A Machine Learning-Based Intelligence Approach for Multiple-Input/Multiple-Output Routing in Wireless Sensor Networks

V. Sridhar; K. V. Ranga Rao; V. Vinay KumarMuaadh MukredSyed Sajid UllahHussain AlSalmanEwa Rak

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A Machine Learning-Based Intelligence Approach for Multiple-Input/Multiple-Output Routing in Wireless Sensor Networks

机译：A Machine Learning-Based Intelligence Approach for Multiple-Input/Multiple-Output Routing in Wireless Sensor Networks

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Computational intelligence methods play an important role for supporting smart networks operations, optimization, and management. In wireless sensor networks (WSNs), increasing the number of nodes has a need for transferring large volume of data to remote nodes without any loss. These large amounts of data transmission might lead to exceeding the capacity of WSNs, which results in congestion, latency, and packet loss. Congestion in WSNs not only results in information loss but also burns a significant amount of energy. To tackle this issue, a practical computational intelligence approach for optimizing data transmission while decreasing latency is necessary. In this article, a Softmax-Regressed-Tanimoto-Reweight-Boost-Classification- (SRTRBC-) based machine learning technique is proposed for effective routing in WSNs. It can route packets around busy locations by selecting nodes with higher energy and lower load. The proposed SRTRBC technique is composed of two steps: route path construction and congestion-aware MIMO routing. Prior to constructing the route path, the residual energy of the node is determined. After that, the residual energy level is analyzed using softmax regression to determine whether or not the node is energy efficient. The energy-efficient nodes are located, and numerous paths between the source and sink nodes are established using route request and route reply. Following that, the SRTRBC technique is used for congestion-aware routing based on buffer space and bandwidth capability. The path that requires the least buffer space and has the highest bandwidth capacity is picked as the optimal route path among multiple paths. Finally, congestion-aware data transmission is used to minimize latency and data loss along the route path. The simulation considers a variety of performance metrics, including energy consumption, data delivery rate, data loss rate, throughput, and delay, in relation to the amount of data packets and sensor nodes.

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《Mathematical Problems in Engineering: Theory, Methods and Applications》 |2022年第2期|1.1-1.13|共13页
作者
V. Sridhar; K. V. Ranga Rao; V. Vinay KumarMuaadh MukredSyed Sajid UllahHussain AlSalmanEwa Rak;
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Department of ECE Vidya Jyothi Institute of Technology Hyderabad Telangana;

Department of CSE Neil Gogte Institute of Technology Hyderabad Telangana;

Department of ECE Anurag University Venkatapur TelanganaSana’a Community College Mareb Street Al-Hushaishiya Road Sana’aDepartment of Information and Communication Technology University of Agder KristiansandDepartment of Computer Science King Saud University Riyadh 11543;

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A Machine Learning-Based Intelligence Approach for Multiple-Input/Multiple-Output Routing in Wireless Sensor Networks

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