LoRa-ESL分布式机器学习模型的评价

IF 0.7 Q4 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE

Journal of Advanced Computational Intelligence and Intelligent Informatics Pub Date : 2023-07-20 DOI:10.20965/jaciii.2023.p0700

Malak Abid Ali Khan, Hongbin Ma, Z. Rehman, Ying Jin, A. Rehman

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引用次数: 1

摘要

为了克服上述问题，减少LoRa对电货架标签的重传和确认，采用数据并行模型将网络服务器的并发数据通过网关传输到终端设备(ed)。为了减少信号接收过程中数据的拥塞、碰撞、重叠等问题，采用机器聚类的方法在gw周围指定ed。在已定义的集群中，ed的部署和重新部署依赖于算法分布，以减少远近效应和网络的总体饱和。为了进一步提高网络性能和分析网络行为，提出了恒上行功率的信噪比(SNR)和动态的接收信号强度(RSS)。与信噪比相反，RSS指标估计ED的实际位置，以防止捕获效应。在实验实现中，集群中连接ed的下行功率高于定义的阈值。

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Evaluation of Distributed Machine Learning Model for LoRa-ESL

To overcome the previous challenges and to mitigate the retransmission and acknowledgment of LoRa for electric shelf labels, the data parallelism model is used for transmitting the concurrent data from the network server to end devices (EDs) through gateways (GWs). The EDs are designated around the GWs based on machine clustering to minimize data congestion, collision, and overlapping during signal reception. Deployment and redeployment of EDs in the defined clusters depend on arithmetic distribution to reduce the near-far effect and the overall saturation in the network. To further improve the performance and analyze the behavior of the network, constant uplink power for signal-to-noise (SNR) while dynamic for received signal strength (RSS) has been proposed. In contrast to SNR, the RSS indicator estimates the actual position of the ED to prevent the capture effect. In the experimental implementation, downlink power at the connected EDs in the clusters illustrates higher values than the defined threshold.

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来源期刊

Journal of Advanced Computational Intelligence and Intelligent Informatics COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE-

CiteScore

1.50

自引率

14.30%

发文量

期刊介绍： JACIII focuses on advanced computational intelligence and intelligent informatics. The topics include, but are not limited to; Fuzzy logic, Fuzzy control, Neural Networks, GA and Evolutionary Computation, Hybrid Systems, Adaptation and Learning Systems, Distributed Intelligent Systems, Network systems, Multi-media, Human interface, Biologically inspired evolutionary systems, Artificial life, Chaos, Complex systems, Fractals, Robotics, Medical applications, Pattern recognition, Virtual reality, Wavelet analysis, Scientific applications, Industrial applications, and Artistic applications.