Acquisition of full-factor trip information for global optimization energy management in multi-energy source vehicles and the measure of the amount of information to be transmitted

Dynamic programming (DP), as a typical global optimization method, requires the prior knowledge of the future driving conditions. To standardize the DP optimizing process, a hierarchical optimization framework of information layer -physical layer -energy layer -dynamic programming (IPE-DP) is proposed. The trip information, as the prerequisite for implementing global optimization energy management, is acquired in the information layer. Firstly, full-factor trip information, including the vehicle speed, slope and slip rate, is acquired from three scenarios: deterministic information, information with constraints and information supported by historical data. If only the relevant constraints are available, a drivers-vehicles-roads full-factor constraint model is proposed to limit the trip information. Then, information entropy is introduced to measure the uncertainty of the trip information. Particularly, for information with constraints, the independence of various constraints ensures the additivity of the entropy as quantified by the drivers, vehicles and roads. Based on the above, the amount of information to be transmitted is analyzed at the end. To a certain extent, the proposed constraint model can lower the limit on data transfer rate. Furthermore, information entropy provides a theoretical basis for determining the amount of information required to optimize vehicle fuel economy and regional energy consumption. (c) 2021 Elsevier Ltd. All rights reserved.

Automated summary

A hierarchical optimization framework IPE-DP is proposed to standardize the DP optimizing process. The trip information is acquired in the information layer as a prerequisite for implementing energy management, and information entropy is introduced to measure information uncertainty. Additionally, the proposed constraint model can lower the limit on data transfer rate.