System and method for monitoring coupler fatigue

What is claimed is: 1. A method comprising: obtaining input from at least one of a first input/output device, communication device, or a computer readable storage medium; processing the input in a controller to determine an upcoming fatigue metric representative of fatigue experienced a coupler during use of the coupler to connect plural vehicles in a vehicle system, wherein the controller uses the upcoming fatigue metric to determine a failure metric of the coupler; wherein the controller determines a designated failure threshold based on one or more of a type of one or more of the vehicles in the vehicle system, a location of a route over which an upcoming trip extends, or a priority of the vehicle system during the upcoming trip relative to one or more other vehicle systems; and wherein the controller determines whether the failure metric of the coupler during an upcoming trip exceeds the designated failure threshold; and responsive to a determination in the controller that the failure metric exceeds the designated failure threshold, at least one action is performed, wherein the action comprises: providing notification of the upcoming fatigue metric, displaying at least one of the upcoming fatigue metric, or the failure metric on at least one of the first input/output device or a second input/output device, changing a driving plan for controlling movement of the vehicle system during the upcoming trip, or changing a characteristic of the vehicle system. 2. The method of claim 1 , further comprising obtaining an accumulated fatigue metric of the coupler that estimates previously experienced fatigue of the coupler during one or more previous trips. 3. The method of claim 2 , wherein the accumulated fatigue metric estimates one or more of: an age of the coupler, a number of force cycles previously experienced by the coupler, wherein the force cycles represent changes in a force previously exerted on the coupler, a magnitude of one or more of the force cycles previously experienced by the coupler, a distance previously traveled by the coupler, one or more characteristics of terrain over which the coupler previously traveled, one or more characteristics of one or more other vehicle systems in which the coupler previously traveled, or an in-vehicle system position of the coupler in the one or more other vehicle systems in which the coupler previously traveled. 4. The method of claim 2 , further comprising determining an updated accumulated fatigue metric of the coupler by incorporating the upcoming fatigue metric into the accumulated fatigue metric. 5. The method of claim 1 , wherein the upcoming fatigue metric is based on one or more of: a number of force cycles to be experienced by the coupler during the upcoming trip, wherein the force cycles represent changes in a force that are to be exerted on the coupler during the upcoming trip, a magnitude of one or more of the force cycles to be experienced by the coupler during the upcoming trip, a distance to be traveled by the coupler during the upcoming trip, one or more characteristics of terrain over which the coupler will travel during the upcoming trip, one or more characteristics of the vehicle system in which the coupler will travel during the upcoming trip, a historical trend of upcoming fatigue metrics for one or more other couplers, or an in-vehicle system position of the coupler in the vehicle system in which the coupler will travel during the upcoming trip. 6. The method of claim 1 , wherein the driving plan designates one or more operational settings of the vehicle system based on one or more of time or distance of the upcoming trip, and wherein changing the one or more of the driving plan or the characteristic of the vehicle system includes changing the one or more operational settings of the vehicle system to reduce one or more of the upcoming fatigue metric or the failure metric. 7. The method of claim 1 , wherein changing the one or more of the driving plan or the characteristic of the vehicle system includes removing at least one of the vehicles that is to be connected with the coupler during the upcoming trip from the vehicle system so that the at least one of the vehicles is not included in the vehicle system for the upcoming trip. 8. The method of claim 1 , wherein changing the one or more of the driving plan or the characteristic of the vehicle system includes implementing restrictions on manual changes to one or more operational settings of the vehicle system. 9. A system comprising: a controller; a first input/output device configured to provide input to the controller; a computer readable storage medium configured to provide at least one of input to or output from the controller; optionally, a communication device configured to provide at least one of input to or output from the controller; and optionally, a second input/output device configured to display output from the controller; wherein the controller is configured to process input from at least one of the input/output device, the communication device, or the computer readable storage medium to determine an upcoming fatigue metric of a coupler during use of the coupler to connect plural vehicles in a vehicle system; wherein the controller is configured to determine a designated failure threshold based on one or more of a type of one or more of the vehicles in the vehicle system, a location of a route over which an upcoming trip extends, or a priority of the vehicle system during the upcoming trip relative to one or more other vehicle systems; wherein the controller is configured to determine whether a failure metric of the coupler during the upcoming trip exceeds the designated failure threshold, wherein the failure metric is based on the upcoming fatigue metric, wherein the controller is configured to determine the failure metric exceeds the designated failure threshold and wherein the controller is configured to perform at least one action wherein the action comprises: providing notification of the upcoming fatigue metric, displaying at least one of the upcoming fatigue metric or the failure metric on at least one of the first input/output device or the second input/output device, changing a driving plan for controlling movement of the vehicle system during the upcoming trip, or changing a characteristic of the vehicle system. 10. The system of claim 9 , wherein the controller also is configured to obtain an accumulated fatigue metric of the coupler that estimates previously experienced fatigue of the coupler. 11. The system of claim 10 , wherein the accumulated fatigue metric represents one or more of: an age of the coupler, a number of force cycles previously experienced by the coupler, wherein the force cycles represent changes in a force previously exerted on the coupler, a magnitude of one or more of the force cycles previously experienced by the coupler, a distance previously traveled by the coupler, one or more characteristics of terrain over which the coupler previously traveled, one or more characteristics of one or more other vehicle systems in which the coupler previously traveled, or an in-vehicle system position of the coupler in the one or more other vehicle systems in which the coupler previously traveled. 12. The system of claim 10 , wherein the controller is configured to determine an updated accumulated fatigue metric of the coupler by incorporating the upcoming fatigue metric to the accumulated fatigue metric. 13. The system of claim 9 , wherein the controller is configured to determine the upcoming fatigue metric as an estimate of one or more of: