Abstract
In this paper, wireless sensing networks are considered in the context of the 5G communication architecture in order to ensure the transmission efficiency of the sensed data transmitted by the system. The various types of environmental sensors are very diverse. Wireless sensing networks may include many different types of sensing devices or data related to images or pattern transmission, among others, and are often limited by the problem of insufficient network bandwidth. By using 5G communications for data transmission, the problem of limited network bandwidth can be solved. In addition to the use of 5G transmission, when the NB-IoT method is used within the 5G network environment, it is much more efficient than that under the original LTE network conditions. Therefore, using 5G to transmit data provides the advantages of high transmission efficiency and data integrity. In this paper, in addition to analyzing the development of 5G technology, the proposed approach uses MATLAB software to simulate the generation of 5G signals under various parameter settings representing a range of conditions. Finally, our approach discusses the use of a 5G communication module, including driver installation and data transmission testing. At present, the 5G network architecture is still under construction worldwide. According to the transmission speed test data obtained in this study, the transmission efficiency of 5G is better than that of precursor generations.
Highlights
IntroductionThe method proposed in this paper uses 5G communication technology for the transmission of sensed data
In this paper, wireless sensing networks are considered in the context of the 5G communication architecture in order to ensure the transmission efficiency of the sensed data transmitted by the system
This paper mainly considers large-scale 5G internet of things technology; in particular, narrowband internet of things (NB-IoT)
Summary
The method proposed in this paper uses 5G communication technology for the transmission of sensed data. The various remote sensor devices available at present are increasingly diverse; the associated systems may require that image data are transmitted in real-time. To address these issues, the wireless sensor network system proposed in this paper uses 5G communication for data transmission [1,2]. The first 5G evolution standard, 3GPP Release 16, was completed on 3 July 2020 It mainly added 5G super uplink technology, improved ultra-reliable and low-latency communication and large-scale machine-type interconnection scenarios, and further improved energy efficiency and user experience. 19 is still not far away, bringing many uncertainties the market, global3GPP operators have commercial deployments
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