Refrigerator having a controller for executing a load match operation, and a control method thereof

What is claimed is: 1. A refrigerator comprising: a compressor to provide a cooling capacity for at least one of a refrigerating operation and a freezing operation; a temperature sensor to sense an internal temperature of the refrigerator at a specific period in response to at least one of the freezing operation and the refrigerating operation; and a controller to receive the sensed internal temperature from the temperature sensor, calculate a rate of change in the internal temperature using the sensed internal temperature, and control the cooling capacity of the compressor based on the calculated rate of change in the internal temperature, wherein the controller: decreases the cooling capacity of the compressor by a first cooling capacity value when the rate of change in the internal temperature is within a first range, maintains the cooling capacity of the compressor when the rate of change in the internal temperature is within a second range, increases the cooling capacity of the compressor by the first cooling capacity value when the rate of change in the internal temperature is within a third range, and increases the cooling capacity of the compressor by a second cooling capacity value that is greater than the first cooling capacity value when the rate of change in the internal temperature is within a fourth range, wherein the controller changes the first, second, third, and fourth ranges when an operation cycle including the refrigerating operation and the freezing operation of the compressor is consecutively executed more than a preset number of times. 2. The refrigerator of claim 1 , further comprising: a memory to store first information related to a cooling capacity value of the compressor when the at least one of the freezing operation and the refrigerating operation is stopped, wherein the controller sets the cooling capacity of the compressor based on the stored first information when the at least one of the freezing operation and the refrigerating operation is restarted. 3. The refrigerator of claim 1 , wherein the controller calculates the rate of change in the internal temperature based on an amount of time taken for the internal temperature to decrease by a preset temperature value. 4. The refrigerator of claim 1 , further comprising: an input unit to receive a user input for at least one internal temperature of the refrigerator, wherein the controller sets the first, second, third, and fourth ranges based on the user input. 5. The refrigerator of claim 1 , wherein the controller determines execution or non-execution of each of the refrigerating operation and the freezing operation, and sets the first, second, third, and fourth ranges and the first and second cooling capacity values based on the determination result. 6. The refrigerator of claim 1 , wherein the controller changes the first, second, third, and fourth ranges when an operation cycle including the refrigerating operation and the freezing operation of the compressor is consecutively executed. 7. The refrigerator of claim 6 , wherein the controller sets the cooling capacity of the compressor to a maximum value when the operation cycle is consecutively executed more than a preset number of times. 8. The refrigerator of claim 7 , wherein the preset number of times is three times. 9. The refrigerator of claim 6 , wherein the controller sets the cooling capacity of the compressor using first information stored before the consecutively-executed operation cycle is started, when at least one of the refrigerating operation and the freezing operation is restarted after a predetermined time interval after the consecutively-executed operation cycle is stopped. 10. The refrigerator of claim 1 , wherein the calculated rate of change in the internal temperature is determined based on a measurement of a time interval for the internal temperature of the refrigerator to decrease by a reference temperature value. 11. The refrigerator of claim 10 , wherein the reference temperature value is 0.1° C. 12. The refrigerator of claim 10 , wherein the controller changes the reference temperature value based on a user input. 13. The refrigerator of claim 10 , wherein the controller changes the reference temperature value based on an operation mode of the refrigerator. 14. A method for controlling a refrigerator, the method comprising: generating, using a compressor, a cooling capacity for executing at least one of a freezing operation and a refrigerating operation of the refrigerator; sensing, using a temperature sensor, an internal temperature of the refrigerator at a predetermined period; calculating, using a controller, a rate of change in the internal temperature using the internal temperature; and controlling, using the controller, the cooling capacity of the compressor based on the rate of change in the internal temperature, wherein the controlling the cooling capacity of the compressor comprises: decreasing the cooling capacity of the compressor by a first cooling capacity value when the rate of change in the internal temperature is within a first range, maintaining the cooling capacity of the compressor when the rate of change in the internal temperature is within a second range, increasing the cooling capacity of the compressor by the first cooling capacity value when the rate of change in the internal temperature is within a third range, and increasing the cooling capacity of the compressor by a second cooling capacity value that is greater than the first cooling capacity value when the rate of change in the internal temperature is within a fourth range, changing the first, second, third, and fourth ranges when an operation cycle including the refrigerating operation and the freezing operation of the compressor is consecutively executed more than a preset number of times. 15. The method of claim 14 , further comprising: storing, using a memory, first information related to a cooling capacity value of the compressor when at least one of the freezing operation and the refrigerating operation is stopped; and setting, using the controller, the cooling capacity of the compressor based on the stored first information when at least one of the freezing operation and the refrigerating operation is restarted. 16. The method of claim 14 , further comprising calculating the rate of change in the internal temperature based on an amount of time taken for the internal temperature to decrease by a preset temperature value. 17. The method of claim 14 , further comprising: determining execution or non-execution of each of the refrigerating operation and the freezing operation; and setting the first, second, third, and fourth ranges and the first and second cooling capacity values based on the determination result. 18. The method of claim 14 , further comprising changing the first, second, third, and fourth ranges when an operation cycle including the refrigerating operation and the freezing operation of the compressor is consecutively executed.