2021
DOI: 10.3390/en14040889
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Development of an Efficient Thermal Electric Skipping Strategy for the Management of a Series/Parallel Hybrid Powertrain

Abstract: In recent years, the development of hybrid powertrain allowed to substantially reduce the CO2 and pollutant emissions of vehicles. The optimal management of such power units represents a challenging task since more degrees of freedom are available compared to a conventional pure-thermal engine powertrain. The a priori knowledge of the driving mission allows identifying the actual optimal control strategy at the expense of a quite relevant computational effort. This is realized by the off-line optimization stra… Show more

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Cited by 4 publications
(5 citation statements)
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“…It is worth underlining that, differently from other methods (such as the "Rule-Based" strategies), the ETESS is versatile and also suitable to any HEV architecture. The reliability and effectiveness of ETESS have been verified in previous works along different driving cycles [6,43,44].…”
Section: Efficient Thermal Electric Skipping Strategymentioning
confidence: 69%
See 4 more Smart Citations
“…It is worth underlining that, differently from other methods (such as the "Rule-Based" strategies), the ETESS is versatile and also suitable to any HEV architecture. The reliability and effectiveness of ETESS have been verified in previous works along different driving cycles [6,43,44].…”
Section: Efficient Thermal Electric Skipping Strategymentioning
confidence: 69%
“…The MPC strategy proposed in this work acts as a high-level controller, operating as an interface between the Smart Road and a hybrid powertrain. Thus, on one side the MPC manages vehicle maneuvers acting on the steering angle and wheel torque, based on the information from the surrounding environment, considering: On the other hand, the torque request provided by MPC is handled by the EMS through the ETESS strategy proposed by the authors in previous works [5,6]. In this way, the MPC occupies two layers of the real-time control for CAVs presented in [3]: (i) motion control; (ii) powertrain control.…”
Section: Mpc For Cavsmentioning
confidence: 99%
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