Modular base station

The invention claimed is: 1. A base station module configured to be part of a group of base station modules comprising the base station module and other base station modules, the group of base station modules together forming a base station, said base station module comprising: at least one antenna for receiving radio signals from mobile stations in a base station communication band comprising a number of channels; a first communication interface for transferring data obtained via said received radio signals to the other base station modules and for receiving corresponding data obtained via radio signals received by the other base station modules; a data handling unit in a processor of the base station module configured to select data for transfer to the other base station modules; an uplink data processing unit in a processor of the base station module configured to process channels used by a subset of mobile stations of a set of mobile stations communicating with the base station, said subset being assigned to the base station module, where said base station module is configured to use said data received from the other base station modules to influence processing in the uplink data processing unit in the processor; a transforming unit configured to transform the radio signals from the time domain to the frequency domain and the first communication interface is provided for communicating frequency domain signals; a downlink data processing unit in a processor of the base station module configured to code data to be sent in radio signals to said assigned subset of mobile stations in corresponding channels and a second communication interface configured to receive data from the other base station modules concerning the mobile stations in subsets assigned to the other base station modules and transmit data of the mobile stations in the assigned subset to the other base station modules, wherein the data received via the second communication interface are radio signals with data concerning mobile stations outside of the assigned subset; at least one transmitting antenna via which the data of the whole set of mobile stations is transmitted to the other modules for transmission; and a multiplexing unit connected to the downlink data processing unit in the processor and the second communication interface for receiving coded and modulated signals with data concerning all mobile stations and being configured to combine them to at least one radio signal for transmission over said at least one antenna. 2. The base station module according to claim 1 , wherein the data handling unit in the processor comprises: a demultiplexing element configured to separate the received radio signals into a first radio signal group of radio signals relating to the assigned subset of mobile stations and a second radio signal group of radio signals not relating to the assigned subset of mobile stations, provide the radio signals in the second radio signal group to the first communication interface for transfer to the other base station modules and provide the radio signals of the first radio signal group to the uplink data processing unit in the processor, while the uplink data processing unit in the processor is configured to receive data relating to the assigned mobile stations from the other base station modules via the first communication interface as well as from the demultiplexing element and process the radio signals of the assigned subset of mobile stations received by all base station modules. 3. The base station module according to claim 1 , further comprising: an extracting unit configured to extract data that comprises at least the channels used by the mobile stations of the assigned subset from said radio signals received via said at least one antenna; a weight determining element being configured to determine weights for the channels used by the mobile stations of the assigned subset based on said data that comprises channels; and an antenna combining element configured to receive said weights from said weight determining element and apply them to the radio signals received via said at least one antenna for supply of weighted radio signals to the uplink data processing unit in the processor. 4. The base station module according to claim 3 , wherein the weights have been selected for contributing to said at least one antenna forming a beam together with antennas of the other base station modules. 5. The base station module according to claim 3 , wherein the data handling unit in the processor comprises a symbol probability value handling element configured to determine symbol probability values for channels used by the whole set of mobile stations based on the received radio signals, send the determined probability values of the channels used by mobile stations in the assigned subset to the uplink data processing unit in the processor and the determined probability values of the channels used by mobile stations in subsets assigned to the other base station modules to the first communication interface for transfer to the other base station modules, where the uplink data processing unit in the processor is configured to receive probability values of the channels used by mobile stations in the assigned subset from said other base station modules via the first communication interface and to process the weighted radio signals using the determined and received symbol probability values. 6. The base station module according to claim 3 , wherein the data handling unit in the processor comprises said antenna combining element, which is further configured to provide own weighted radio signals to the first communication interface for transfer to the other base stations modules, to receive other weighted radio signals from the other base station modules via the first communication interface, to combine the own and other weighted radio signals and supply the combined weighted signals to the uplink data processing unit in the processor for being processed. 7. The base station module according to claim 6 , wherein the weight determining element is further configured to receive data comprising the channels used by the assigned mobile stations being extracted by the other base station modules, to determine weights associated with the channels for the radio signals received by the other base station modules and to transfer these weights to the other base station modules. 8. The base station module according to claim 7 , wherein the extracting unit is further configured to extract from the received radio signals, data comprising the channels used by the mobile stations assigned to the other base station modules and send said data to the other base station modules, while the antenna combining element is configured to receive weights from the other base station modules via the first communication interface, which received weights are weights determined for channels used by subsets of mobile stations assigned to the other base station modules and to also apply the received weights on radio signals received via said antennas. 9. The base station module according to claim 1 , where there is a preamble detecting unit in the processor in at least one of the base station modules being configured to detect at least a group of the preambles for all of the base station modules, said base station module further comprising an access channel data extracting unit configured to extract data received in an access channel and supply to every preamble detecting unit. 10. The base station module according to claim 1 , wherein the downlink data processing unit in the processor is connected to the second interface for sending non-coded and non-modulated data to and receiving non-