混合动力系统运行策略的虚拟多准则标定

Marc Timur Düzgün, Frank Dorscheidt, Sascha Krysmon, Peter Bailly, Sung-Yong Lee, Christian Dönitz, Stefan Pischinger
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引用次数: 0

摘要

在混合动力汽车的发展中,运营策略对实现排放达标、高能效等发展目标具有决定性作用。在校准过程中,必须考虑对其他主题(如排放、车载诊断或驾驶性能)的大量相互作用和交叉影响。在这方面,给定的时间限制构成了进一步的挑战。为了克服这些问题,对校准过程进行虚拟化是一种有效的措施。为此,在目前的研究中,将一个真实的发动机控制单元嵌入到所谓的硬件在环(HiL)试验台的虚拟仿真环境中,从而允许对整个目标车辆进行虚拟校准和验证。在此背景下,本文提出了一种新的混合动力推进系统运行策略虚拟标定方法。这包括一种创新的多标准方法,该方法考虑了若干开发任务的要求,例如排放和OBD校准。此优化的测量数据是在为所述方法定制的HiL测试台设置上生成的,包括电气设置和仿真环境。为了验证建模方法的选择和参数化,仿真环境在开环中运行。开环验证的结果显示了有关建议用例的有希望的行为。最后,与传统方法相比,提出的方法对时间和成本节约进行了评估。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Virtual Multi-Criterial Calibration of Operating Strategies for Hybrid-Electric Powertrains
In hybrid vehicle development, the operating strategy has a decisive role in meeting the development goals, such as compliance with emission standards and high energy efficiency. A considerable number of interactions and cross-influences on other topics, such as emissions, on-board diagnostics, or drivability, must be considered during the calibration process. In this context, the given time constraints pose further challenges. To overcome these, approaches for virtualization of the calibration process are an effective measure. For this purpose, in the current study, a real engine control unit is embedded into a virtual simulation environment on so-called hardware-in-the-loop (HiL) testbenches, which allow virtual calibration and validation of the complete target vehicle. In this context, the paper presents a novel method for virtual calibration of operating strategies for hybrid-electric propulsion systems. This includes an innovative multi-criterial approach that considers the requirements of several development tasks, such as emission and OBD calibration. Measurement data for this optimization is generated on a HiL testbench setup tailored for the described methodology, including both the electrical setup and the simulation environment. To validate the selection of modeling approaches and the parametrization, the simulation environment is operated in open loop. The results of the open loop validation show promising behavior regarding the proposed use case. Finally, the presented methodology is evaluated regarding time and cost savings compared to a conventional approach.
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