FIELD: radio communications engineering. SUBSTANCE: proposed method provides for easy dynamic access to entire group of communication channels divided into subgroups. Each cell of communication subsystem is assigned to separate subgroup of particular channel group. Channel subgroups are pre-allocated considering limitations imposed on actual physical location of objects. Invocation signals received for the first time in cell are assigned to channels of given cell base station according to its established order. Since time will come when all assigned channels are exhausted (are busy), attempt should be made to change over given cell to channels assigned to base stations of adjacent cell. Set channel numbers are transferred from each adjacent cell to given one until signal indicating connection of additional channels from certain cell comes back. Channels changed over from adjacent cell are given access in main and reverse order compared to its own order of access. Each cell has predetermined order of assigning invocation signals arriving at particular cell to total group of channels in particular cell. In this way, available resources can be dynamically allocated among sub- regions of communication network considering functional limitations imposed on mentioned network. EFFECT: optimized use of available resources. 19 cl, 8 dwg
