초록 ▼

A virtual network is created by providing antennas controlled by the same radio access station with control signals of virtual radio access stations. Sets of physical channels comprising the control signals are dedicated to the respective antennas, while sets of physical channels comprising only tra

A virtual network is created by providing antennas controlled by the same radio access station with control signals of virtual radio access stations. Sets of physical channels comprising the control signals are dedicated to the respective antennas, while sets of physical channels comprising only traffic channels constitute common resources for more than one antenna. One example embodiment is applied in antenna systems utilizing common antenna cables, whereby the radio access station is provided as a distributor having a central broadcast control signal injector and control signal selectors at the antennas.

대표청구항 ▼

The invention claimed is: 1. Radio access network, comprising radio access station; and a first and a second transmitting entity controlled by the radio access station; the radio access station being arranged to allocate a control channel in a first set of physical channels for the first transmitti

The invention claimed is: 1. Radio access network, comprising radio access station; and a first and a second transmitting entity controlled by the radio access station; the radio access station being arranged to allocate a control channel in a first set of physical channels for the first transmitting entity; the radio access station being arranged to allocate a control channel in a second set of physical channels, exclusive to the first set of physical channels, for the second transmitting entity; the control channels of the first and second sets of physical channels including different radio access station identification data; said radio access station identification data being associated with a respective position; the radio access station being arranged to allocate a first traffic channel in a third set of physical channels, exclusive to both the first and second sets of physical channels, for the first transmitting entity and a second traffic channel in the third set of physical channels for the second transmitting entity; the radio access station being arranged not to allocate any control channels for said first transmitting entity and said second transmitting entity to said third set of physical channels. 2. Radio access network according to claim 1, wherein the transmitting entities are connected to the radio access station by a common cable. 3. Radio access network according to claim 1, wherein the first and second transmitting entities are components in a distributed antenna system or a leaking cable antenna. 4. Radio access network according to claim 1, wherein the radio access station is a base station. 5. Radio access network according to claim 4, further comprising positioning means, estimating positions of mobile terminals based on radio access station identification data received by the mobile terminals. 6. Radio access network according to claim 5, wherein the position estimation is based on a neighbor list of the mobile terminals. 7. Radio access network according to claim 1, further comprising a third transmitting entity, whereby the radio access station being arranged to allocate a control channel in the first set of physical channels for the third transmitting entity, comprising different radio access identification data compared with the first transmitting entity. 8. Radio access network according to claim 7, wherein the radio access station being arranged to allocate a first traffic channel in the first set of physical channels for the first transmitting entity and a second traffic channel in the first set of physical channels for the third transmitting entity. 9. Radio access network according to claim 1, wherein the radio access station comprises a broadcast control signal injector and at least one of the first and second transmitting entities comprises a control signal selector. 10. Radio access network according to the claim 9, wherein the control signal selector is arranged to select entire sets of physical channels comprising control channels. 11. Radio access network according to the claim 9, wherein the control signal selector is arranged to select separate control channels. 12. Radio access station, comprising an antenna connection to a first and a second transmitting entity controlled by the radio access station; radio channel allocation circuitry arranged to: allocate a control channel in a first set of physical channels for the first transmitting entity and allocate a control channel in a second set of physical channels, exclusive to the first set of physical channels, for the second transmitting entity; the control channels of the first and second sets of physical channels including different radio access station identification data; said radio access station identification data being associated with a respective position; the radio allocation circuitry being arranged to allocate a first traffic channel in a third set of physical channels, exclusive to both the first and second sets of physical channels, for the first transmitting entity and a second traffic channel in the third set of physical channels for the second transmitting entity; and the radio allocation circuitry being arranged not to allocate any control channels for said first transmitting entity and said second transmitting entity to said third set of physical channels. 13. Radio access station according to claim 12, wherein the radio access station is a base station. 14. Radio access station according to claim 12, further comprising positioning circuitry for estimating positions of mobile terminals based on radio access station identification data received by the mobile terminals. 15. Radio access station according to claim 14, wherein the position estimation is based on a neighbor list of the mobile terminals. 16. Radio access station according to claim 12, wherein the radio channel allocation circuitry is further arranged to allocate a control channel in the first set of physical channels for the third transmitting entity, comprising different radio access identification data compared with the first transmitting entity. 17. Radio access station according to claim 16, wherein the radio channel allocation circuitry is further arranged to allocate a first traffic channel in the first set of physical channels for the first transmitting entity and a second traffic channel in the first set of physical channels for the third transmitting entity. 18. Radio access station according to claim 12, further comprising a broadcast control signal injector. 19. Radio access station according to the claim 18, wherein the control signal injector is arranged to inject entire sets of physical channels comprising control channels. 20. Radio access station according to the claim 19, wherein the control signal injector is arranged to inject signals representing separate control channels. 21. Method for managing a part of a mobile communications network, comprising the steps of: transmitting control signals of a first set of physical channels over a first transmission entity; transmitting control signals of a second set of physical channels, exclusive to the first set of physical channels, over a second transmission entity; and the control channels of the first and second sets of physical channels including different radio access station identification data; said radio access station identification data being associated with a respective position; transmitting traffic signals of a third set of physical channels, exclusive to both the first and second sets of physical channels, over both the first and the second transmission entity; the third set of physical channels having no control signals. 22. Method according to claim 21, wherein the radio access station is a box station. 23. Method according to claim 21, comprising the further step of estimating positions of mobile terminals based on radio access station identification data received by the mobile terminals. 24. Method according to claim 23, wherein the position estimation is based on a neighbor list of the mobile terminals. 25. Method according to claim 21, comprising the further steps of: multiplexing signals to the first, second and third sets of physical channels onto a single communication link; transferring the multiplexed signal to the first and second transmission entities; demultiplexing the transferred signal at at least one of the first and second transmission entities; and selecting one of the first and second control signals at the at least one of the first and second transmission entities. 26. Method according to claim 25, wherein the step of multiplexing comprises multiplexing of portions of the first, second and/or third sets of physical channels, where the method comprises the further step of combining the selected control signals of the demultiplexed transferred signal into the first, second and/or third sets of physical channels.