Novel Designing Techniques for Extremely Developed LTE Networks Based on Radio Resource Organization Approach with QoS-Aware

Abstract

Maintaining Quality-of-Service (QoS) through data rate in multimedia streaming experienced a remarkable change, by Wireless Communication Networks (WCN), to attain advancement with extreme precision levels. Now a day, The Long term Evolution-Advanced (LTEA) system is widely used to provide the 5th generation (5G) communication network due to its improved network capacity and less delay during the communication process. It supports multimedia streaming and attains a higher demand for an extremely advanced QoS as well as a high-quality data rate. The main issues in the 5G network are insufficient resources of users and Burst errors because it creates losses in the data transmission. Radio resource Organization Approach (RROA) schemes evolved in the LTE-A/LTE network environment phase are also significant for 5G networks. However, as the features and requirements of the network, these schemes must become more intellectual and adaptive for future applications. The signi?cance of this work is to propose a QoS-RROA that can be applied to LTE-A for supporting high-bandwidth demands in various applications like the Internet of Things (IoT) etc. In this paper, an LTE-A network environment is designed to evaluate various applications. The focus is kept on designing a novel QoS-aware LTEA system and core network segments of 5G networks, based on RROA. Furthermore, an algorithm is proposed to develop radio resource management (RRM) in the 5G network. For achieving this object, a QoS with the best possible confederation-aware technology is applicable. The QoS-RROA technique is discussed as an important input. The proposed work is implemented in Network Simulator (version NS2.34) and a Proposed RRM is used for assigning adequate power and bandwidth to the desired user requirements in the Network.