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Jadhav, Jagannath
- A Smart Resource Utilization Algorithm for High Speed 5+ Communication Networks Based on Cloud Servers
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Authors
Affiliations
1 Department of Electronics and Telecommunication Engineering, GH Raisoni Institute of Engineering and Technology, IN
2 Department of Electronic and Communication Engineering, K.L.E. College of Engineering and Technology, IN
3 Department of Computer Science and Engineering, Rajalakshmi Institute of Technology, IN
1 Department of Electronics and Telecommunication Engineering, GH Raisoni Institute of Engineering and Technology, IN
2 Department of Electronic and Communication Engineering, K.L.E. College of Engineering and Technology, IN
3 Department of Computer Science and Engineering, Rajalakshmi Institute of Technology, IN
Source
ICTACT Journal on Communication Technology, Vol 13, No 4 (2022), Pagination: 2800-2804Abstract
The 5G technology will become a truly integrated technology. It’s becoming the most famous technology because of its optimal system computing complex and transforming a group of individual network components. Adequate resources must be provided for the various devices that are typically on the same network. The various functions in the data system also require resource allocation to suit its needs. This will ensure that the various devices on that network perform different types of work effectively. It also represents the various device functionalites to ensure the estimated resources onetime manner. Only then will it be convenient to carry out a variety of jobs depending on their speed and selection. And its various data requirements vary according to the functionality of the various devices featured in this series segment dynamic configuration. In this paper a smart resource utilization scheme was proposed. Its main purpose is to better manage the off-the-shelf resources available here. And provide it where it is needed and streamline data delivery to users on the network. This ensures that all data goes to the users in the correct manner. The proposed method getting 49% energy consumption, 90% resource utilization, 92% resource reservation and 91% Quality of services.Keywords
5G Technology, Resource Utilization, Communication Networks, Complex System, Data Streamline
References
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- Improving the Requirements Based Bandwidth Allocation In 5G Point To Point Networks
Abstract Views :92 |
PDF Views:1
Authors
Affiliations
1 Department of Electronic and Communication Engineering, K.L.E. College of Engineering and Technology, IN
2 Department of Computer Science and Business System, R.M.K Engineering College, IN
3 Department of Computer Science, Kristu Jayanti College, IN
4 Department of Electronics and Telecommunication Engineering, G.H. Raisoni College of Engineering, IN
1 Department of Electronic and Communication Engineering, K.L.E. College of Engineering and Technology, IN
2 Department of Computer Science and Business System, R.M.K Engineering College, IN
3 Department of Computer Science, Kristu Jayanti College, IN
4 Department of Electronics and Telecommunication Engineering, G.H. Raisoni College of Engineering, IN
Source
ICTACT Journal on Communication Technology, Vol 13, No 4 (2022), Pagination: 2810-2814Abstract
In General, the 5G is a fifth-generation technology that works at speeds of 4G to 100 times the network speed. The main objective of introducing modern information technologies is to facilitate and facilitate access to public services. The use of new technologies is a key factor in improving the overall structure of public administration and increasing its efficiency. In addition, it is important to improve the infrastructure of all types of communications. The telecom operators are often willing to invest more in infrastructure development. In this paper, a new model was proposed to enhance the bandwidth allocation and utilization. It is a requirements-based network that allows the users to increase the speed of wireless networks. This proposed method also increases the amount of data that can be transmitted over wireless networks.Keywords
5G, Telecom Operators, Bandwidth, Wireless NetworksReferences
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- Enhancement of Bandwidth and Beam Forming Antenna Arrays in 5G Cellular Communication Networks
Abstract Views :100 |
PDF Views:1
Authors
Affiliations
1 Department of Electronics and Telecommunication Engineering, GH Raisoni Institute of Engineering and Technology, IN
2 Department of Computer Science, Soundarya Institute of Management and Science, IN
3 Department of Electronic and Communication Engineering, K.L.E. College of Engineering and Technology, IN
4 Department of Electronics and Communication Engineering, Samara University, ET
1 Department of Electronics and Telecommunication Engineering, GH Raisoni Institute of Engineering and Technology, IN
2 Department of Computer Science, Soundarya Institute of Management and Science, IN
3 Department of Electronic and Communication Engineering, K.L.E. College of Engineering and Technology, IN
4 Department of Electronics and Communication Engineering, Samara University, ET
Source
ICTACT Journal on Communication Technology, Vol 13, No 4 (2022), Pagination: 2820-2825Abstract
In general, an antenna is an interface that transmits signal data and receives incoming signal data. The radio waves received through this interface help to do the necessary things for the transmitter and receiver circuit systems used there. Also a radio transmitter antenna transmits different waves generated from the current generated at its tip to different areas. In this paper, the functions of increasing its bandwidth by making changes in some dimensions of the antenna are proposed. The oscillating current used in its transmitter area increases its vibration waves. This increases the amount of airwaves generated there and the number of data transmitted through it. So its bandwidth is more likely to be high. Furthermore these functions generate varying magnetic fields so that the time taken by the cross-sectional magnetic fields of the antenna varies.Keywords
Antenna, Radio Waves, Electric Current, Radio Transmitter, Bandwidth, Broadcasting, Two-Way RadioReferences
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