Optical network system

The invention claimed is: 1. An optical network system including an upper network equipment, a lower network equipment, and first and second transfer network equipments connecting the upper network equipment and the lower network equipment through independent optical links, wherein the first transfer network equipment includes: an upper link optical interface device for transmitting and receiving an optical signal to and from the upper network equipment; and a lower link optical interface device for transmitting and receiving an optical signal to and from the lower network equipment, wherein the lower network equipment includes: a network duplication-dedicated optical interface device for transmitting and receiving an optical signal to and from the first and second transfer network equipments, wherein the upper link optical interface device includes at least one processor and at least one memory to implement: an upper link monitoring unit configured to detect at least one of an upper link failure and a transfer network equipment failure based on a reception signal received from the upper network equipment, the upper link failure including a failure related to an optical interface device of the upper network equipment and a failure related to an optical link between the optical interface device of the upper network equipment and the upper link optical interface device, and the transfer network equipment failure including a failure related to a MAC address error generated at the first transfer network equipment; and a control unit configured to generate a report signal based on a detection result of the upper link monitoring unit, and wherein the network duplication-dedicated optical interface device includes at least one processor and at least one memory to implement: a line control unit configured to switch an optical signal transmission/reception path with respect to the upper network equipment from the first transfer network equipment to the second transfer network equipment in response to the report signal received from the first transfer network equipment. 2. The optical network system of claim 1 , wherein the network duplication-dedicated optical interface device further includes a first optical transceiver for transmitting and receiving an optical signal to and from the first transfer network equipment, and a second optical transceiver for transmitting and receiving an optical signal to and from the second transfer network equipment. 3. The optical network system of claim 1 , wherein the upper link monitoring unit detects the upper link failure based on at least one of a degree physical optical loss of the reception signal and whether a synchronization signal for maintaining synchronization between the upper network equipment, the first and second transfer network equipment, and the lower network equipment is received. 4. The optical network system of claim 1 , wherein, when the transfer network equipment failure is detected by the upper link monitoring unit, the control unit stops transmission and reception of an optical signal to and from the upper network equipment through the upper link optical interface device. 5. The optical network system of claim 1 , wherein the upper link monitoring unit detects the transfer network equipment failure based on whether a source is identical to a destination in a MAC address of the reception signal. 6. The optical network system of claim 1 , wherein, when the transfer network equipment failure is detected by the upper link monitoring unit, the control unit transmits the report signal to the upper network equipment through an optical transmitter of the upper link optical interface device. 7. The optical network system of claim 1 , wherein the network duplication-dedicated optical interface device further includes a lower link monitoring unit configured to detect a lower link failure based on the reception signal received from the upper network equipment through the first transfer network equipment, the lower link failure including a failure related to the lower link optical interface device and a failure related to an optical link between the lower link optical interface device and the network duplication-dedicated optical interface device, and wherein, when the lower link failure is detected by the lower link monitoring unit, the line control unit switches the optical signal transmission/reception path with respect to the upper network equipment from the first transfer network equipment to the second transfer network equipment. 8. The optical network system of claim 7 , wherein the lower link monitoring unit detects the lower link failure based on at least one of a degree of physical optical loss of the reception signal and whether a synchronization signal for maintaining synchronization between the upper network equipment, the first and second transfer network equipment, and the lower network equipment is received. 9. The optical network system of claim 8 , wherein the synchronization signal is a network timing packet (NTP) or a K28.5 code. 10. The optical network system of claim 7 , wherein the lower link monitoring unit further detects the transfer network equipment failure based on whether a source is identical to a destination in a MAC address of the reception signal, and wherein, when the transfer network equipment failure is detected by the lower link monitoring unit, the line control unit switches the optical signal transmission/reception path with respect to the upper network equipment from the first transfer equipment to the second transfer network equipment. 11. An optical interface device mounted on a transfer network equipment for connecting an upper network equipment and a lower network equipment through optical links, comprising at least one processor and at least one memory to implement: an upper link monitoring unit configured to detect at least one of an upper link failure and a transfer network equipment failure based on a reception signal received from the upper network equipment, the upper link failure including a failure related to an upper optical interface device of the upper network equipment and a failure related to an optical link between the upper optical interface device and the optical interface device, and the transfer network equipment failure including a failure related to a MAC address error generated at the transfer network equipment; and a control unit configured to generate a report signal based on a detection result of the upper link monitoring unit, wherein the report signal is transmitted to the lower network equipment so that the lower network equipment switches an optical signal transmission/reception path with respect to the upper network equipment from the transfer network equipment to another transfer network equipment in response to the report signal. 12. The optical interface device of claim 11 , wherein the upper link monitoring unit detects the upper link failure based on at least one of a degree of physical optical loss of the reception signal and whether a synchronization signal for maintaining synchronization between the upper network equipment, the transfer network equipment, and the lower network equipment is received. 13. The optical interface device of claim 12 , wherein the synchronization signal is a network timing packet (NTP) or a K28.5 code. 14. The optical interface device of claim 11 , wherein, when the transfer network equipment failure is detected by the upper link monitoring unit, the control unit stops transmission and reception of an optical signal to and from the upper network equipment. 1