This work aims at presenting a design methodology capable of modeling, generating, and testing a large number of multimode power split hybrid electric vehicle transmission designs in a relatively short period of time. Design parameters include the planetary gear ratios, the final drive ratio, the configuration of hookups to link the hybrid powertrain components to the planetary gear sets and the locations of clutch connections between different nodes of the planetary gear sets. The system modeling approach is first presented, including formulations for each component (the vehicle and road load, the engine, the motor/generators and the battery). A rapid and automated modeling procedure is proposed for hybrid electric vehicle transmissions in...
In order to significantly reduce vehicular fuel consumption and emission pollutants, power-split hyb...
This paper introduces a framework to systematically optimize the design and control of an electric v...
This paper presents the design and validation of a novel multi-mode transmission (MMT) for a hybrid ...
This paper presents a systematic design methodology for split hybrid vehicles using a single planeta...
Plug-in hybrid electric vehicles are developed to reduce the fuel consumption and the emission of ca...
This thesis deals with the requirement to improve the overall fuel efficiency of a vehicle, through ...
Plug-in hybrid electric vehicles are developed in order to reduce the fuel consumption and the emiss...
In hybrid electric vehicles with power-split configurations, the engine can be decoupled from the wh...
Planetary gear (PG) power-split hybrid powertrains have been used in producing hybrid and plug-in hy...
Abstract — In the design of hybrid vehicles, it is important to identify proper component sizes alon...
The present study has focused on the refinement of a previously developed tool for the optimization ...
Near term Hybrid Electric Vehicles (HEVs) generally employ current automotive transmissions. These a...
Among all the current environmentally-friendly ground vehicles proposed to reduce fuel consumption a...
The main aim of this paper is to investigate the performance of hybrid electrical vehicles (HEVs) us...
This study investigated the matching designs between a power integration mechanism (PIM) and transmi...
In order to significantly reduce vehicular fuel consumption and emission pollutants, power-split hyb...
This paper introduces a framework to systematically optimize the design and control of an electric v...
This paper presents the design and validation of a novel multi-mode transmission (MMT) for a hybrid ...
This paper presents a systematic design methodology for split hybrid vehicles using a single planeta...
Plug-in hybrid electric vehicles are developed to reduce the fuel consumption and the emission of ca...
This thesis deals with the requirement to improve the overall fuel efficiency of a vehicle, through ...
Plug-in hybrid electric vehicles are developed in order to reduce the fuel consumption and the emiss...
In hybrid electric vehicles with power-split configurations, the engine can be decoupled from the wh...
Planetary gear (PG) power-split hybrid powertrains have been used in producing hybrid and plug-in hy...
Abstract — In the design of hybrid vehicles, it is important to identify proper component sizes alon...
The present study has focused on the refinement of a previously developed tool for the optimization ...
Near term Hybrid Electric Vehicles (HEVs) generally employ current automotive transmissions. These a...
Among all the current environmentally-friendly ground vehicles proposed to reduce fuel consumption a...
The main aim of this paper is to investigate the performance of hybrid electrical vehicles (HEVs) us...
This study investigated the matching designs between a power integration mechanism (PIM) and transmi...
In order to significantly reduce vehicular fuel consumption and emission pollutants, power-split hyb...
This paper introduces a framework to systematically optimize the design and control of an electric v...
This paper presents the design and validation of a novel multi-mode transmission (MMT) for a hybrid ...