Method and device for inter-cluster cooperative communication in mobile communication system

What is claimed is: 1. A method for operating a central unit in a mobile communication system, the method comprising: receiving first information regarding channels of a sector in a serving cluster and at least one sector in at least one neighboring cluster; receiving second information regarding a change in an utility of the at least one sector due to a transition of the sector in the serving cluster from a blank state into a non-blank state; and determining a blank pattern of the sector in the serving cluster based on the first information and the second information, wherein the utility is determined based on a ratio of a current data rate to an average data rate. 2. The method of claim 1 , further comprising: transmitting information on the blank pattern to the sector in the serving cluster. 3. The method of claim 1 , further comprising: receiving information on a blank pattern of another sector in the at least one neighboring cluster. 4. The method of claim 1 , wherein the blank state is a state where data transmission is suspended during a corresponding transmission time interval (TTI). 5. A method for operating a base station in a mobile communication system, the method comprising: transmitting, to a central unit, information regarding channels of a sector of the base station and at least one sector in at least one neighboring cluster; receiving, from the central unit, information on a blank pattern; and performing a scheduling based on the blank pattern, wherein the blank pattern is determined based on the information regarding the channels and information regarding a change in an utility of the at least one sector of the base station due to a transition of the sector from a blank state into a non-blank state, wherein the utility is determined based on a ratio of a current data rate to an average data rate. 6. The method of claim 5 , wherein the blank state is a state where data transmission is suspended during a corresponding transmission time interval (TTI). 7. The method of claim 5 , further comprising: determining a magnitude of a change in an utility of the sector of the base station due to a transition of another sector in a neighboring cluster from a blank state into a non-blank state; and transmitting information on the magnitude of the change to another central unit of the neighboring cluster. 8. The method of claim 5 , wherein performing the scheduling comprises: determining a sum of magnitudes of each change in an utility of the at least one sector; and determining a scheduling metric by adding the current data rate of the sector in the non-blank state to the sum. 9. A central unit in a communication system, the central unit comprising: an interface unit configured to: receive first information regarding channels of a sector in a serving cluster and at least one sector in at least one neighboring cluster, and receive second information regarding a change in an utility of the at least one sector due to a transition of the sector in the serving cluster base station from a blank state into a non-blank state; and a controller configured to: determine a blank pattern of the sector in the serving cluster based on the first information and the second information, wherein the utility is determined based on a ratio of a current data rate to an average data rate. 10. The central unit of claim 9 , wherein the interface unit is configured to transmit information on the blank pattern to the sector in the serving cluster. 11. The central unit of claim 9 , wherein the interface unit is configured to receive information on a blank pattern of another sector in the at least one neighboring cluster. 12. The central unit of claim 9 , wherein the blank state is a state where data transmission is suspended during a corresponding transmission time interval (TTI). 13. A base station in a mobile communication system, the base station comprising: a transmitter configured to transmit, to a central unit, information regarding channels of a sector of the base station and at least one sector in at least one neighboring cluster; a receiver configured to receive, from the central unit, information on a blank pattern; and a scheduler configured to perform a scheduling based on the blank pattern, wherein the blank pattern is determined based on the information regarding the channels and information regarding a change in an utility of the at least one sector due to a transition of the sector of the base station from a blank state into a non-blank state, wherein the utility is determined based on a ratio of a current data rate to an average data rate. 14. The base station of claim 13 , wherein the blank state is a state where data transmission is suspended during a corresponding transmission time interval (TTI). 15. The base station of claim 13 , further comprising: a controller configured to determine a magnitude of a change in an utility of the sector of the base station due to a transition of another sector in a neighboring cluster from a blank state into a non-blank state, and control to transmit information on the magnitude of the change to another central unit of the neighboring cluster. 16. The base station of claim 13 , wherein the scheduler is configured to determine a sum of magnitudes of each change in an utility of the at least one sector, and determine a scheduling metric by adding the current data rate of the base station in the non-blank state to the sum.