Line synchronization method in OSD system, system, and vectoring control entity

What is claimed is: 1. A line synchronization method in an overlapped spectrum duplex (OSD) system having uplinks, downlinks, and K pairs of communications lines, wherein each pair of communications lines comprises an uplink and a downlink, and wherein the method comprises: synchronizing downstream synchronization symbols of downlinks in all of the pairs of communications lines at least in part by configuring all central office sending units in a vectoring group to cause downstream synchronization symbols from the central office sending units to be at a same location, wherein each of the central office sending units corresponds to a respective one of the downlinks in the OSD system; and separately synchronizing an upstream synchronization symbol of an uplink of each pair of communications lines with a downstream synchronization symbol of a downlink of each pair of communications lines at least in part by configuring all far-end sending units in the vectoring group to cause upstream synchronization symbols from all of the far-end sending units and the downstream synchronization symbols from all of the central office sending units to be at the same location, wherein each of the far-end sending units corresponds to a respective one of the uplinks in the OSD system. 2. The method according to claim 1 , wherein configuring all of the far-end sending units in the vectoring group comprises controlling each central office sending unit to send a synchronization request to a corresponding far-end sending unit, wherein the synchronization request comprises a downstream synchronization symbol count. 3. The method according to claim 1 , further comprising configuring all central office sending units or far-end sending units in a non-vectoring group in the OSD system to cause synchronization symbols from the central office sending units or the far-end sending units in the non-vectoring group and the synchronization symbols from the central office sending units or far-end sending units in the vectoring group to be staggered. 4. The method according to claim 1 , wherein after separately synchronizing the upstream synchronization symbol of the uplink of each pair of communications lines with the downstream synchronization symbol of the downlink of each pair of communications lines, the method further comprises: allocating pilot sequences to the K pairs of communications lines, wherein pilot sequences allocated to each pair of communications lines are unrelated to pilot sequences allocated to the other K−1 pairs of communications lines, and wherein an upstream pilot sequence allocated to the uplink in each pair of communications lines is unrelated to a downstream pilot sequence allocated to the downlink in each pair of communications lines; controlling a downstream transmitter to send downstream pilot sequences using the downstream synchronization symbols of the downlinks of all of the communications lines; controlling an upstream transmitter to send upstream pilot sequences using the upstream synchronization symbols of the uplinks in all of the communications lines; acquiring a downstream feedback error and an upstream feedback error of the downstream pilot sequence in each pair of communications lines; and estimating a crosstalk channel for the OSD system according to the upstream feedback error and the downstream feedback error. 5. The method according to claim 4 , wherein before allocating the pilot sequences to the K pairs of communications lines, the method further comprises: generating 2K orthogonal pilot sequences; allocating K of the 2K pilot sequences to K downlinks; allocating the remaining K pilot sequences to K uplinks; and sending, to customer premises equipment using an operation channel, the K pilot sequences allocated to the K uplinks and locations of synchronization symbols for synchronously sending the pilot sequences. 6. The method according to claim 1 , wherein the upstream synchronization symbols and the downstream synchronization symbols are synchronization symbols, and wherein separately synchronizing the upstream synchronization symbol of the uplink of each pair of communications lines with the downstream synchronization symbol of the downlink of each pair of communications lines comprises instructing a customer premises equipment side to align the upstream synchronization symbol of the uplink with the downstream synchronization symbol of the downlink in each pair of communications lines. 7. The method according to claim 1 , wherein the upstream synchronization symbols and the downstream synchronization symbols are synchronization symbols, and wherein separately synchronizing the upstream synchronization symbol of the uplink of each pair of communications lines with the downstream synchronization symbol of the downlink of each pair of communications lines comprises: instructing customer premises equipment to align the upstream synchronization symbols of the uplinks in all of the communications lines; and sending a symbol quantity offset between the upstream synchronization symbols and the downstream synchronization symbols in all of the communications lines to the customer premises equipment. 8. The method according to claim 1 , wherein the upstream synchronization symbols and the downstream synchronization symbols are data symbols, and wherein separately synchronizing the upstream synchronization symbol of the uplink of each pair of communications lines with the downstream synchronization symbol of the downlink of each pair of communications lines comprises aligning the data symbols with synchronization symbols of a vectoring line. 9. A vectoring control entity applied to an overlapped spectrum duplex (OSD) system having uplinks, downlinks, and K pairs of communications lines, wherein each pair of communications lines comprises an uplink and a downlink, and wherein the vectoring control entity comprises: a memory; and a processor coupled to the memory and configured to: synchronize downstream synchronization symbols of downlinks in all of the pairs of communications lines at least in part by configuring all central office sending units in a vectoring group to cause downstream synchronization symbols from the central office sending units to be at a same location, wherein each of the central office sending units corresponds to a respective one of the downlinks in the OSD system; and separately synchronize an upstream synchronization symbol of an uplink of each pair of communications lines with a downstream synchronization symbol of a downlink of each pair of communications lines at least in part by configuring all far-end sending units in the vectoring group to cause upstream synchronization symbols from all of the far-end sending units and the downstream synchronization symbols from all of the central office sending units to be at the same location, wherein each of the far-end sending units corresponds to a respective one of the uplinks in the OSD system. 10. The vectoring control entity according to claim 9 , wherein the processor is configured to control each central office sending unit to send a synchronization request to a corresponding far-end sending unit, and wherein the synchronization request comprises a downstream synchronization symbol count. 11. The vectoring control entity according to claim 9 , wherein the processor is further configured to configure all central office sending units or far-end sending units in a non-vectoring group of the OSD system to cause synchronization symbols from the central office sending units or the far-end sending units in the non-vectoring group and locations of the synchronization symbols from the central office sending units or far-end sen