Unified predictive fuel efficiency optimization using traffic light sequence information

Unified predictive fuel efficiency optimization using traffic light sequence information

Energy efficiency has become a major issue in trade, transportation and environment protection. While the next generation of zero emission propulsion systems still have difficulties in reaching similar travel distances as power-trains with combustion engines, it is already possible to increase fuel...

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Hauptverfasser: Guan, Tianyi, Frey, Christian W
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Sprache:eng
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dynamic programming
fuel efficiency driving
model predictive optimization
reuse historic costs
Search space reduction
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description Energy efficiency has become a major issue in trade, transportation and environment protection. While the next generation of zero emission propulsion systems still have difficulties in reaching similar travel distances as power-trains with combustion engines, it is already possible to increase fuel efficiency in regular vehicles by applying a more fuel efficient driving behavior. The rise of V2X technologies have opened up new possibilities for safety and energy efficiency applications. This publication proposes a model predictive approach that makes use of a power-train model and a sequence of traffic lights over a finite optimization horizon. The optimization problem is solved in a unified manner, i.e. power-train properties and traffic light phases are not considered separately but evaluated in a single cost function. A stagewise forward-backward Dynamic Programming approach involving cost reutilization is used for optimization. In order to further decrease the search space, certain continuous entities are not explicitly regarded as a state component, but rather calculated during optimization.
doi_str_mv 10.1109/IVS.2016.7535527
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identifier DOI: 10.1109/IVS.2016.7535527
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subjects dynamic programming
fuel efficiency driving
model predictive optimization
reuse historic costs
Search space reduction
title Unified predictive fuel efficiency optimization using traffic light sequence information
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