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引用次数: 0
摘要
最近的物联网(IoT)研究旨在开发能够学习、推理和感知环境的通用对象。因此,出现了一个被称为认知物联网(CIoT)的新领域。认知物联网将物联网与智能集成在一起,通过智能功能使物联网的行为与人类无异。认知物联网中的一些推理任务需要进行多重假设检验。当数据是海量和异构的时候,情况就会变得繁琐。因此,本研究提出了一种新的多重假设检验技术,它使用 copula 函数来有效处理海量异构数据。此外,这些数据可能包含缺失或损坏的条目。因此,该研究引入了概率聚类,从而降低了模型的低效率,并控制了错误发现率(FDR)。使用核主成分分析(KPCA)提取每个聚类的大部分方差,以减轻融合中心的处理负担。随后,它计算每个聚类的第一主成分数据的 p 值,并采用 Bonferroni 方法进行多重假设检验。最后,本研究评估了所提算法在六个月环境数据上的性能,结果表明,在存在大量异构数据的情况下,与其他方法相比,所提技术在准确性和计算时间方面都很高效。
Multiple hypothesis testing in cognitive IoT sensor network
Recent Internet of Things (IoT) research aims to develop generic objects to learn, reason, and perceive their environment. Therefore, a new area has emerged known as cognitive IoT (CIoT). The cognitive Internet of Things integrates IoT with intelligence and behaves as well as humans through intelligent functionality. Several inferential tasks in CIoT require multiple hypothesis testing. The situation becomes cumbersome when the data is massive and heterogeneous. Thus, this research suggests a novel technique for multiple-hypothesis testing that uses a copula function to deal effectively with massive heterogeneous data. In addition, these data may contain missing or corrupted entries. Hence, it introduced probabilistic clustering, which reduces model inefficiency and takes control over the false discovery rate (FDR). Most of the variance from each cluster was extracted using kernel principal component analysis (KPCA) to reduce the processing burden at the fusion centre. Subsequently, it computes the p-value of each cluster's first principal component data and employs the Bonferroni method for multiple hypothesis testing. Finally, this research study evaluates the performance of the proposed algorithm on six-month environmental data, revealing that the proposed technique is efficient in terms of accuracy and computation time compared to other methods in the presence of massive heterogeneous data.
期刊介绍:
The Ad Hoc Networks is an international and archival journal providing a publication vehicle for complete coverage of all topics of interest to those involved in ad hoc and sensor networking areas. The Ad Hoc Networks considers original, high quality and unpublished contributions addressing all aspects of ad hoc and sensor networks. Specific areas of interest include, but are not limited to:
Mobile and Wireless Ad Hoc Networks
Sensor Networks
Wireless Local and Personal Area Networks
Home Networks
Ad Hoc Networks of Autonomous Intelligent Systems
Novel Architectures for Ad Hoc and Sensor Networks
Self-organizing Network Architectures and Protocols
Transport Layer Protocols
Routing protocols (unicast, multicast, geocast, etc.)
Media Access Control Techniques
Error Control Schemes
Power-Aware, Low-Power and Energy-Efficient Designs
Synchronization and Scheduling Issues
Mobility Management
Mobility-Tolerant Communication Protocols
Location Tracking and Location-based Services
Resource and Information Management
Security and Fault-Tolerance Issues
Hardware and Software Platforms, Systems, and Testbeds
Experimental and Prototype Results
Quality-of-Service Issues
Cross-Layer Interactions
Scalability Issues
Performance Analysis and Simulation of Protocols.
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