ALGORITHM FOR CLUSTERIZATION, AGGREGATION AND PRIORITIZATION OF M2M DEVICES IN HETEROGENEOUS 4G/5G NETWORK
Journal Title: Вісник Національного університету "Львівська політехніка", серія "Радіоелектроніка та телекомунікації" - Year 2017, Vol 874, Issue 2017
Abstract
The transition to building Smart City, Smart House and other places using M2M imposes tight network requirements. This includes delays, bandwidth, transmission duration. When introducing M2M, an important feature is reducing the sensor's power consumption when transmitting information and the amount of signaling information to the 4G/5G mobile heterogeneous network base station. To do this, the paper proposes to combine sensors into clusters in which the main sensor acts as a gateway for all others. Aggregation of data in intermediate nodes is also a form of processing of output data and allows solving a number of problems associated with energy consumption of nodes in the network. Much of the electricity consumed by the network node is for data transmission, not for the process of obtaining data from M2M devices from the environment and processing them. Therefore, one way to reduce the power consumption of a node is to reduce the amount of data transmitted, which can be achieved by pre-processing them in intermediate nodes. Data aggregation in intermediate nodes may be appropriate for the cases with a fairly tight placement of M2M nodes in the sensory field, data from neighboring nodes with a high probability may coincide, that is, having redundancy. This allows to combine completely or partially identical messages in order to reduce the amount of data transmitted by nodes. In this paper we propose algorithm for clustering, aggregation and classification of M2M devices in future 4G / 5G networks. The96 proposed algorithm ensures more efficient use of the radio resourse of the mobile network, reduction of the signal load to the base station and the power consumption of M2M devices.
Authors and Affiliations
Halyna Beshley, Marian Seliuchenko, Ivan Bernevek, Semen Pushchak, Mykola Beshley
Keywords
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- EP ID EP455533
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