Task Assignment Scheme Designed for Online Urban Sensing Based on Sparse Mobile Crowdsensing

IF 8.9 1区计算机科学 Q1 COMPUTER SCIENCE, INFORMATION SYSTEMS

IEEE Internet of Things Journal Pub Date : 2025-02-10 DOI:10.1109/JIOT.2025.3540501

Hongjian Zeng;Yonghua Xiong;Jinhua She;Anjun Yu

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引用次数: 0

Abstract

Sparse mobile crowdsensing (SMCS) achieves urban-scale environmental sensing by assigning tasks to workers in specific subareas and inferring global data from the collected information. However, the effectiveness of SMCS is often limited because many studies overlook workers’ mobility and data collection time during subarea selection, as well as the time constraints of the sensing cycle in task assignment. This may affect the task completion timeliness and data quality. To address these issues, we develop a subarea evaluation method based on deep reinforcement learning, considering both the temporal effectiveness of sensing tasks and the importance of subarea selection for data inference. Using the subarea evaluation values derived from this method, we establish an online urban sensing task assignment model which is subject to constraints of sensing cycle time and cost budget. This model aims to find the task assignment result that minimizes data inference error by maximizing the comprehensive utility value. Considering the characteristics of the task assignment model, we propose an evolutionary algorithm named OTA-EA, which is based on an improved genetic algorithm. Its enhanced evolutionary operators can avoid generating infeasible solutions while maintaining robust search and optimization performance. Lastly, we conduct experimental evaluations of these methods on the real-world datasets. The results demonstrate that our subarea evaluation method can significantly reduce the data inference error, and our evolutionary task assignment algorithm can achieve better task assignment results than the baseline algorithms.

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基于稀疏移动众感的在线城市感知任务分配方案

稀疏移动人群感知（SMCS）通过将任务分配给特定子区域的工作人员，并从收集的信息中推断全球数据，实现城市尺度的环境感知。然而，由于许多研究在分区选择过程中忽略了工人的流动性和数据收集时间，以及任务分配中感知周期的时间约束，SMCS的有效性往往受到限制。这可能会影响任务完成的及时性和数据质量。为了解决这些问题，我们开发了一种基于深度强化学习的子区域评估方法，同时考虑了感知任务的时间有效性和子区域选择对数据推理的重要性。利用该方法得到的分区评价值，建立了受感知周期时间和成本预算约束的在线城市感知任务分配模型。该模型旨在通过最大化综合效用值来寻找数据推理误差最小的任务分配结果。针对任务分配模型的特点，提出了一种基于改进遗传算法的进化算法OTA-EA。其改进的进化算子可以避免产生不可行的解决方案，同时保持鲁棒的搜索和优化性能。最后，我们在实际数据集上对这些方法进行了实验评估。结果表明，我们的子区域评估方法可以显著降低数据推理误差，并且我们的进化任务分配算法可以获得比基线算法更好的任务分配结果。

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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来源期刊

IEEE Internet of Things Journal Computer Science-Information Systems

CiteScore

17.60

自引率

13.20%

发文量

1982

期刊介绍： The EEE Internet of Things (IoT) Journal publishes articles and review articles covering various aspects of IoT, including IoT system architecture, IoT enabling technologies, IoT communication and networking protocols such as network coding, and IoT services and applications. Topics encompass IoT's impacts on sensor technologies, big data management, and future internet design for applications like smart cities and smart homes. Fields of interest include IoT architecture such as things-centric, data-centric, service-oriented IoT architecture; IoT enabling technologies and systematic integration such as sensor technologies, big sensor data management, and future Internet design for IoT; IoT services, applications, and test-beds such as IoT service middleware, IoT application programming interface (API), IoT application design, and IoT trials/experiments; IoT standardization activities and technology development in different standard development organizations (SDO) such as IEEE, IETF, ITU, 3GPP, ETSI, etc.