Optical communication system, master station, and optical communication method

The invention claimed is: 1. An optical communication system comprising: a plurality of slave station devices connected in parallel to a looped path; and a master station device connected to the looped path and configured to perform communication with each of the plurality of slave station devices, wherein: a communication path between the master station device and each of the slave station devices includes: a normal path extending in a first direction through the looped path from the master station device to the slave station device; and a backup path extending in a second direction opposite to the first direction through the looped path from the master station device to the slave station device, the master station device performs communication control processing that controls communication with each of the slave station devices based on round-trip propagation time (hereinafter referred to as round trip time (RTT)) between the master station device and the slave station device, normal path RTT is the RTT in a case of the communication through the normal path, backup path RTT is the RTT in a case of the communication through the backup path, a first slave station device is a slave station device with which the communication through the normal path has become impossible among the plurality of slave station devices, first normal path RTT is the normal path RTT between the master station device and the first slave station device, first backup path RTT is the backup path RTT between the master station device and the first slave station device, first partial RTT is the RTT between the master station device and the looped path, loop propagation time is propagation time necessary for one trip through the looped path, the master station device holds the normal path RTT, the first partial RTT, and the loop propagation time of each of the slave station devices, the master station device calculates the first backup path RTT based on the first normal path RTT, the first partial RTT, and the loop propagation time, the master station device performs the communication control processing for each of the slave station devices based on the normal path RTT when the first slave station device does not exist, and the master station device resumes the communication control processing for the first slave station device based on the calculated first backup path RTT without measuring the first backup path RTT when the first slave station device is sensed. 2. The optical communication system according to claim 1 , wherein: the first partial RTT, the loop propagation time, and the first normal path RTT are represented by T_trunk, T_loop, and Tj_normal, respectively, and the master station device calculates 2×(T_trunk+T_loop)−Tj_normal as the first backup path RTT. 3. The optical communication system according to claim 1 , wherein: the master station device provides an identifier to each of the slave station devices and holds the identifier, each of the slave station devices holds the identifier provided by the master station device, the master station device performs the communication control processing for each of the slave station devices based on the identifier and the RTT, and the master station device and the first slave station device do not delete but continue holding the identifier of the first slave station device even when the first slave station device is sensed. 4. The optical communication system according to claim 1 , wherein: the master station device deactivates the backup path when the first slave station device does not exist, and the master station device activates the backup path when the first slave station device is sensed. 5. The optical communication system according to claim 1 , further comprising a propagation time measurement device configured to measure the loop propagation time by transmitting a measurement frame to the looped path and receiving the measurement frame having completed one trip through the looped path, wherein the master station device receives information of the loop propagation time from the propagation time measurement device and holds the loop propagation time. 6. The optical communication system according to claim 5 , further comprising a plurality of unit optical communication systems, wherein: each of the plurality of unit optical communication systems includes the master station device, the plurality of slave station devices, and the looped path, and the propagation time measurement device is provided in common to the looped path of each of the plurality of unit optical communication systems. 7. A master station device configured to perform communication with each of a plurality of slave station devices in an optical communication system, wherein: the plurality of slave station devices are connected in parallel to a looped path, a communication path between the master station device and each of the slave station devices includes: a normal path extending in a first direction through the looped path from the master station device to the slave station device; and a backup path extending in a second direction opposite to the first direction through the looped path from the master station device to the slave station device, the master station device performs communication control processing that controls communication with each of the slave station devices based on round-trip propagation time (hereinafter referred to as round trip time (RTT)) between the master station device and the slave station device, normal path RTT is the RTT in a case of the communication through the normal path, backup path RTT is the RTT in a case of the communication through the backup path, a first slave station device is a slave station device with which the communication through the normal path has become impossible among the plurality of slave station devices, first normal path RTT is the normal path RTT between the master station device and the first slave station device, first backup path RTT is the backup path RTT between the master station device and the first slave station device, first partial RTT is the RTT between the master station device and the looped path, loop propagation time is propagation time necessary for one trip through the looped path, the master station device holds the normal path RTT, the first partial RTT, and the loop propagation time of each of the slave station devices, the master station device calculates the first backup path RTT based on the first normal path RTT, the first partial RTT, and the loop propagation time, the master station device performs the communication control processing for each of the slave station devices based on the normal path RTT when the first slave station device does not exist, and the master station device resumes the communication control processing for the first slave station device based on the calculated first backup path RTT without measuring the first backup path RTT when the first slave station device is sensed. 8. An optical communication method of performing communication between a master station device and each of a plurality of slave station devices in an optical communication system, wherein: the plurality of slave station devices are connected in parallel to a looped path, a communication path between the master station device and each of the slave station devices includes: a normal path extending in a first direction through the looped path from the master station device to the slave station device; and a backup path extending in a second direction opposite to the first direction through the looped path from the master station device to the slave station device, communication control processing that controls communicat