Intelligent traffic distribution model in cluster segments of heat technology systems

Nowadays decision-making on the management of heat technology systems is a rather complex process. The parameters direct expansion and interrelated elements among participants significantly affects the scaling of information flow assessment and control systems. Despite the rather rapid information and communication technologies development, the existing tools for organizing infrastructure support for the processes of interaction between the client and the server still have significant drawbacks. The imperfection of such solutions not only hinders the increasing of their effectiveness possibility, but also are vulnerabilities from the point of the security system functioning view as a whole. The purpose of the study is algorithmic and software develop of network segments flexible topology taking into account dynamically changing factors. As a result, an analysis of existing solutions for the construction of modular network protocols for the organization of the functioning of complex systems is carried out. Their advantages, vulnerabilities and potential sources of efficiency growth have been identified, which the proposed solution is aimed at their improvement and elimination. A model of a secure network of remote interaction and exchange of critical information is built to ensure stable operation of complex technical equipment in a heat technology system. A special feature of the developed model is the module of secure access to the required information due to direct p2p exchange between clients using a secure tunnel. The practical significance lies in the possibility of using the developed model of intelligent traffic distribution in the network segments of heat technology systems of various types of economic activity.