Method and apparatus for receiving uplink signal in train communication network

What is claimed is: 1. A method for receiving an uplink signal by a terrestrial base station, comprising: receiving a preamble corresponding to an orthogonal pseudo-noise (PN) sequence of a plurality of orthogonal PN sequences from an onboard wireless device in a train, wherein the onboard wireless device is connected with the terrestrial base station through a wireless backhaul link; recognizing an identification (ID) of the onboard wireless device from the preamble, storing the recognized ID of the onboard wireless device, and allocating a temporary network ID and an uplink grant (UL grant) to the onboard wireless device; receiving the uplink signal transmitted based on the temporary network ID and the UL grant; obtaining an ID of the onboard wireless device from the uplink signal; and determining whether a random access of the onboard wireless device is for a network initial access, for a network re-access, or for a handover, by comparing the obtained ID with the recognized ID of the onboard wireless device stored in advance. 2. The method of claim 1 , further comprising: determining a frame configuration for transmission of the uplink signal based on the orthogonal PN sequence corresponding to the preamble. 3. The method of claim 2 , wherein the determining a frame configuration for transmission of the uplink signal based on the orthogonal PN sequence corresponding to the preamble comprises: determining an index of an orthogonal PN sequence group to which the orthogonal PN sequence corresponding to the preamble belongs as an index of the frame configuration. 4. The method of claim 1 , wherein the recognizing ID of the onboard base station wireless device from the preamble comprises recognizing an index of the orthogonal PN sequences as the ID of the onboard base station wireless device. 5. The method of claim 1 , wherein the recognizing ID of the onboard base station wireless device from the preamble comprises recognizing the ID of the onboard base station wireless device from a payload which is multiplexed with the preamble. 6. The method of claim 1 , wherein the determining whether a random access of the onboard wireless device is for a network initial access, for a network re-access, or for a handover by comparing the obtained ID with [a previous] the recognized ID of the onboard wireless device stored in advance comprises: determining that the random access is for the network re-access if the obtained ID is the same as the recognized ID. 7. The method of claim 1 , wherein the determining whether a random access of the onboard wireless device is for a network initial access, for a network re-access, or for a handover by comparing the obtained ID with the recognized ID of the onboard wireless device stored in advance comprises: requesting a downlink packet sequence number from a neighbor terrestrial base station if the obtained ID is different from the recognized ID. 8. The method of claim 7 , further comprising: after the requesting of a downlink packet sequence number from a neighbor terrestrial base station if the obtained ID is different from the recognized ID, determining that the random access is for the handover when the downlink packet sequence number is received from the neighbor terrestrial base station. 9. The method of claim 7 , further comprising: after the requesting of a downlink packet sequence number from a neighbor terrestrial base station if the obtained ID is different from the recognized ID, determining that the random access is for the network initial access when the downlink packet sequence number is not received from the neighbor terrestrial base station. 10. A terrestrial base station for receiving an uplink signal, comprising: a processor, a memory, and a radio frequency (RF) unit, wherein the processor executes a program stored in the memory to perform: receiving, by using the RF unit, a preamble corresponding to an orthogonal pseudo-noise (PN) sequence of a plurality of orthogonal PN sequences from an onboard wireless device in a train, wherein the onboard wireless device is connected with the terrestrial base station through a wireless backhaul link; recognizing an identification (ID) of the onboard wireless device from the preamble storing the recognized ID of the onboard wireless device, and allocating a temporary network ID and an uplink grant (UL grant) to the onboard wireless device; receiving, by using the RF unit, the uplink signal transmitted based on the temporary network ID and the UL grants; obtaining an ID of the onboard wireless device from the uplink signal; and determining whether a random access of the onboard wireless device is for a network initial access, for a network re-access, or for a handover, by comparing the obtained ID with the recognized ID of the onboard wireless device stored in advance. 11. The terrestrial base station of claim 10 , wherein the processor executes the program to further perform determining a frame configuration for transmission of the uplink signal based on the orthogonal PN sequence corresponding to the preamble. 12. The terrestrial base station of claim 11 , wherein when determining a frame configuration for transmission of the uplink signal based on the orthogonal PN sequence corresponding to the preamble, the processor performs: determining an index of an orthogonal PN sequence group to which the orthogonal PN sequence corresponding to the preamble belongs as an index of the frame configuration. 13. The terrestrial base station of claim 11 , wherein when recognizing ID of the onboard wireless device from the preamble, the processor performs recognizing an index of the orthogonal PN sequences as the ID of the onboard wireless device. 14. The terrestrial base station of claim 11 , wherein when recognizing ID of the onboard wireless device from the preamble, the processor performs recognizing the ID of the onboard wireless device from a payload which is multiplexed with the preamble. 15. The terrestrial base station of claim 10 , wherein: when determining whether a random access of the onboard wireless device is for a network initial access, for a network re-access, or for a handover by comparing the obtained ID with the recognized ID of the onboard wireless device stored in advance, the processor performs determining that the random access is for the network re-access if the obtained ID is same as the recognized ID. 16. The terrestrial base station of claim 10 , wherein: when determining whether a random access of the onboard wireless device is for a network initial access, for a network re-access, or for a handover by comparing the obtained ID with the recognized ID of the onboard wireless device stored in advance, the processor performs requesting a downlink packet sequence number from a neighbor terrestrial base station if the obtained ID is different from the recognized ID. 17. The terrestrial base station of claim 16 , wherein the processor executes the program to further perform: after the requesting a downlink packet sequence number from a neighbor terrestrial base station if the obtained ID is different from the recognized ID, determining that the random access is for the handover when the downlink packet sequence number is received from the neighbor terrestrial base station. 18. The terrestrial base station of claim 16 , wherein the processor executes the program to further perform: after the requesting a downlink packet sequence number from a neighbor terrestrial base station if the obtained ID is different from the recognized ID, determining that the rando