Assignment of a carrier frequency in an SDMA radio system
First Claim
1. A method of assigning a carrier frequency (f) in a space division multiple access (SDMA) radio system comprising a base station (BTS) for receiving radio signals from different directions in space (θ
- 1, θ
2, θ
3) from corresponding different remote stations (MS1, MS2, MS3) simultaneously on said carrier frequency (f) by means of a directional antenna array (A), characterized in that said carrier frequency (f) is assigned to the remote stations (MS1, MS2, MS3) only if the different directions in space (θ
1, θ
2, θ
3) differ at least by a solid angle (w) and if the radio signals are received at the base station (BTS) at receive signal levels which are within a signal level range (zP).
1 Assignment
0 Petitions
Accused Products
Abstract
To assign a carrier frequency to different mobile stations in a conventional Space Division Multiple Access (SDMA) radio system, the stations are differentiated according to the direction in space from which they transmit radio signals to a base station. In addition, the distances between the base station and the mobile stations are compared. To prevent interference at the receiving site (base station BTS), according to the invention a carrier frequency (f) is assigned to the different mobile stations (MS1 to MS3) only if the directions in space (Θ1 to Θ3) are sufficiently different and the receive levels (P1 to P3) of the radio signals are sufficiently equal. To that end, each mobile station (MS1 to MS3) is assigned a guard area, which encompasses at least a preselected solid angle (lobe width w) and at most a preselected level space (dynamic range S). Any further mobile station wanting a radio link with the base station on the same carrier frequency (f) must be located in a permissible zone (Z) between the guard areas, which comprises a level range (zP) that is common to all preceding mobile stations. A further guard area is defined with each further connection, and the permissible zone (Z) is determined anew. The full capacity of the carrier frequency (f) is only attained when the permissible zone (Z) becomes so small that it no longer comprises sufficient space for the solid angle (w).
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Citations
19 Claims
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1. A method of assigning a carrier frequency (f) in a space division multiple access (SDMA) radio system comprising a base station (BTS) for receiving radio signals from different directions in space (θ
- 1, θ
2, θ
3) from corresponding different remote stations (MS1, MS2, MS3) simultaneously on said carrier frequency (f) by means of a directional antenna array (A), characterized in that said carrier frequency (f) is assigned to the remote stations (MS1, MS2, MS3) only if the different directions in space (θ
1, θ
2, θ
3) differ at least by a solid angle (w) and if the radio signals are received at the base station (BTS) at receive signal levels which are within a signal level range (zP). - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15)
- 1, θ
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16. A control device (CTR) for a base station (BTS) in a space division multiple access (SDMA) radio system for simultaneously receiving radio signals from different directions in space (θ
- 1, θ
2, θ
3) coming from remote radio stations (MS1, MS2, MS3) on a carrier frequency (f) by means of a signal processor (μ
P) which is connected to a radio subassembly (TRX) in the base station (BTS) for evaluating the radio signals received from the remote radio stations to determine the different directions in space (θ
1, θ
2, θ
3), characterized in that the signal processor (μ
P) is for evaluating the radio signals received from the remote radio stations to determine their receive signal levels (P1, P2, P3) and, by controlling a signal for assigning the carrier frequency (f) to the remote stations (MS1, MS2, MS3) only if the different directions in space (θ
1, θ
2, θ
3) differ at least by a solid angle (w), and if the receive signal levels (P1, P2, P3) of the radio signals are within a signal level range (zP). - View Dependent Claims (17)
- 1, θ
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18. A base station (BTS) for a space division multiple access (SDMA) radio station, comprising a radio subassembly (TRX) and a directional antenna array (A) connected thereto for simultaneously receiving radio signals from different directions in space (θ
- 1, θ
2, θ
3), coming from remote radio stations (MS1, MS2, MS3) on a carrier frequency (f), and which further comprises a signal processor (μ
P) connected to the radio subassembly (TRX) for evaluating the radio signals received from the remote radio stations for determining the different directions in space (θ
1, θ
2, θ
3), characterized in that the signal processor (μ
P) is for evaluating the radio signals received from the remote radio stations for determining their receive signal levels (P1, P2, P3), and by controlling a signal to the remote radio stations (MS1, MS2, MS3), for only assigning the carrier frequency (f) to them if the directions in space (θ
1, θ
2, θ
3) differ by at least a solid angle (w), and if the receive signal levels (P1, P2, P3) of the radio signals are within a signal level range (zP). - View Dependent Claims (19)
- 1, θ
Specification