Sectorized cellular mobile radio system with sector signalling and control in predetermined time slots
First Claim
1. A cellular mobile radio system comprising cells, wherein:
- each of the cells is divided into P sectors;
each of the P sectors has a respective timebase;
the transmission of data in said cellular mobile radio system is by frames and uses a time division multiple access procedure in which each of the frames has N time slots;
each of the P sectors has a different one of the N time slots reserved as a respective control channel for transmitting signalling and control data;
the respective timebase of each of the P sectors is shifted a predetermined number of the N time slots relative to the respective timebase of each of the others of the P sectors within one of the cells, said predetermined number not being a multiple of N;
whereby the respective control channel of each of the P sectors is conveyed at a time different from the respective control channel of each of the others of the P sectors within the one of the cells.
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Abstract
A cellular mobile radio system comprises cells divided into P sectors each having its own timebase. The system uses time division multiple access and accordingly transmission is effected in bursts each transmitted during a time slot, or channel time slot, of predetermined rank relative to a reference of the timebase of the sector concerned. N time slots form a frame which repeats periodically. A control channel is reserved for each sector for transmitting signalling and control data, a different control channel being associated with each sector. The timebase of each sector is shifted a predetermined number of time slots relative to the timebases of the other sectors of the same cell. The offsets are such that the control channels relating to each sector are conveyed at different times.
45 Citations
8 Claims
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1. A cellular mobile radio system comprising cells, wherein:
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each of the cells is divided into P sectors; each of the P sectors has a respective timebase; the transmission of data in said cellular mobile radio system is by frames and uses a time division multiple access procedure in which each of the frames has N time slots; each of the P sectors has a different one of the N time slots reserved as a respective control channel for transmitting signalling and control data; the respective timebase of each of the P sectors is shifted a predetermined number of the N time slots relative to the respective timebase of each of the others of the P sectors within one of the cells, said predetermined number not being a multiple of N; whereby the respective control channel of each of the P sectors is conveyed at a time different from the respective control channel of each of the others of the P sectors within the one of the cells. - View Dependent Claims (2)
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3. A cellular mobile radio system comprising cells, wherein:
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each of the cells is divided into P sectors; each of the P sectors has a respective timebase; the transmission of data in said cellular mobile radio system is by frames and uses a time division multiple access procedure in which each of the frames has N time slots; each of the P sectors has a different one of the N time slots reserved as a respective control channel for transmitting signalling and control data; the respective timebase of each of the P sectors is shifted a predetermined number of the N time slots relative to the respective timebase of each of the others of the P sectors within one of the cells; each one of the cells has a respective base transceiver station for exchanging data with mobiles in said one of the cells; and the base transceiver station includes; P antennas, one for each of the P sectors, a receiver, adapted to be switched in each of the N time slots, switching means for switching the receiver, control means for controlling the switching means, the control means knowing the relationship of traffic channels of each of the frames to the P sectors at the antenna of one of the P sectors with which is associated one of the traffic channels or the respective control channel corresponding to the one of the N time slots concerned, to receive data from a mobile in the one of the P sectors, and P transmitters, one for each of the P sectors, for transmitting data to be transmitted to the mobile in the one of the P sectors with which the mobile is associated, and for transmitting dummy bursts to the mobile when there is no data to be transmitted whereby the respective control channel of each of the P sectors is conveyed at a time different from the respective control channel of each of the others of the P sectors within the one of the cells. - View Dependent Claims (4, 5, 6)
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7. A cellular mobile radio system comprising cells, wherein;
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each of the cells is divided into P sectors; each of the P sectors has a respective timebase; the transmission of data in said cellular mobile radio system is by frames and uses a time division multiple access procedure in which each of the frames has N time slots; each of the P sectors has a different one of the N time slots reserved as a respective control channel for transmitting signalling and control data; the respective timebase of each of the P sectors is shifted a predetermined number of the N time slots relative to the respective timebase of each of the others of the P sectors within one of the cells; and in association with each of the cells and for the purposes of exchanging data with mobiles in said cell, said cellular mobile radio system comprises a base transceiver station including; P antennas, one for each of the P sectors, P receivers, one for each of the P sectors, for receiving data from a mobile in one of the P sectors, P transmitters, one for each of the P sectors, for transmitting data to be transmitted to the mobiles in the respective sectors with which the mobiles are associated, and for transmitting dummy bursts to the mobiles when there is no data to be transmitted, first switching means for connecting a single baseband transmit processor device to any of said P transmitters, control means of said base transceiver station for controlling said first switching means, said control means knowing the relationship of the P sectors to traffic channels, and second switching means for connecting a single baseband receive processor device to any of said P receivers, said second switching means being controlled by said control means; whereby the respective control channel of each of the P sectors is conveyed at a time different from the respective control channel of each of the others of the P sectors within the one of the cells. - View Dependent Claims (8)
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Specification