Method and apparatus for opportunistic user scheduling of two-cell multiple user MIMO

What is claimed is: 1. A method for opportunistic user scheduling of a multi-user multiple input multiple output (MIMO) by a base station, the method comprising: broadcasting signals through a set of randomly generated beamforming vectors; receiving channel quality information (CQI) from each of user terminals that receive the broadcasted signals; and determining a best user set among the user terminals based on the CQI and inter-user interference of the user terminals, wherein a number of beamforming vectors included in the set of randomly generated beamforming vectors is equal to a number of user terminals included in the best user set, wherein the CQI comprises CQI values corresponding to the beamforming vectors, respectively, wherein each of the CQI values corresponding to the beamforming vectors is determined based on a post processing matrix to be applied to the broadcasted signals, and an inter-user interference and an out-of-cell interference when a corresponding beamforming vector is used for transmission, wherein the post processing matrix for the corresponding beamforming vector is determined to maximize an achievable rate after post processing with the post processing matrix to be applied to the broadcasted signals when the corresponding beamforming vector is used for transmission, and wherein the achievable rate after post processing is calculated based on a signal when the corresponding beamforming vector is used for transmission, the inter-user interference and the out-of-cell interference when the corresponding beamforming vector is used for transmission. 2. The method of claim 1 , wherein the best user set is determined to minimize sum interference in each of at least two cells. 3. The method of claim 2 , wherein the sum interference is calculated by adding the inter-user interference to out-of-cell interference. 4. The method of claim 1 , wherein the best user set is determined to maximize sum rate in each of at least two cells. 5. The method of claim 1 , wherein the best user set is determined to minimize sum out-of-cell interference in each of at least two cells. 6. A method for opportunistic user scheduling of a multi-user multiple input multiple output (MIMO) by a user terminal, the method comprising: receiving a signal broadcasted from a base station through a set of randomly generated beamforming vectors; determining channel quality information (CQI) based on the received signal; and transmitting the CQI to the base station, wherein a best user set is determined based on CQI of each of user terminals including the user terminal and the other user terminals and inter-user interference of the user terminals, and wherein the CQI comprises CQI value corresponding to the beamforming vectors, respectively wherein a number of beamforming vectors included in the set of randomly generated beamforming vectors is equal to a number of user terminals included in the best user set, wherein the CQI comprises CQI values corresponding to the beamforming vectors respectively, wherein each of the CQI values corresponding to the beamforming vectors is determined based on a post processing matrix to be applied to the broadcasted signals, and an inter-user interference and an out-of-cell interference when a corresponding beamforming vector is used for transmission. wherein the post processing matrix for the corresponding beamforming vector is determined to maximize an achievable rate after post processing with the post processing matrix to be applied to the broadcasted signals when the corresponding beamforming vector is used for transmission, and wherein the achievable rate after post processing is calculated based on a signal when the corresponding beamforming vector is used for transmission, the inter-user interference and the out-of-cell interference when the corresponding beamforming vector is used for transmission. 7. The method of claim 6 , wherein the best user set is determined to minimize sum interference in each of at least two cells. 8. The method of claim 7 , wherein the sum interference is calculated by adding the inter-user interference to out-of-cell interference. 9. The method of claim 6 , wherein the best user set is determined to maximize sum rate in each of at least two cells. 10. The method of claim 6 , wherein the best user set is determined to minimize sum out-of-cell interference in each of at least two cells. 11. An apparatus for opportunistic user scheduling of multi-user multiple input multiple output (MIMO), the apparatus comprising: a communication module configured to broadcast signals through a set of randomly generated beamforming vectors, and to receive channel quality information (CQI) from each of user terminals that receive the broadcasted signals, and a controller configured to determine a best user set among the user terminals based on the CQI and inter-user interference of the user terminals, wherein a number of beamforming vectors included in the set of randomly generated beamforming vectors is equal to a number of user terminals included in the best user set, wherein the CQI comprises CQI values corresponding to the beamforming vectors, respectively, wherein each of the CQI values corresponding to the beamforming vectors is determined based on a post processing matrix to be applied to the broadcasted signals, and an inter-user interference and an out-of-cell interference when a corresponding beamforming vector is used for transmission, wherein the post processing matrix for the corresponding beamforming vector is determined to maximize an achievable rate after post processing with the post processing matrix to be applied to the broadcasted signals when the corresponding beamforming vector is used for transmission, and wherein the achievable rate after post processing is calculated based on a signal when the corresponding beamforming vector is used for transmission, the inter-user interference and the out-of-cell interference when the corresponding beamforming vector is used for transmission. 12. The apparatus of claim 11 , wherein the best user set is determined to minimize sum interference in each of at least two cells. 13. The apparatus of claim 12 , wherein the sum interference is calculated by adding the inter-user interference to out-of-cell interference. 14. The apparatus of claim 11 , wherein the best user set is determined to maximize sum rate in each of at least two cells. 15. The apparatus of claim 11 , wherein the best user set is determined to minimize sum out-of-cell interference in each of at least two cells. 16. A user terminal for opportunistic user scheduling of multi-user multiple input multiple output (MIMO), the user terminal comprising: a communication module configured to receive a signal broadcasted from a base station through a set of randomly generated beamforming vectors, and to transmit channel quality information (CQI) to the base station; and a controller configured to determine the CQI based on the received signal, wherein a best user set is determined based on CQI of each of user terminals including the user terminal and the other user terminals and inter-user interference of the user terminals, wherein a number of beamforming vectors included in the set of randomly generated beamforming vectors is equal to a number of user terminals included in the best user set, wherein the CQI comprises CQI values corresponding to the beamforming vectors, respectively, wherein each of the CQI values corresponding to the beamforming vectors is determined based on a post processing matrix to be applied to the b