Method and device for predicting and determining failure

The invention claimed is: 1. A device for predicting and determining a failure, wherein the device is provided to a node of a communication network, the device comprising: a signal monitor for monitoring signal quality of each of links connected to the node; a signal quality prediction section for predicting future signal quality of a link by using given forecast information and information on the signal quality monitored with respect to the link; and a determination section for determining to bypass the link or to lower a symbol rate of the link, depending on a degree of a deterioration of the predicted signal quality with respect to the link; an accumulation section for accumulating signal quality information concerning failures occurring in each of the links in a past, wherein the determination section calculates a differential between the predicted signal quality information and a piece of the accumulated signal quality information that is closest to the predicted signal quality information among the accumulated signal quality information, and depending on a size of the differential, determines to bypass the link or to lower the symbol rate. 2. The device according to claim 1 , wherein the determination section determines to bypass the link when the size of the differential is not larger than a first threshold value, and determines to lower the symbol rate of a signal transmitting the link when the size of the differential is larger than the first threshold value and is not larger than a second threshold value. 3. The device according to claim 1 , wherein the determination section determines to bypass the link when the signal quality prediction section predicts that the signal quality will deteriorate to a predetermined amount. 4. The device according to claim 3 , wherein the determination section determines to lower the symbol rate of the link when the signal quality prediction section predicts that the signal quality will deteriorate less than the predetermined amount. 5. The device according to claim 1 , further comprising: an accumulation section for accumulating signal quality information concerning failures occurring in each of the links in a past, wherein the determination section calculates a differential between the predicted signal quality information and a piece of the accumulated signal quality information that is closest to the predicted signal quality information among the accumulated signal quality information, and determines to bypass the link when a size of the differential is not larger than a threshold value. 6. The device according to claim 1 , further comprising: an accumulation section for accumulating signal quality information concerning failures occurring in each of the links in a past, wherein the determination section calculates a differential between the predicted signal quality information and a piece of the accumulated signal quality information that is closest to the predicted signal quality information among the accumulated signal quality information, and determines to lower the symbol rate of a signal transmitting the link when a size of the differential is larger than a first threshold value and is not larger than a second threshold value. 7. A method for predicting and determining a failure in a node of a communication network, the method comprising: monitoring signal quality of each of links connected to the node; predicting future signal quality of a link by using given forecast information and information on the signal quality monitored with respect to the link; and determining to bypass the link or to lower symbol rate of the link, depending on a degree of deterioration of the predicted signal quality with respect to the link; accumulating signal quality information concerning failures occurring in each of the links in a past; calculating a differential between the predicted signal quality information and a piece of the accumulated signal quality information that is closest to the predicted signal quality information among the accumulated signal quality information, wherein to bypass the link or to lower the symbol rate is determined depending on a size of the differential. 8. The method according to claim 7 , wherein to bypass the link is determined when the size of the differential is not larger than a first threshold value, and to lower the symbol rate of a signal transmitting the link is determined when the size of the differential is larger than the first threshold value and is not larger than a second threshold value. 9. The method according to claim 7 , wherein said determining to bypass the link or to lower the symbol rate of the link includes bypassing the link when said predicting the future signal quality of the link predicts that the signal quality will deteriorate to a predetermined amount. 10. The method according to claim 9 , wherein said determining to bypass the link or to lower the symbol rate of the link includes lowering the symbol rate of the link when said predicting the future signal quality of the link predicts that the signal quality will deteriorate less than the predetermined amount. 11. The method according to claim 7 , further comprising: accumulating signal quality information concerning failures occurring in each of the links in a past; calculating a differential between the predicted signal quality information and a piece of the accumulated signal quality information that is closest to the predicted signal quality information among the accumulated signal quality information, wherein to bypass the link is determined when a size of the differential is not larger than a threshold value. 12. The method according to claim 7 , further comprising: accumulating signal quality information concerning failures occurring in each of the links in a past; calculating a differential between the predicted signal quality information and a piece of the accumulated signal quality information that is closest to the predicted signal quality information among the accumulated signal quality information, wherein to lower the symbol rate of a signal transmitting the link is determined when a size of the differential is larger than a first threshold value and is not larger than a second threshold value. 13. A program, embedded in a non-transitory storage medium, causing a program-controlled processor provided to a node of a communication network to function as a device to perform a method for predicting and determining a failure, the method comprising: monitoring signal quality of each of links connected to the node; predicting future signal quality of a link by using given forecast information and information on the signal quality monitored with respect to the link; and determining to bypass the link or to lower symbol rate of the link, depending on a degree of deterioration of the predicted signal quality with respect to the link; accumulating signal quality information concerning failures occurring in each of the links in a past; calculating a differential between the predicted signal quality information and a piece of the accumulated signal quality information that is closest to the predicted signal quality information among the accumulated signal quality information, wherein to bypass the link or to lower the symbol rate is determined depending on a size of the differential. 14. The program according to claim 13 , wherein to bypass the link is determined when the size of the differential is not larger than a first threshold value, and to lower the symbol rate of a signal transmitting the link is determined when the size of the differential is larger than the firs