MODELLING OF THE TRANSACTION PROCESSING PROCESS IN A TACTILE INTERNET ENVIRONMENT
DOI:
https://doi.org/10.26906/SUNZ.2023.1.104Keywords:
Tactile Internet, Cloud Infrastructure, Transaction, Controller, SDN, MEC, NFV, OpenFlowAbstract
Topicality. Tactile Internet is one of the main technologies that determines the next evolution of the Internet, which allows you to transmit tactile sensations in real time. A transaction is at the core of the communication and service process in the Tactile Internet and is used to transfer data between different nodes in the network. By modeling the transaction processing process in the Tactile Internet environment, you can predict the performance of the work under different scenarios and identify areas for further improvement. This will make it possible to ensure reliability and availability, as well as low latency in the nodes of the Tactile Internet network. The goal of this work is to model the process of processing transactions to ensure reliability, availability and low latency during data transmission in the Tactile Internet environment. The object of research is the process of processing transactions in the Tactile Internet environment. The subject of research is methods of optimizing the Tactile Internet architecture. Results. This article describes the steps in the transaction processing process in the Tactile Internet environment, including data collection, analysis, and generation of control commands. The main components of the Tactile Internet architecture, namely host, slave, and network domains, are reviewed, and the use of software-configurable networks is proposed to manage network traffic and improve the performance of the Tactile Internet network. In addition, the issues of scaling resources based on the three-level architecture of the Tactile Internet and reducing the number of managed intelligent controllers using the OpenFlow protocol are considered. Conclusions. The considered model of the transaction processing process in the Tactile Internet environment is capable of providing low-latency tactile feedback and improving network efficiency, which will have a positive impact on user interaction and enable the creation of new applications and scenarios in fields such as medicine, robotics , virtual and augmented reality.Downloads
References
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