A.M. Mezhuev - Ph. D. (Eng.), Associate Professor, Head of Department of Communication facilities, MESC «Zhukovsky-Gagarin Air Force Academy» (Voronezh) E-mail: multitenzor@mail.ru A.N. Roza - Post-graduate Student, Department of Transmitting and receiving radio-device, MESC «Zhukovsky-Gagarin Air Force Academy» (Voronezh) E-mail: drew-rz@yandex.ru E.V. Konovalchuk - Ph. D. (Eng.), Associate Professor, Head of Faculty of Air Communications Facilities, MESC «Zhukovsky-Gagarin Air Force Academy» (Voronezh) E-mail: multitenzor@mail.ru

Work is devoted increase of efficiency of functioning of the automated system декаметровой to a radio communication (ASHC) on the basis of realisation of procedures of algorithmic adaptation. In the course of functioning ASHC, at exhaustion of possibilities of parametrical adaptation, there is a necessity of increase of efficiency of an information exchange by means of use of procedures of adaptation of network level where management should be carried out by the generalised system criterion. On the basis of system of parametres with use of the generalised indicator of quality - energy conversion efficiency has been developed for an estimation of efficiency ASHC algorithm of adaptive management in network parametres and procedures taking into account influence of hindrances on working capacity of system in sense of information transfer. The presented algorithm allows to define a direction and a step of change of the basic network parametres for maintenance of de-manded quality of an information exchange, and also to create conditions for work of mechanisms reconfiguration network structures. In the course of work of algorithm taking into account current values of energy conversion efficiency the sizes of operating influences providing transition from undesirable condition ASHC in most approached to optimum are defined. Constructions ASHC of model developed for considered variants allow to carry out in the course of adaptation an estimation and comparison of information efficiency ASHC with the different structures functioning in various conditions of an information exchange. Used tensor the methodology allows to consider simultaneously in the course of modelling structure of a network and processes of information interchange proceeding in it. Results of work tensor models are confirmed by imitating modelling with application of the known approach on the basis of systems of mass service.

 

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