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考虑误差影响的高速公路检测器优化布设OA

Optimization of expressway sensor deployment considering error impact

中文摘要英文摘要

为提升交通状态估计精度与事件检测能力,提出了考虑误差影响的两阶段高速公路检测器布设优化方法,并引入机会约束表征误差的不确定性.第一阶段以服务水平估计精度为优化目标,制定检测器初步布设方案;第二阶段集成3种交通事件检测模型,以提升事件检测率为目标开展检测器增设优化.两个阶段均采用遗传算法(genetic algorithm,GA)进行求解.基于FOSIM仿真平台,以广西某高速公路为对象构建模型,设置4组不同误差水平的实验以评估优化方法的性能.结果表明,第一阶段中,无误差组的服务水平估计精度随检测器布设数量增加而提升,含误差组则呈先升后降趋势,且误差水平越大,估计精度越低;第二阶段中,交通事件检测率随误差加剧显著下降.检测器增设优化后,含误差组的检测率提升幅度更大,而无误差组检测性能上限更高,这表明不同误差条件下优化策略的响应机制存在差异.误差水平对两阶段的评价指标均有显著影响.增设优化后服务水平估计指标虽略有降低,但整体保持在良好水平,验证了两阶段法的有效性.

This study proposes a two-stage optimization approach for expressway sensor deployment to improve traffic state estimation accuracy and incident detection capability,while explicitly accounting for error effects through the introduction of chance constraints to represent uncertainty.In the first stage,an initial sensor deploy-ment scheme is designed with the objective of maximizing service level estimation accuracy.In the second stage,three traffic incident detection models are integrated,and additional sensors are deployed to improve detection rates.Genetic algorithms are employed in both stages to solve the optimization problems.A case study based on the FOSIM simulation platform is conducted on an expressway in Guangxi Province,with four experimental scenarios under varying error levels to evaluate the performance of the proposed method.Results show that in the first stage,service level estimation accuracy improves with increased sensor quantity in the error-free group,while it exhibits a rise-then-fall trend in error-influenced groups,with larger errors leading to lower accuracy.In the second stage,detec-tion rates decline significantly under intensified error conditions.Error-influenced groups demonstrate greater im-provements after sensor addition,whereas the error-free group exhibits a higher performance ceiling,indicating dif-ferentiated response mechanisms under varying error conditions.Error levels have a significant impact on evaluation metrics in both stages.Although service level accuracy slightly decreases after sensor addition,it remains at a satis-factory level overall,validating the effectiveness of the proposed two-stage approach.

李洁;叶湘;秦晨洋

湖南大学 土木工程学院,湖南 长沙 410082湖南大学 土木工程学院,湖南 长沙 410082广西交科集团有限公司,广西 南宁 530007

交通工程

交通工程检测器优化布设误差影响高速公路机会约束

traffic engineeringsensor optimization deploymenterror impactexpresswaychance constraint

《湖南大学学报(自然科学版)》 2026 (3)

127-138,12

湖南省科学技术厅重点研发项目(2022SK2096),Department of Science and Technology of Hunan Province(2022SK2096)湖南省交通运输厅科技项目(202203),The Science and Technology Program of Hunan Provincial Department of Transportation(202203)湖南省交通运输厅科技项目(202322),The Science and Technology Program of Hunan Provincial Department of Transportation(202322)

10.16339/j.cnki.hdxbzkb.2026031

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