Architectural Solutions for Integrating a Video Conferencing Module into Cyberphysical Intelligent Space
Abstract
Introduction: Cyberphysical systems are a wide class of systems whose main characteristic is high integration of computing resources into each physical component of a system. One of the tasks of a cyberphysical intelligent space is to provide convenient interaction between users via various system nodes. Modern videoconferencing applications are expected not only to use various modalities like text, audio/ video data or graphic objects, but also to meet the criteria of modularity and cross-platformness. Purpose: To develop an application architecture which would provide a video conferencing service for cyberphysical intelligent space users. Results: The paper discusses architectural solutions for a videoconferencing module, providing the possibility of its integration into a MINOS cyberphysical system, as well as a generalised structure of a videoconferencing module with the implementation of private and controlled public accounts. The network interaction is presented in the form of three separate layers responsible for managing the network connection to the server, the connection between the users, and the connection for transferring multimedia data to the video conference participants. The connection response time during the organization of the video conferencing has been measured. On average, the response for two users is 5.81 ms.Published
2018-02-01
How to Cite
Karasev, E., Vatamaniuk, I., Saveliev, A., & Ronzhin, A. (2018). Architectural Solutions for Integrating a Video Conferencing Module into Cyberphysical Intelligent Space. Information and Control Systems, (1), 2-10. https://doi.org/10.15217/issn1684-8853.2018.1.2
Issue
Section
Information processing and control