Architecture and method in a wireless communication network

The invention claimed is: 1. A radio network node configured for wireless communication with a user equipment (UE) in antenna streams of a wireless communication system, the radio network node comprising: a plurality of antenna sub arrays forming a multiple antenna array which is configured for beamforming, spatial multiplexing and Multiple Input Multiple Output (MIMO) transmission/reception, wherein the multiple antenna array processes a plurality of physical antenna streams, and wherein a number of physical antenna streams of the plurality of physical antenna streams is defined as N; one or more processing circuits for performing central base band (CBB) processing; and one or more processing circuits for performing antenna base band (ABB) processing connected to the one or more processing circuits for performing CBB processing, wherein the one or more processing circuits for performing ABB processing comprises: a plurality of active antenna (AA) processing circuits, wherein: each AA processing circuit of the plurality of AA processing circuits is connected to a respective one antenna sub array of the plurality of antenna sub arrays, each AA processing circuit of the plurality of AA processing circuits is configured for pre-processing of signals over the respective one antenna sub array, before any forwarding of signals is made to the one or more processing circuits for performing CBB processing, and the pre-processing performed by the plurality of AA processing circuits comprises one or more of: analog/digital conversion, digital/analog conversion, carrier modulation/demodulation, transmission power amplification and filtering, or receiver low noise amplification and filtering; and a plurality of sub-level ABB processing circuits, wherein each sub-level ABB processing circuit of the plurality of sub-level ABB processing circuits is connected to the plurality of AA processing circuits and is connected to the respective one antenna sub array, and wherein the each sub-level ABB processing circuit is configured for: spatial detection of a received signal for the antenna sub array, and selecting strongest paths to the UE, wherein: before any forwarding of signals is made to the one or more processing circuits performing CBB processing, the one or more processing circuits for performing ABB processing maps a plurality of logical antenna streams to clusters of signals of the N physical antenna streams based on the pre-processing of signals by the plurality of AA processing circuits and based on the selected strongest paths to the UE, a number of logical antenna streams of the plurality of logical antenna streams is defined as M, and M is less than N. 2. The radio network node according to claim 1 , wherein the one or more processing circuits for performing the ABB processing are connected to the plurality of sub-level ABB processing circuits, and wherein the one or more processing circuits for performing the ABB processing are configured for spatial analysis of the signals received from the plurality of antenna sub arrays. 3. The radio network node according to claim 1 further comprising an equalizer, wherein the pre-processing of received signals comprises isolating selected signals, which are transmitted to the equalizer. 4. The radio network node according to claim 1 , wherein the pre-processing of signals to be transmitted is performed based on reciprocity of received signals. 5. The radio network node according to claim 1 , wherein the multiple antenna array is configured for transmitting a signal in the same spatial direction as the selected received signals, and from the same antenna sub arrays that have been selected for the received signals. 6. The radio network node according to claim 1 , wherein the radio network node comprises an evolved NodeB (eNodeB), and wherein the wireless communication network is based on 3rd Generation Partnership Project Long Term Evolution (3GPP LTE). 7. A method in a radio network node, for wireless communication with a user equipment (UE) in antenna streams of a wireless communication system, the radio network node including: a plurality of antenna sub arrays forming a multiple antenna array which is configured for beamforming, spatial multiplexing and Multiple Input Multiple Output (MIMO) transmission/reception; one or more processing circuits for performing central base band (CBB) processing; and one or more processing circuits for performing antenna base band (ABB) processing connected to the one or more processing circuits for performing CBB processing and connected to the plurality of antenna sub arrays, the method comprising the steps of: receiving and processing, by the multiple antenna array, a plurality of physical antenna streams, wherein a number of physical antenna streams of the plurality of physical antenna streams is defined as N; pre-processing, by each of a plurality of AA processing circuits of the one or more processing circuits for performing ABB processing, and before any forwarding of signals is made to the one or more processing circuits for performing CBB processing, signals over a respective one antenna sub array of the plurality of antenna sub arrays, the pre-processing comprising one or more of: analog/digital conversion, digital/analog conversion, carrier modulation/demodulation, transmission power amplification and filtering, or receiver low noise amplification and filtering; spatially detecting, by a respective one of a plurality of sub-level ABB processing circuits of the one or more processing circuits for performing ABB processing, a received signal for the antenna sub array; selecting, by the respective one sub-level ABB processing circuit, strongest paths to the UE: mapping, by the one or more circuits for performing ABB processing and before any forwarding of signals is made to the one or more processing circuits for performing CBB processing, a plurality of logical antenna streams to clusters of signals of the N physical antenna streams based on the pre-processing of signals by the plurality of AA processing circuits and based on the selected strongest paths to the UE, wherein: a number of logical antenna streams of the plurality of logical antenna streams is defined as M, and M is less than N; and forwarding the plurality of logical antenna streams to the one or more processing circuits performing the CBB processing. 8. The method according to claim 7 , wherein the pre-processing step comprises pre-processing signals to be transmitted based on reciprocity of received signals, the method further comprising: transmitting the pre-processed signals to be transmitted in the same spatial direction as the selected strongest signals, and from the same antenna sub arrays that have been selected for the strongest signals. 9. The method according to claim 7 , further comprising spatially analyzing, by the one or more processing circuits for performing ABB processing, the signals received from the plurality of antenna sub arrays. 10. The radio network node according to claim 2 , wherein, for the spatial analysis of the received signals, the one or more processing circuits for performing the ABB processing are further configured to compare a received signal strength with a predetermined threshold value or a predetermined number of directions, and wherein signals having a signal strength exceeding the predetermined threshold value are selected. 11. The radio network node according to claim 1 , wherein the one or more processing circuits for performing the ABB processing are further configured for selecting the strongest path from at least one of the plurality of antenna sub arrays. 12. The radio ne