Method, device and system for relay timing adjustment

The invention claimed is: 1. A method of transmitting a timing adjustment command in an Advanced Long Term Evolution, LTE-A, system, the method comprising: generating, by a base station, a downlink transmission timing adjustment command of an access link according to a reception time when a signal transmitted from a relay node is received; transmitting, by the base station, the downlink transmission timing adjustment command of the access link to the relay node; and the downlink transmission timing adjustment command of the access link is a command by which the relay node adjusts its own downlink transmission timing so that the downlink transmission timing of the access link of the relay node is synchronized with downlink transmission timing of the base station; wherein generating, by the base station, the downlink transmission timing adjustment command of the access link according to the reception time when the signal transmitted from the relay node is received comprises: determining, by the base station, a time difference Δ DL between the time when the signal transmitted from the relay node in an uplink sub-frame k is received and a starting time of the sub-frame k of the present base station; quantifying, by the base station, a half of the time difference by a quantification step to obtain timing advance quantification data; and generating the downlink transmission timing adjustment command of the access link representing the timing advance quantification data. 2. The method according to claim 1 , wherein generating, by the base station, the downlink transmission timing adjustment command of the access link according to the reception time when the signal transmitted from the relay node is received comprises: generating, by the base station, the downlink transmission timing adjustment command of the access link according to a reception time when a random access signal is received, which is transmitted over a Physical Random Access Channel, PRACH, from the relay node in an initial access procedure; or generating, by the base station, the downlink transmission timing adjustment command of the access link according to a reception time when another signal, than a random access signal, transmitted from the relay node is received. 3. The method according to claim 2 , wherein the base station transmits the downlink transmission timing adjustment command of the access link to the relay node by a random access response or upper-layer signaling in a random access procedure. 4. The method according to claim 1 , wherein after the base station determines the time difference and before quantifying the half of the time difference by the quantification step, the method further comprises: revising the time difference by a value d, wherein d represents a difference between the starting time of the uplink sub-frame k of a backhaul link of the relay node and a starting time of a downlink sub-frame k of the backhaul link of the relay node. 5. The method according to claim 1 , wherein the quantification step is 16*Ts, and Ts is the minimum time unit of the LTE-A system. 6. A synchronization method in an Advanced Long Term Evolution, LTE-A, system, the method comprising: receiving, by a relay node, a downlink transmission timing adjustment command of an access link transmitted from a base station; and adjusting, by the relay node, downlink transmission timing of the present relay node according to the downlink transmission timing adjustment command of the access link; wherein the downlink transmission timing adjustment command of the access link is generated by the base station according to a reception time when a signal transmitted from the relay node is received, wherein the generating operation comprises: determining a time difference Δ DL between the time when the signal transmitted from the relay node in an uplink sub-frame k is received and a starting time of the sub-frame k of the present base station; quantifying a half of the time difference by a quantification step to obtain timing advance quantification data; and generating the downlink transmission timing adjustment command of the access link representing the timing advance quantification data. 7. The method according to claim 6 , wherein adjusting, by the relay node, the downlink transmission timing of the present relay node according to the downlink transmission timing adjustment command of the access link comprises: determining, by the relay node, a timing advance of downlink transmission of the present relay node according to the downlink transmission timing adjustment command of the access link and adjusting, by the relay node, the downlink transmission timing of the present relay node according to the timing advance. 8. The method according to claim 7 , wherein the relay node determines the Timing Advance, TA, of downlink transmission of the present relay node in Formula 1 below if the relay node receives the downlink transmission timing adjustment command of the access link transmitted from the base station after initiating a random access procedure: TA=TAC*K;   Formula 1 wherein TAC represents timing advance quantification data represented by the downlink transmission timing adjustment command of the access link, and K represents a quantification step used by the base station to derive the timing advance quantification data. 9. The method according to claim 8 , wherein the quantification step is 16*Ts, and Ts represents the minimum time unit of the LTE-A system. 10. The method according to claim 7 , wherein the relay node determines the Timing Advance, TA, of downlink transmission of the present relay node in Formula 3 below if the relay node receives the downlink transmission timing adjustment command of the access link transmitted from the base station after accomplishing a random access procedure: TA=TA old +( TAC− 2 N− 1)* K;   Formula 3 wherein TAC represents timing advance quantification data represented by the downlink transmission timing adjustment command of the access link, K represents a quantification step used by the base station to derive the timing advance quantification data, N represents the number of bits used by the downlink transmission timing adjustment command of the access link, and TA old represents a timing advance of downlink transmission of the present relay node recently determined by the relay node before receiving the downlink transmission timing adjustment command of the access link. 11. The method according to claim 7 , wherein adjusting the downlink transmission timing of the present relay node according to the timing advance comprises: adjusting, by the relay node, the downlink transmission timing of the present relay node starting from a sub-frame k+n when receiving the downlink transmission timing adjustment command of the access link in a sub-frame k, wherein n is a positive integer. 12. The method according to claim 6 , wherein after the relay node receives the downlink transmission timing adjustment command of the access link transmitted from the base station, the method further comprises: adjusting, by the relay node, uplink transmission timing of a backhaul link according to the downlink transmission timing adjustment command of the access link. 13. A relay node, comprising: a downlink adjustment command reception unit configured to receive a downlink transmission timing adjustment command of an access link transmitted from a base station; and a downlink transmission timing adjustment unit configured to adjust downlink transmission timing of the present relay node according to the downlink transmission timing adjustment command