What is claimed is:1. A method in which a base station processes data in a communication environment using a millimeter wave band, the method comprising:receiving a user equipment (UE) vector that is from a terminal and comprises cell edge information representing whether the terminal is located at a cell edge;generating a position vector that is matched with the UE vector;generating a new protocol stack based on a data processing rate of the terminal when it is determined that the terminal is not located at the cell edge according to the position vector, and allocating the generated protocol stack to the terminal;processing data to be provided to the terminal according to the generated protocol stack; andtransmitting the processed data through a beam that is allocated based on the position vector of the terminal.2. The method of claim 1, further comprising, before the generating of the position vector,comparing a traffic use amount of a present bandwidth and a threshold value of a traffic window; andgenerating another new protocol stack when the traffic use amount exceeds a threshold value of a traffic window.3. The method of claim 1, wherein the generating of the new protocol stack based on the data processing rate of the terminal comprises:Comparing the data processing rate of the terminal and a preset threshold processing rate when it is determined that the terminal is not located at the cell edge; andgenerating the new protocol stack when the data processing rate is higher than the threshold processing rate.4. The method of claim 3, wherein the data processing rate is a data processing rate per Transmit Time Interval (TTI).5. The method of claim 3, wherein the generating of the new protocol stack based on the data processing rate of the terminal further comprises:comparing a traffic window and a beam vector allocation window when the data processing rate is not higher than the threshold processing rate; andgenerating the new protocol stack if the traffic window is larger than the beam vector allocation window.6. The method of claim 5, wherein the comparing of the traffic window and the beam vector allocation window is performed if the data processing rate is not higher than a preset threshold processing rate.7. The method of claim 1, wherein the position vector is determined based on measurement information that is received from the terminal, wherein the measurement information comprises a measurement value of a beam in which the terminal receives a service, a measurement value of a peripheral beam, and an identifier of the terminal.8. The method of claim 1, wherein the transmitting of the processed data comprises transmitting data through a beam that is allocated to the terminal based on the UE vector matched to the position vector.9. The method of claim 8, wherein the UE vector is measurement information received from the terminal, andthe UE vector further comprises a user equipment identifier (UEID), information of a beam in which the terminal receives a service, information of a peripheral beam, and mobility of the terminal.10. The method of claim 9, wherein the terminal generates the UE vector according to a UE vector generation rule that is included in beam-related information that is broadcasted to the base station, updates the UE vector according to a UE vector update rule that is included in the beam-related information, and transmits the generated or updated UE vector to the base station.11. A method for an apparatus to enable a base station to process data in a communication environment using a millimeter wave band, the method comprising:allocating a protocol stack that is generated based on a characteristic of traffic that is provided to a terminal, and processing data according to the protocol stack that is allocated to the terminal;monitoring a traffic use amount of a present bandwidth using a traffic window and generating a traffic processing state including a data processing rate of the terminal according to a monitoring result;generating a new protocol stack based on the traffic processing state, allocating the generated protocol stack to the terminal, and allocating a beam resource to the terminal;switching the data to a beam that is allocated to the terminal; andtransmitting the data to the terminal through the beam to which data are switched,wherein the generating the new protocol stack includesgenerating a position vector matched with a user equipment (UE) vector that is received from the terminal and that comprises cell edge information representing whether the terminal is located at a cell edge, andgenerating the new protocol stack based on the data processing rate when it is determined that the terminal is not located at the cell edge according to the position vector.12. The method of claim 11, wherein the new protocol stack is further generated when a traffic use amount of a present bandwidth exceeds a threshold value of a traffic window based on the traffic processing state.13. The method of claim 11, wherein the new protocol stack is further generated when the data processing rate of the terminal is higher than a preset threshold processing rate based on the traffic processing state, and the data processing rate is a data processing rate per Transmit Time Interval (TTI).14. The method of claim 13, wherein the generating the new protocol stack further includescomparing a traffic window and a beam vector allocation window when the data processing rate is not higher than the threshold processing rate, andgenerating the new protocol stack if the traffic window is larger than the beam vector allocation window.15. The method of claim 11, wherein the protocol stack is matched to the UE vector, and the UE vector further comprises a user equipment identifier (UEID), information of a beam in which the terminal receives a service, information of a peripheral beam, and mobility of the terminal.