Application of 5G network slicing technology

Abstract

In the context of the 5G communication architecture, wireless sensing networks are taken into consideration to guarantee the transmission efficiency of the detected data transmitted by the system. Environmental sensors come in a wide variety of forms. Wireless sensing networks are frequently constrained by the issue of inadequate network bandwidth and can comprise a wide range of sensing device types as well as data pertaining to picture or pattern transmission, among other things. The issue of constrained network bandwidth can be resolved by utilizing 5G communications for data delivery. In addition to using 5G transmission, the NB-IoT approach is far more efficient in the context of a 5G network than it was in the initial LTE network. As a result, great transmission efficiency and data integrity are benefits of employing 5G for data transfer. In this study, the suggested method employs MATLAB software to simulate the creation of 5G signals under different parameter settings representing a range of scenarios, in addition to analyzing the evolution of 5G technology. The 5G network architecture is currently being developed globally. The study's transmission speed test data indicates that 5G has a higher transmission efficiency than previous generations.

Keywords: 5G; wireless sensor networks; NB-IoT; network slice.

References:
1. T.S. Babicheva: The Use of Queuing Theory at Research and Optimization of Traffic on the Signal-controlled Road Intersections. URL: https://www.sciencedirect.com/science/article/pii/S187705091501491X
2. Martin I.R.; Lawrence M.W. :: Dynamic Scheduling of a Two-Class Queue with Setups. URL: https://www.jstor.org/stable/223130
3. Papageorgion A.; Carrozzo G.; Siddiqui M. S.; Fernandez A.:: On 5G network slice modelling: Service-, resource-, or deployment-driven? URL:
https://www.researchgate.net/publication/228576229_Decision_fusion_rules_in_wireless_sensor_networks_using_fading_channel_statistics
4. Kissell R.; Poserina J. :: Advanced Math and Statistics. URL: https://www.sciencedirect.com/science/article/abs/pii/B9780128051634000049
5. Naeem A. S. :: Essential statistics for data analysis. URL: https://www.sciencedirect.com/science/article/abs/pii/B9780128013632000097
6. Lambros S.; Athanasiou,; Lampros K.; Michalis :: Propagation of Segmentation and Imaging System Errors. URL: https://www.sciencedirect.com/science/article/abs/pii/B9780128047347000087
7. Kiosen K.; Eunhan K.; Park J. :: Large-Signal Robustness of the Chair-Varshney Fusion Rule Under Generalized-Gaussian Noises. URL: https://www.researchgate.net/publication/224144437_Large-Signal_Robustness_of_the_Chair-Varshney_Fusion_Rule_Under_Generalized-Gaussian_Noises