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Energy efficient resource allocation strategy in massive IoT for industrial 6G applications
Mukherjee, Amrit Goswami, Pratik Khan, Mohammad Ayoub Manman, Li Yang, Lixia Pillai, Prashant
Mukherjee, Amrit
Goswami, Pratik
Khan, Mohammad Ayoub
Manman, Li
Yang, Lixia
Pillai, Prashant
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2020-11-03
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Abstract
The birth of beyond 5G (B5G) and emerge of 6G has made personal and industrial operations more reliable, efficient, and profitable, accelerating the development of the next-generation Internet of Things (IoT). We know, one of the most important key performance indicators in 6G is smart network architecture, and in massive IoT applications, energy efficient ubiquity networks rely mainly on the intelligence and automation for industrial applications. This paper addresses the energy consumption problem with a massive IoT system model with dynamic network architecture or clustering using a multi-agent system (MAS) for industrial 6G applications. The work uses distributed artificial intelligence (DAI) to cluster the sensor nodes in the system to find the main node and predict its location. The work initially uses the back-propagation neural network (BPNN) and convolutional neural network (CNN), which are respectively introduced for optimization. Furthermore, the work analyze the correlation of mutual clusters to allocate resources to individual nodes in each cluster efficiently. The simulation results show that the proposed method reduces the waste of resources caused by redundant data, improves the energy efficiency of the whole network, along with information preservation.
Citation
Mukherjee, A., Goswami, P., Khan, M.A., Manman, L., Yang, L. and Pillai, P. (2020) Energy efficient resource allocation strategy in massive IoT for industrial 6G applications, IEEE Internet of Things Journal, 8(7), PP. 5194-5201DOI: 10.1109/JIOT.2020.3035608.
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Journal article
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en
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This is an accepted manuscript of an article published by IEEE in IEEE Internet of Things Journal on 03/11/2020, available online: https://ieeexplore.ieee.org/document/9247128
The accepted version of the publication may differ from the final published version.
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ISSN
2327-4662
EISSN
2372-2541