Seal monitoring apparatus

What is claimed is: 1. A seal monitoring apparatus comprising: one or more pressure sensors mounted at a seal of a turbine to measure pressure on a first side of the seal; and a controller in communication with the one or more pressure sensors, the controller configured to: receive pressure data from the one or more pressure sensors; determine a condition of the seal based at least in part on the pressure data; and output a signal upon determining a change in the condition of the seal; wherein to determine the condition of the seal includes estimating a life expectancy of the seal based at least in part on the pressure data, and wherein to output the signal includes sending a message to service the seal when the life expectancy falls below a predetermined threshold; wherein estimating the life expectancy of the seal includes: identifying fatigue cycles of the seal based at least in part on a pressure amplitude of the pressure data exceeding a threshold; or updating a model of the seal based at least in part on an amplitude and/or frequency of the pressure data. 2. The seal monitoring apparatus of claim 1 wherein to determine the condition further includes determining the seal is in a failure condition, wherein to output the signal includes sending the signal to cause adjustment of an operation of the turbine when the condition is determined to be the failure condition. 3. The seal monitoring apparatus of claim 2 wherein the turbine is included in a turbine engine and wherein to cause adjustment of the operation of the turbine engine includes causing the turbine engine to be operated in a reduced performance mode. 4. The seal monitoring apparatus of claim 1 wherein to determine the condition of the seal further includes detecting a shift from a first pressure pattern to a second pressure pattern. 5. The seal monitoring apparatus of claim 4 wherein detecting the shift from the first pressure pattern to the second pressure pattern includes detecting a shift in one or more of an amplitude characteristic and a frequency of the pressure data. 6. The seal monitoring apparatus of claim 1 wherein the one or more pressure sensors includes a first pressure sensor mounted at the first side of the seal and a second pressure sensor mounted at a second side of the seal. 7. The seal monitoring apparatus of claim 1 wherein the turbine is included in a turbine engine, and the turbine engine includes a guide vane, wherein one or more wires of the one or more pressure sensors extend to the controller through a cavity of the guide vane. 8. A method of monitoring a seal comprising: receiving, at a processor, pressure data from a pressure sensor mounted at a seal of a turbine, the pressure sensor configured to measure pressure on a first side of the seal; determining a condition of the seal of the turbine based at least in part on the pressure data; and outputting a signal upon determining a change in the condition of the seal; wherein determining the condition of the seal includes estimating a life expectancy of the seal based at least in part on the pressure data, and wherein outputting the signal includes sending a message to service the seal when the life expectancy falls below a predetermined threshold; wherein estimating the life expectancy of the seal includes: identifying fatigue cycles of the seal based at least in part on the pressure data; or estimating the life expectancy of the seal includes updating a model of the seal based at least in part on an amplitude and/or frequency of the pressure data. 9. The method of claim 8 wherein determining the condition of the seal further includes determining the seal is in a failure condition, wherein outputting the signal includes causing adjustment of an operation of the turbine when the condition is determined to be the failure condition. 10. The method of claim 9 wherein the turbine is included in a turbine engine and wherein causing adjustment of the operation of the turbine engine includes causing the turbine engine to be operated in a reduced performance mode. 11. The method of claim 8 wherein determining the condition of the seal further includes detecting a shift from a first pressure pattern to a second pressure pattern. 12. The method of claim 11 wherein detecting the shift from the first pressure pattern to the second pressure pattern includes detecting a shift in one or more of an amplitude characteristic and a pressure frequency of the pressure data. 13. The method of claim 8 wherein identifying fatigue cycles includes identifying when a pressure amplitude of the pressure data exceeds a threshold. 14. The method of claim 8 wherein identifying fatigue cycles includes identifying when a pressure amplitude of one or more select frequencies exceeds a threshold.