Optimal Energy Management in Hybrid Electric Trucks Using Route Information

Oil & Gas Science and Technology-revue De L Institut Francais Du Petrole Pub Date : 2010-01-01 DOI:10.2516/OGST/2009026

T. Keulen, A. G. D. Jager, A. Serrarens, M. Steinbuch

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引用次数: 66

Abstract

To benchmark a hybrid vehicle’s Energy Management Strategy (EMS) usually a given, often certified, velocity trajectory is exploited. In this paper it is reasoned that it is also beneficial to optimize the velocity trajectory. Especially optimizing the vehicle braking trajectories, through maximization of energy recuperation, results in considerable fuel savings on the same traveled distance. Given future route (target velocities as function of traveled distance/location), traffic, and possibly weather information, together with the vehicle’s road load parameters, the future power request trajectory can be estimated. Dynamic Programming (DP) techniques can then be used to predict the optimal power split trajectory for the upcoming route, such that a desired state-of-charge at the end of the route is reached. The DP solution is re-calculated at a certain rate in order to adapt to changing conditions, e.g. , traffic conditions, and used in a lower level real-time EMS to guarantee both battery state-of-charge as well as minimal fuel consumption.

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基于路线信息的混合动力卡车最优能量管理

为了对混合动力汽车的能源管理策略(EMS)进行基准测试，通常会利用给定的、通常经过认证的速度轨迹。本文认为，这也有利于速度轨迹的优化。特别是优化车辆制动轨迹，通过最大限度地回收能量，在相同的行驶距离上节省了相当多的燃料。给定未来的路线(目标速度作为行驶距离/位置的函数)，交通，以及可能的天气信息，以及车辆的道路负载参数，可以估计未来的功率请求轨迹。然后可以使用动态规划(DP)技术来预测即将到来的路线的最优功率分配轨迹，从而在路线结束时达到期望的充电状态。DP解决方案以一定的速率重新计算，以适应不断变化的条件，例如交通条件，并用于较低级的实时EMS，以保证电池的充电状态和最小的燃料消耗。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Oil & Gas Science and Technology-revue De L Institut Francais Du Petrole

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