Pub. Date | : May' 2022 |
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Product Name | : The IUP Journal of Telecommunications |
Product Type | : Article |
Product Code | : IJTC010522 |
Author Name | : M Rachana and R V S Satyanarayana |
Availability | : YES |
Subject/Domain | : Arts & Humanities |
Download Format | : PDF Format |
No. of Pages | : 19 |
To efficiently handle multimedia data transmissions across 5G mobile wireless networks, Quality-of-Service (QoS) techniques have been developed with statistical delay bounds. Recent developments in error-control technology have made Finite Blocklength Coding (FBC) an effective tool in the non-asymptotic regime assuring exacting statistical QoS standards in terms of both latency and reliability for the Ultra Reliable Low-Latency Communications (URLLC) in 5G networks, unlike Shannon's theorem which involves infinite blocklength. In order to address the aforementioned issues, under both asymptotic and non-asymptotic conditions, the paper proposes heterogeneous analytical-based resource allocation methods for 5G mobile networks predicated on Non-Orthogonal Multiple Access (NOMA) with massive Multiple-Input Multiple-Output (MIMO). It develops the NOMA with massive MIMO scheme-based 5G wireless mobile network model to maximize the performance and achieve interference management, high capacity, adaptive and intelligent optimization for the outlined strategies. It also executes simulation tests to demonstrate how well the suggested schemes perform in terms of ensuring heterogeneous statistical delay/error rate constrained QoS when compared to other current methods.
The Fourth Industrial Revolution, which involves the replacement of humans with machines in certain activities, is causing significant changes in fields such as manufacturing, agriculture and mobility (with a special emphasis on self-driving vehicles), home safety and automation, legal and medical advice, etc. (Series, 2017). Robots, Artificial Intelligence, Big Data, Internet of Things (IoT) and 3D printing are being used to carry out these modifications (Mukherjee, 2018). When compared to earlier generations, 5G marks a fundamental change. These changes are intended to provide important support for the Fourth Commercial Revolution's implementation
Heterogeneous Quality-of-Service (QoS), 5G wireless mobile networks, Nonasymptotic regime, Enhanced Mobile Broadband (eMBB), Ultra Reliable Low-Latency Communications (URLLC), Non-Orthogonal Multiple Access (NOMA), Massive- Multiple-Input Multiple-Output (m-MIMO)
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