Annotation: Experience of carrying out an antiterrorist operation on the theory of Donetsk and Luhansk oblasts shows that the existing order of management of military radiocommunication systems does not satisfy the modern requirements, that put forward for them. The classic centralized approach to the management of channel and network resources of military radio communication systems does not satisfy the requirements of the present, therefore the authors of this article are proposed as a basic principle of construction to take the mobile self-organizing networks of the MANET class. Authors propose the method of hierarchical control of channel and network resources of military radiocommunication systems, the essence of which is to provide support for the set values of indicators of the functioning of military radio communication systems at an appropriate level. Under the channel and network resources, we will understand the radio resource of the network, its topology, the order of construction and support of routes. In the article, the management principle described in the reference network model of the interaction of open OSI systems, but with some additions and changes, is taken as a basis. This approach as a whole allows for continuous management of channel and network resources of military radio communication systems in a complex electronic environment. In this article we used the apparatus of fuzzy logic, neural networks, the theory of noise immunity, the theory of antennas, noise immunity coding, and others. Practical significance of this research is that the scientific result obtained will allow the development of a new one and the modernization of existing communications technology, thereby increasing the efficiency of the using of radio resources, the efficiency of managing the network and channel resources of military radio communication systems, reducing the amount of service information circulating in the network military radiocommunication, to form a rational topology of military radiocommunication systems, to form and maintain a rational quantity of route information transfer, subject to continuous electronic suppression zones, assign operating frequencies between network nodes based electronic suppression of certain frequencies (frequency groups) and the degree of utilization of operating frequencies other network nodes.