MIMO coupler array with high degrees of freedom

We claim: 1. A method of testing a Multiple Input Multiple Output (MIMO) Base Station (BS) comprising using an array of couplers to capture the radio signals from or to transmit radio signals to the antenna array of the MIMO BS wherein each coupler includes one or more coupling antennas that are used to mainly receive a subset of radio signal from and/or transmit a subset of radio signal to the antenna array of the MIMO BS; configuring the array of couplers to achieve a channel matrix G with rank of min{M, N} where G is the channel matrix between the transmitting/receiving paths of the MIMO BS and the transmitting/receiving paths connected to the coupling antennas in the array of couplers, M is the number of antennas in the antenna array of the MIMO BS and N is the number of coupling antennas in the array of couplers; estimating the channel matrix G; and applying the inverse or pseudoinverse of the G matrix to the signals to the transmitting paths or from the receiving paths connected to the coupling antennas in the array of couplers to produce a diagonal connection matrix. 2. The method of claim 1 wherein configuring the array of couplers includes one or more of adjusting the pattern, position, orientation, shape or size of the couplers and/or the alignment, polarization or other parameters of the one or more coupling antennas. 3. The method of claim 2 wherein configuring the array of couplers is controlled using a microcontroller or a computer, and a user interface is provided to enable a user to adjust the configurations to achieve a desired channel matrix. 4. The method of claim 3 wherein configuring the array of couplers is automated using a feedback control loop that iteratively searches for a desired configuration to achieve a channel matrix G with the required property. 5. The method of claim 1 further comprising placing closely coupled MIMO BS antenna array and the array of couplers into an RF isolation chamber that shields the electromagnetic fields from the environment outside the chamber.