RU2005110767A - METHOD FOR TRANSMISSION OF SERVICE OF A SUBSCRIBER STATION BETWEEN BASIC STATIONS OF TWO DIFFERENT CELL NETWORKS, ONE OF WHICH IS A PRIORITY WITH RESPECT TO THE SECOND, AND THE DEVICE FOR ITS IMPLEMENTATION - Google Patents

Claims (3)

1. A method of handing off a subscriber station between base stations of two different cellular networks, one of which is a priority over the second, in which a neighboring base station of a priority network is determined at a subscriber station served by a source base station of a non-priority network, namely, that AU is compared to the signal strength priority BSs neighboring network F _with a threshold connection support simultaneous communications with a priority and the priority networks P _2c, if the neighbor BS signal power pr ioritetnoy network P _c does not exceed the threshold of simultaneous communication with the priority and non-priority networks P _ac or exceeds it during the time T, the smaller the set interval T _2c, then SS compares power neighbor BS signal priority network F _with a threshold P _2c until while the signal of the neighboring BS of the priority network P _c exceeds the predetermined threshold P _2c for a time longer than the specified interval T _2c , if the signal power of the neighboring BS of the priority network P _s exceeds the threshold of simultaneous communication with the priority and non-priority networks P _2c for a time At intervals greater than the specified interval T _2s , the speakers establish communication with the BSs of the neighboring priority network and communicate simultaneously with the base stations of the priority and non-priority networks, after the connection between the speakers and the BSs of the priority network, the signal strength of the BSs of the priority network is compared with the period T ₁ P _c with the threshold of simultaneous communication with the priority and non-priority networks P _2s and the communication threshold only with the priority network P _pr , where the threshold P _{pr is} greater than the threshold P _2s if the communication threshold only with the priority network P _{pr is} not exceeded, and the threshold is one Belt connection priority and non-priority networks R _2c exceeded, then in AU again with a period T ₁ compare output signal of the BS priority network F _with thresholds R _2c and R, _etc., if the threshold simultaneous communication with the priority and non-priority networks R _2c is not exceeded during time longer than the specified interval T _o2s , then on the AS they only communicate with the BS of a non-priority network, if the communication threshold with the priority network P _{ol is} exceeded for a time longer than the specified interval T _pr , the speakers only communicate with the BS of the priority network, and period m T ₂ compared output signal BS priority network F _with a simultaneous communication threshold to the priority and non-priority networks R _2c and a communication threshold only priority network P, _etc., if the threshold communication only with the priority network P _ave exceeded or less than a time T less than a predetermined interval T _vyhpr then to AC again, with a period T ₂ compared output signal of the BS priority network F _with a simultaneous communication threshold to the priority and non-priority networks R _2c and the threshold communication only with the priority network P _etc. as long as the power to drove neighbor BS priority esti is less than the threshold F _ave and larger than the threshold R _{2 c} for a time T equal to or greater than a predetermined interval T _{out, etc.,} when neighbor BS signal strength priority network R _to be less than the threshold F _ave and greater than the threshold P _2c for time T, longer than the specified interval T _{o / v} , then the communication with the BS of a neighboring non-priority network is established on the AS and communication is maintained simultaneously with the BS of the priority and non-priority networks, after which the signal strength of the BS of the priority network P _{s is} compared again with the period T ₁ m of simultaneous communication with priority and non-priority networks P _2s and the threshold for establishing communication with priority network P _pr 2. The method according to claim 1, characterized in that the neighboring BS of the priority network is determined at the AS by searching for the BS signals of neighboring cells of the priority network in a given time-frequency domain, remembering the signal strengths of the detected signals of neighboring BS cells of the priority network, averaging them, choosing a signal with a maximum average power, deciding that the selected signal is a signal of a neighboring BS of a priority network, remembering the time-frequency position of a signal of a neighboring BS of a priority network. 3. The subscriber station handover device, comprising the first and second comparison blocks with a threshold, the first and second logic gates And, the first and second counters, a clock, the first and second triggers, while the inputs of the first and second comparison blocks with a threshold are combined, forming the first input of the device, the output of the first comparison unit with a threshold is connected to the first input of the first logical element And, the output of the second comparison unit with a threshold is connected to the first input of the second logical element And, the second inputs are the first and second logical elements AND are combined to form the second input of the device, the output of the clock generator is connected to the first inputs of the first and second counters, the output of the second counter is connected to the first input of the second trigger, the output of which is the second output of the device, and the output of the first trigger is the first output devices, characterized in that the first, second and third logic elements are NOT, the third, fourth and fifth logical elements AND, the third and fourth counters, the first, second and third logical elements you are OR, while the output of the first logical element AND is connected to the input of the first logical element NOT and the second input of the second counter, the output of the second logical element AND is connected to the input of the second logic element NOT and the first input of the third logical element AND, the output of the first logic element is NOT connected to the second input of the third logical element AND, the output of which is connected to the second input of the first counter and the first input of the fourth logical element And, the output of the second logical element is NOT connected to the first by the moves of the first and third logical elements OR and the fifth logical element AND, the first inputs of the third and fourth counters are connected to the output of the clock generator, the output of the first counter is connected to the first input of the second logical element OR and the second input of the third logical element OR, the second input of the second logical element OR connected to the output of the second counter, the third inputs of the second and third logic elements OR connected to the output of the third counter, the output of the fourth counter connected to the second input ohm of the first OR gate and the fourth input of the third OR gate, the output of which is connected to the second input of the second trigger, the outputs of the first and second logical elements OR are connected respectively to the first and second inputs of the first trigger, the output of the first trigger is connected to the second inputs of the fourth and fifth logical elements And, the output of the fourth logical element And is connected to the second input of the third counter, the output of the fifth logic element And is connected to the second input of the fourth counter, the output to orogo trigger is connected to the input of the third NAND gate and the third input of the fifth AND gate, the output of the third NAND gate connected to a third input of the fourth NAND gate I.