Method and apparatus for performing relay operation in wireless LAN system

The invention claimed is: 1. A method for performing a relay operation by a relay entity of a wireless LAN (WLAN) system, the method comprising: receiving, from a non-access point (AP) station (STA), a probe request frame, in response to the probe request frame, transmitting, to the non-AP STA, a probe response frame comprising information that informs the non-AP STA whether the relay entity is a relay AP or a root AP, wherein the relay entity is operated as an AP for the non-AP STA, wherein when the information informs the non-AP STA that the relay entity is a relay AP, the probe response frame further comprises a medium access control (MAC) address of the root AP associated with the relay entity and service set identifier (SSID) information, and wherein the SSID information is set to be identical to an SSID of the root AP associated with the relay entity, and performing an association process with the non-AP STA, wherein when the information informs the non-AP STA that the relay entity is a relay AP, receiving a MAC service data unit (MSDU) from the associated non-AP STA and forwarding the received MSDU to the root AP associated with the relay entity through a MAC protocol data unit (MAC PDU) of an aggregate-MSDU (A-MSDU) format frame. 2. The method of claim 1 , wherein: An address 1 field of the A-MSDU format frame is set to a receiver address (RA) of the MAC PDU, an address 2 field of the A-MSDU format frame is set to a transmitter address (TA) of the MAC PDU, and an address 3 field of the A-MSDU format frame is set to a basic service set identifier (BSSID). 3. The method of claim 2 , wherein: the address 1 field is set to a MAC address of the root AP, the address 2 field is set to a MAC address of the relay entity, and the address 3 field is set to a MAC address of the root AP. 4. The method of claim 2 , wherein: the A-MSDU format frame comprises a first A-MSDU subframe and a second A-MSDU subframe, a destination address (DA) field of the first A-MSDU subframe is set to a DA of a first MSDU, a source address (SA) field of the first A-MSDU subframe is set to a SA of the first MSDU, a DA field of the second A-MSDU subframe is set to a DA of a second MSDU, and a SA field of the second A-MSDU subframe is set to a SA of the second MSDU. 5. The method of claim 1 , wherein the MSDU received by the relay entity from the root AP associated with the relay entity through the MAC PDU of the A-MSDU format frame is forwarded by the relay entity to each destination STA of the MSDU. 6. The of claim 5 , wherein: an Address 1 field of the A-MSDU format frame is set to a receiver address (RA) of the MAC PDU, an Address 2 field of the A-MSDU format frame is set to a Transmitter Address (TA) of the MAC PDU, and an Address 3 field of the A-MSDU format frame is set to a Basic Service Set Identifier (BSSID). 7. The method of claim 6 , wherein: the address 1 field is set to a MAC address of the relay entity, the address 2 field is set to a MAC address of the root AP, and the address 3 field is set to the MAC address of the root AP. 8. The method of claim 6 , wherein: the A-MSDU format frame comprises a first A-MSDU subframe and a second A-MSDU subframe, a destination address (DA) field of the first A-MSDU subframe is set to a DA of a first MSDU, a source address (SA) field of the first A-MSDU subframe is set to a SA of the first MSDU, a DA field of the second A-MSDU subframe is set to a DA of a second MSDU, and a SA field of the second A-MSDU subframe is set to a SA of the second MSDU. 9. The method of claim 1 , wherein the root AP associated with the relay entity includes a list of at least one STA address reachable through the relay entity. 10. The method of claim 9 , wherein the list of at least one STA address is based on information transmitted from the relay entity. 11. The method of claim 1 , wherein: an association identifier (AID) is allocated to the relay entity by the root AP associated with the relay entity when the value of (dec(AID[0:8]+dec(Root BSSID[44:47] XOR Root BSSID[40:43])×2 5 )mod 2 9 ) is identical to the value of (dec(Relay BSSID[39:47])mod(2 9 −1))+1, wherein XOR is an exclusive OR operation, dec(A) is a value of a decimal number converted from a binary number A, A[b:c] is from Bit b to Bit c of the binary number A when a first bit position of the binary number A is Bit 0 , and mod is a modulo operation. 12. A relay entity for performing a relay operation in a wireless LAN (WLAN) system, the relay entity comprising: a transceiver; and at least one processor coupled with the transceiver and configured to: receive, from a non-access point (AP) station (STA), a probe request frame, in response to the probe request frame, transmit, to the non-AP STA, a probe response frame comprising information that informs the non-AP STA whether the relay entity is a relay access point (AP) or a root AP, wherein the relay entity is operated as an AP for the non-AP STA, wherein when the information informs the non-AP STA that the relay entity is the relay AP the probe response frame further comprises a medium access control (MAC) address of the root AP associated with the relay entity and service set identifier (SSID) information, wherein the SSID information is set to be identical to an SSID of the root AP associated with the relay entity, performs an association process with the non-AP STA, and when the information informs the non-AP STA that the relay entity is a relay AP, receive a MAC service data unit (MSDU) from the associated non-AP STA and forwarding the received MSDU to the root AP associated with the relay entity through a MAC protocol data unit (MAC PDU) of an aggregate-MSDU (A MSDU) format frame. 13. The method of claim 1 , wherein the relay entity's role is at least one of the relay AP, the relay STA and the non-AP STA based on the association process.