Abstract
Resource Allocation Approach for Optimal Routing in IoT Wireless Mesh Networks
Highlights
Nowadays, network technologies are developing at a very fast pace
Within the M2M connections category, which is referred to as Internet of Things” (IoT) and which is the main accelerator of IoT growth across many industries, will lead to 14.7 billion connections as of 2023 [1]
This paper proposes an approach to the synthesis of mesh networks that allows the required number of connections between nodes to establish a frequency range, and in addition, a channel width, while providing the lowest latency for information transmission
Summary
Network technologies are developing at a very fast pace. The increasing volume of information transferred, the physical growth of networks and interconnected traffic are forcing manufacturers to produce more powerful and "smart" devices using new (built from scratch or based on a combination with traditional) methods of transferring and sorting data. A high degree of self-organization can be achieved through the improvement of certain network protocols and elements responsible for allocating available network resources Such resources, in the main priority, include network traffic on an equal footing as an informative source, the bandwidth of transmission channels on an equal footing as a channel source, queues on an equal footing as an intermediate source, in addition, frequencies or frequency channels on an equal footing as a radio frequency source, which in particular important for the purpose of wireless networks [2]. As a result of considering the conclusions according to the distribution of frequency channels, routing, and energy consumption, it was determined that all, without exception, are tied to one technological process, they do not make a decision on the issue of coordinated distribution of frequency and channel resources of heterogeneous nodes/networks For this reason, it is considered an important problem to create a rational/optimal method that provides the radio frequency source and the channel source of the nodes/networks.
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