RU97110163A

RU97110163A - DYNAMIC ALLOCATION OF CHANNELS FOR SECTORIZED RADIO DEVICES OF ACCESS RADIO COMMUNICATION SYSTEM WITH MOBILE OBJECTS

Info

Publication number: RU97110163A
Application number: RU97110163/09A
Authority: RU
Inventors: Шара Филипп
Original assignee: Телефонактиеболагет Лм Эрикссон
Priority date: 1994-11-15
Filing date: 1995-11-14
Publication date: 1999-05-27

Claims

1. A radio access device (40) for establishing radio link connections with a plurality of geographically distributed remote long-distance communication devices (7; 13; 33), said radio access device (40) comprising a transceiver and a control unit (45) and an antenna unit (46; 75 ), operatively connected to provide a plurality of common radio communication channels in the transmission sectors (66-71) divided by directions, and the specified radio transceiver and control unit (45) and antenna unit (46; 75) are made with the ability to act together with the decree remote remote communication devices (7; 13; 33) in the transmission sector (66-71) for adaptive selection of a free radio channel of the indicated set of common radio communication channels, characterized in that the said radio transmitter and control unit (45) and the antenna unit (46; 75) are configured to select in each of the indicated transmission sectors (66-71) a free radio channel of the indicated set of common radio communication channels, which, once selected, can be reused in the same access radio device (40), but which is indie visual for a given connection, a radio link in a given transmission sector (66-71).

2. An access radio device (40) according to claim 1, comprising a number of access radio modules (45), each of which has a radio transceiver and a control unit configured to provide a plurality of common radio communication channels, characterized in that said access radio modules (45) are operational connected to the specified antenna units (46; 75) to provide the specified set of common radio channels in the corresponding transmission sector (66-71).

3. An access device (40) according to claim 2, characterized in that said access radio modules (45) are configured to provide said set of common radio communication channels in a given transmission sector (66-71) with at least two access radio modules (45) of said radio access devices (40).

4. Radio access device (40) according to claim 3, characterized in that said antenna unit (46; 75) is configured to provide imposed sectorized service (65).

5. Radio access device (40) according to claims 1, 2, 3 or 4, characterized in that said antenna unit (46; 75) comprises a device of individual antennas, operatively connected to a radio transceiver of a separate radio access module (45).

6. An access radio device (40) according to claim 5, characterized in that said antennas are so-called isolated type antennas (75) having as little as possible lateral and reverse radiation characteristics.

7. A radio access device (40) according to claim 5 or 6, characterized in that said individual antennas comprise multi-element antennas (76) on an electrically conductive substrate (77) and a plurality of radiating elements (76) mounted on it in a predetermined arrangement order.

8. Radio access device (40) according to claim 7, characterized in that each radiating element comprises an electrically conductive element emitter (76) on an electrically conductive substrate (78) forming a microstrip antenna (46; 75) having a radiating front side and non-radiating or insulated back side.

9. A radio access device (40) according to claim 8, characterized in that said radio access modules (45) comprise a housing and are mounted on the back side without radiation of the corresponding microstrip antenna (46).

10. The radio access device (40) according to claim 8 or 9, characterized in that it contains a hexagonal arrangement of microstrip antennas (46; 75) emitting a substantially 120-degree angle.

11. A radio access device (40) according to any one of the preceding paragraphs, characterized in that said antenna unit (46; 75) contains physically separated first and second antenna devices, and in which the transceiver (89; 90) of each radio access module (45) contains a switch (88) for operatively connecting the transceiver (89, 90) to the indicated first or second antenna device.

12. A radio access device according to any one of the preceding paragraphs, characterized in that the control unit (84) of the radio access modules (45) is configured to work together with remote telecommunication devices (7; 13; 33) in the corresponding transmission sector (66-71) for continuous adaptive selection of a free radio channel from among the plurality of common radio channels.

13. An access device (40) according to any one of the preceding paragraphs, characterized in that said radio access modules (45) and remote telecommunication devices (7; 13; 33) comprise a transceiver configured to provide multiple communication channels in accordance with a multiple access method radio communications.

14. A radio access device (40) according to claim 13, characterized in that said radio access modules (45) and said remote telecommunication devices (7; 13; 33) operate in accordance with the Digital Advanced Wireless Remote Communication (DAC) standard.

15. Radio access device (40) according to any one of the preceding paragraphs, dependent on p. 7, characterized in that it contains a housing having parallel, separated by a longitudinal interval, the first and second mounting plates (42, 43) and means (47-49) for mounting said antenna substrates (46) on and between said mounting plates (42, 43).

16. The access radio device (40) according to claim 15, characterized in that said mounting means comprises snap-lock means, according to which the mounting elements (47) of the antenna at their opposite edges are provided with protrusions (48), and said mounting plates (42 , 43) are provided with corresponding holes (49), as a result of which, when mounted, these protrusions (48) enter the indicated holes (49).

17. Radio access device (40) according to claim 15 or 16, characterized in that it also comprises means for controlling the angle of inclination of the antenna plates.

18. Radio access device (40) according to claim 17, dependent on claim 16, characterized in that said mounting plates (42, 43) provide a number of holes (49) arranged at radial intervals, as a result of which said antenna substrates (46 ) can be mounted obliquely relative to the mounting plates (42, 43).

19. The use of a radio access device (40) according to any one of the preceding paragraphs, in Radio in the Local Loop System containing a plurality of geographically distributed radio access devices (40) as a radio link connector (15; 17) with a plurality of geographically distributed remote long-distance communication devices ( 7, 13), and each of these access radio devices (40) is connected via an intermediate radio switch (5) to the public telecommunication network.

20. The use of a radio access device (40) in accordance with any of paragraphs 1 to 18 in a cellular telecommunications network with mobile objects (31-36), containing a plurality of geographically distributed radio access devices (40) as a connector for radio links (37) with a plurality of geographically distributed remote long-distance communication devices (33) providing service for a given unit of cells (32) of a specified network, said radio access devices (40) being connected via an intermediate radio switch (36) to a public long-distance communication network Ania.