMS) tools have been developed and applied to id...
The energy management strategy has a great influence on the fuel economy of hybrid electric vehicles...
Continued increases in the emission of greenhouse gases by passenger vehicles has accelerated the pr...
The paper considers a high efficiency energy management control strategy for a hybrid fuel cell vehi...
Meticulous design of the energy management control algorithm is required to exploit all fuel-saving ...
The depletion of fossil fuel and growing environmental pollution has led to the transformation of th...
Abstract: The paper considers a high efficiency energy management control strategy for a hybrid fuel...