Apparatus and method for balancing traffic load using inter-site carrier aggregation

What is claimed is: 1. A method of changing a serving cell by an evolved Node B (eNB) in a wireless communication system using inter-cell carrier aggregation (CA), the method comprising: calculating a difference value between a load of a current serving cell for a first user equipment (UE) and a load of a neighboring cell for the first UE; determining a load offset of the first UE based on the difference value between the loads of the current serving cell and the neighboring cell for the first UE; and changing a serving cell of the first UE as the neighboring cell based on a comparison between the load offset of the first UE and a power difference value between the current serving cell and the neighboring cell, wherein the load of the current serving cell for the first UE is an amount of resources used by UEs other than the first UE from among resources of entire serving cells, and the load of the neighboring cell for the first UE is an amount of resources used by UEs from among resources of entire neighboring cells. 2. The method of claim 1 , wherein determining the load offset of the first UE further comprises: determining the load offset of the first UE as a first offset if the difference value between the current serving cell and the neighboring cell for the first UE is larger than the first threshold value; determining the load offset of the first UE as a second offset if the difference value between the current serving cell and the neighboring cell for the first UE is lower than the second threshold value, wherein the first threshold value and the first offset is larger than 0, and the second threshold value and the second offset is smaller than 0. 3. The method of claim 2 , wherein determining the load offset of the first UE further comprises: determining the load offset of the first UE as 0 if the difference value between the current serving cell and the neighboring cell for the first UE is not larger than the first threshold value and lower than the second threshold value. 4. The method of claim 1 , wherein the power difference value between the current serving cell and the neighboring cell is one of a value obtained by subtracting a reference signal received power (RSRP) of the current serving cell from an RSRP of the neighboring cell, a value obtained by subtracting sounding reference signal (SRS) reception power of the current serving cell from SRS reception power of the neighboring cell, or a value obtained by subtracting a signal to interference and noise power ratio (SINK) value of the current serving cell from an SINK value of the neighboring cell. 5. The method of claim 1 , wherein changing the serving cell of the first UE further comprises: changing the serving cell of the first UE as the neighboring cell if the power difference value between the current serving cell and the neighboring cell is larger than a value obtained by adding the load offset and a default offset of the first UE. 6. The eNB of claim 1 , wherein the serving cell of the first UE is not changed if the power difference value between the current serving cell and the neighboring cell is not larger than a value obtained by adding the load offset and a default offset of the first UE. 7. An evolved node B (eNB) for changing a serving cell in a wireless communication system using inter-site carrier aggregation (CA), the eNB comprising: a controller configured to control to: calculate a difference value between a load of a current serving cell for a first user equipment (UE) and a load of a neighboring cell for the first UE, determine a load offset of the first UE based on the difference value between the loads of the current serving cell and the neighboring cell for the first UE, and change a serving cell of the first UE as the neighboring cell based on a comparison between the load offset of the first UE and a power difference value between the current serving cell and the neighboring cell, wherein the load of the serving cell for the first UE is an amount of resources used by UEs other than the first UE from among resources of entire serving cells, and the load of the neighboring cell for the first UE is an amount of resources used by UEs from among resources of entire neighboring cells. 8. The eNB of claim 7 , wherein the controller is configured to control to: determine the load offset of the first UE as a first offset if the difference value between the current serving cell and the neighboring cell for the first UE is larger than the first threshold value, determine the load offset of the first UE as a second offset if the difference value between the current serving cell and the neighboring cell for the first UE is lower than the second threshold value, wherein the first threshold value and the first offset is larger than 0, and the second threshold value and the second offset is smaller than 0. 9. The eNB of claim 8 , wherein the controller is configured to control to determine the load offset of the first UE as 0 if the difference value between the current serving cell and the neighboring cell for the first UE is not larger than the first threshold value and lower than the second threshold value. 10. The eNB of claim 7 , wherein the controller is configured to change the serving cell of the first UE as the neighboring cell if the power difference value between the current serving cell and the neighboring cell is larger than a value obtained by adding the load offset and a default offset of the first UE. 11. The eNB of claim 7 , wherein the power difference value between the current serving cell and the neighboring cell is one of a value obtained by subtracting a reference signal received power (RSRP) of the current serving cell from an RSRP of the neighboring cell, a value obtained by subtracting sounding reference signal (SRS) reception power of the current serving cell from SRS reception power of the neighboring cell, or a value obtained by subtracting a signal to interference and noise power ratio (SINK) value of the current serving cell from an SINK value of the neighboring cell. 12. The method of claim 1 , wherein the serving cell of the first UE is not changed if the power difference value between the current serving cell and the neighboring cell is not larger than a value obtained by adding the load offset and a default offset of the first UE.