稀燃发动机后处理的近似动态规划解

Proceedings of the 38th IEEE Conference on Decision and Control (Cat. No.99CH36304) Pub Date : 1999-12-07 DOI:10.1109/CDC.1999.830269

Junmo Kang, I. Kolmanovsky, J. Grizzle

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引用次数: 29

摘要

为生产节能环保的汽车而展开的竞争促使汽车行业考虑更复杂的动力总成系统。传统的方法在硬件使用和最终控制软件校准方面投入了大量的精力，这些新的高度交互的系统已无法获得足够的性能。本文探讨了使用动态规划来制定基于模型的设计决策的贫燃，直接喷射火花点火发动机，结合了三路催化剂和贫氮氧化物捕集器后处理系统。主要贡献是开发了一种非常快速的方法来评估这种新型动力总成系统在燃油经济性和排放方面的权衡，作为设计参数和控制器结构的函数，在标准排放测试周期内。

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Approximate dynamic programming solutions for lean burn engine aftertreatment

The competition to deliver fuel efficient and environmentally friendly vehicles is driving the automotive industry to consider ever more complex powertrain systems. Adequate performance of these new highly interactive systems can no longer be obtained through traditional approaches, which are intensive in hardware use and final control software calibration. The paper explores the use of dynamic programming to make model-based design decisions for a lean burn, direct injection spark ignition engine, in combination with a three way catalyst and lean NOx trap aftertreatment system. The primary contribution is the development of a very rapid method to evaluate the tradeoffs in fuel economy and emissions for this novel powertrain system, as a function of design parameters and controller structure, over a standard emission test cycle.

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Proceedings of the 38th IEEE Conference on Decision and Control (Cat. No.99CH36304)

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