基于动态规划的混合队列网联车辆绿色速度咨询系统设计

2023 1st International Conference on Advanced Innovations in Smart Cities (ICAISC) Pub Date : 2023-01-23 DOI:10.1109/ICAISC56366.2023.10085392

Abdulehad Özdemir, I. M. Koç

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引用次数: 0

摘要

环境问题和相关战略，推动混合动力和电动汽车有更多的市场份额，由于其排放优势，这取决于电力碳强度。随着越来越多的电动汽车投入使用，交通正变得越来越混合。另一方面，有效利用通信系统的智慧城市应用使绿色能源管理系统得以发展。为减少由传统车辆和电动车辆组成的车队从井到轮的排放，开发了一种基于动态规划的优化系统。优化器的设计变量为车速剖面，目标函数为总排放量。无论是传统汽车还是电动汽车，都开发了基于模型优化的排放图。对于定义的用例，通过测试车辆获得的验证结果表明，优化器可以将车辆的总排放量减少19.8%。

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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Dynamic Programing-based Green Speed Advisory System Design for Mixed Platooning Connected Vehicles

Environmental concerns and related strategies, push hybrid and electric vehicles to have more market share due to their emission advantage which depends on electric carbon intensity. The traffic is getting mixed according to energy sources by increasing number of electric vehicles in use. On the other hand, smart city applications by the effective use of communication systems enable the development of green energy management systems. In this paper, a dynamic programing-based optimization system is developed to decrease Well-to-Wheels emissions of a platoon which consists of conventional and electric vehicles. The design variable of the optimizer is the speed profile and the objective function is the total emission. Both for conventional and electric vehicles, emission maps are developed for model-based optimization. For the defined use case validated results which were acquired by testing the vehicles, show that the optimizer can decrease the total emissions of the vehicles by 19.8%.

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2023 1st International Conference on Advanced Innovations in Smart Cities (ICAISC)

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