Dear Colleagues,

Wireless sensor networks (WSNs), empowered by wireless sensing and parallel-distributed computing technologies, represent a promising development trend. WSNs can be applied in a variety of domains, such as smart cities, smart homes, healthcare, smart traffic, smart buildings, smart industry, and smart agriculture.

WSN relies predominantly on the intelligent processing of the sensing data from various IoT devices, which are usually deployed in a geographically distributed manner. Besides the geographical distribution, the sensor data are also regarded as one of the main sources of big data characterized by their big volume and big velocity. To extract the big value, many computational resources are required in order to handle these big data analytic tasks. Cloud computing has shown great potential in this regard. However, a sole reliance on cloud computing may not be sufficient to satisfy the ever-growing resource requirements. To this end, more advanced distributed and parallel processing by exploring the widely available resources, such as edge computing, is needed. Recent development has recognized the potential of the intelligent edge computing paradigm as a supplement, or even alternative, to cloud computing. However, given the early stage of such development trends, there are still many problems to be addressed.

Therefore, in this Special Issue, we are motivated to collect articles which present state-of-the-art concepts and methodologies to address the challenges hampering distributed and parallel processing for WSN. We also welcome works on related technologies, such as 5G, 6G, blockchain, next-generation networking, and intelligent edge computing.

The aim of this Special Issue is to reflect the most recent developments in parallel, distributed, and intelligent computing in WSNs. The topics of interest include, but are not limited to:

• Data-driven intelligent computing;
• Distributed and cooperative methods for WSNs;
• Intelligent optimization algorithms for WSNs;
• Indoor/outdoor localization and tracking;
• Localization and tracking using sensors;
• Remote sensing;
• Energy harvesting for autonomous sensors;
• Intelligent optimization algorithms for sensor placement;
• Optimal power allocation;
• Evolutionary computation for wireless sensor networks;
• Deep reinforcement learning for sensor deployment;
• Preventing and detecting attacks in WSNs;
• Scheduling of data traffic in WSNs;
• Recluster and cluster of data in WSNs;
• Scheduling the sleep and wake up in WSNs;
• Aggregation of data in WSNs;
• Efficient energy routing in WSNs;
• Control of dynamic topology in WSNs.

Prof. Dr. Ling Wang
Dr. Chengyu Hu
Prof. Dr. Yinan Guo
Dr. Feng Wang
Guest Editors

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• wireless sensor networks
• mobile sensors
• parallel computing
• distributed computing
• intelligent computing
• intelligent edge computing
• cloud computing