More and more users have the opportunity to work on the Internet in real time. But, there is still a problem of displaying content, in case of a poor communication channel or insufficient characteristics of user devices. This significantly affects the quality of information reproduction: image delay and its quali-ty, lack of synchronization of video and sound, etc. Recently, research, development and application of methods and means of adapting content to the characteristics of software and hardware of a particular transmission and reception information system are aimed at creating new, more powerful, information com-pression methods, new transmission and reception information protocols, intelligent tools for analyzing and dynamically adjusting the processes of the transmission and reception information. Another direction is the development of more powerful hardware for all components of transmission and reception information sys-tem. A common disadvantage of these approaches is quite significant costs for their implementation. In addi-tion, a number of solutions are specialized and impose severe restrictions on the use of specific software and hardware configurations. But, such solutions cannot be applied in a large number of areas because of their considerable high cost and complexity of development. Therefore, effective, but at the same time, budgetary technical solutions are necessary, both for the transmitting and receiving parts of the transmission and re-ception information system. The work has developed models for a system for receiving and transmitting in-formation that can be used in conditions of limited resources. To assess the quality of the developed models, an experiment was conducted among students of the system software department. As a result of the experi-ment, it was proved that the quality of the process of receiving and transmitting information increased by 97% due to the use of the developed models.