Cellular mobile radio system having a frequency reuse plan with partially identical patterns
First Claim
1. A cellular mobile radio system comprising a plurality of cells grouped into identical patterns, each of at least two cells, repeated periodically in space and such that:
- each of a plurality of base tranceiver means is associated with only one of said cells and is adapted to send radio signals to and to receive radio signals from mobile stations when the mobile stations are located in a geographical area substantially coincident with the cell associated therewith;
each of said base transceiver means sends and receives radio signals using a set of frequencies associated with said associated cell and including at least two different frequencies, all the frequencies of sets of frequencies associated with cells of the same pattern being different;
the frequency of the radio signals exchanged between a mobile station and the transceiver means of a cell changes in time so that several frequencies of the set of frequencies associated with said cell are used successively during the transmission of said radio signals;
like cells being any two cells that respectively occupy in different ones of said identical patterns the same position relative to other cells within respective ones of said identical patterns, the sets of frequencies associated with any two like cells include at least one identical frequency and at least one different frequency;
in which system a plan of said mobile radio system is obtained by superposing plans of a plurality of mobile radio systems each having a different number of cells per pattern, these mobile radio systems being systems in which the sets of frequencies associated with like cells are identical.
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Abstract
In a cellular mobile radio system including a plurality of cells grouped into identical patterns, each of at least two cells, repeated periodically in space and such that: each cell is associated with one or more base transceiver stations to send radio signals to or to receive radio signals from mobile stations. Each transceiver station sends and receives radio signals using a set of frequencies associated with its cell and including at least two different frequencies, all the frequencies of sets of frequencies associated with cells of the same pattern being different. The frequency of the signals exchanged between a mobile station and a base transceiver station of a cell changes in time with the result that several frequencies of the set of frequencies associated with the cell are used successively during the transmission. In this system, the plan of the mobile radio system is obtained by superposing the plans of a plurality of mobile radio systems each having a different number of cells per pattern.
24 Citations
14 Claims
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1. A cellular mobile radio system comprising a plurality of cells grouped into identical patterns, each of at least two cells, repeated periodically in space and such that:
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each of a plurality of base tranceiver means is associated with only one of said cells and is adapted to send radio signals to and to receive radio signals from mobile stations when the mobile stations are located in a geographical area substantially coincident with the cell associated therewith; each of said base transceiver means sends and receives radio signals using a set of frequencies associated with said associated cell and including at least two different frequencies, all the frequencies of sets of frequencies associated with cells of the same pattern being different; the frequency of the radio signals exchanged between a mobile station and the transceiver means of a cell changes in time so that several frequencies of the set of frequencies associated with said cell are used successively during the transmission of said radio signals; like cells being any two cells that respectively occupy in different ones of said identical patterns the same position relative to other cells within respective ones of said identical patterns, the sets of frequencies associated with any two like cells include at least one identical frequency and at least one different frequency; in which system a plan of said mobile radio system is obtained by superposing plans of a plurality of mobile radio systems each having a different number of cells per pattern, these mobile radio systems being systems in which the sets of frequencies associated with like cells are identical. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
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14. A cellular mobile radio system comprising:
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a plurality of cells grouped into identical first frequency use patterns repeated periodically in space, each of said first frequency use patterns including at least two cells; and a plurality of base transceiver means each associated with only one of said cells and being adapted to send radio signals to and to receive radio signals from mobile stations when the mobile stations are located in a geographical area substantially coincident with the cell associated therewith, wherein; each of said base transceiver means sends and receives radio signals using a set of first frequencies associated with said associated cell and including at least two different frequencies, all the frequencies of sets of frequencies associated with cells within one of said first frequency patterns being different; said plurality of cells is grouped into identical second frequency use patterns repeated periodically in space, each of said second frequency use patterns including at least two cells; each of said base transceiver means sends and receives radio signals using a set of second frequencies associated with said associated cell, all the frequencies of sets of frequencies associated with cells within a second frequency pattern being different; some but not all of the frequencies used in a first cell occupying a position within one of said first frequency use patterns are the same as the frequencies used in a second cell occupying a same position within another of said first frequency use patterns; and the frequency of the radio signals exchanged between a mobile station and the base transceiver means of a cell changes in time so that frequencies of the set of first frequencies associated with said cell and frequencies of the set of second frequencies associated with said cell are used successively during the transmission of said radio signals.
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Specification