Control valve monitoring system

What is claimed is: 1. A control valve monitoring system comprising: at least one sensor connected to one of a valve stem or valve shaft, the sensor for detecting a change in mechanical integrity of one of the valve stem or valve shaft; and a device for providing data regarding the change in mechanical integrity of one of the valve stem or valve shaft; wherein the at least one sensor is one of a piezoelectric wave active sensor or a piezoceramic (PZT) sensor and wherein one of the piezoelectric wave active sensor or PZT sensor is attached to an outer surface of the valve shaft or valve stem between an end of the shaft connected to a control element and another end of the shaft opposite the control element, one of the piezoelectric wave active sensor or the PZT sensor to detect one or more of a crack or an onset of a crack in one of the valve shaft or the valve stem, wherein the at least one sensor is attached to the valve stem or valve shaft by one of a bonding agent or a soldering agent. 2. The control valve monitoring system of claim 1 , wherein the at least one sensor is one of an acoustic emission sensor or an active ultrasonic sensor. 3. The control valve monitoring system of claim 2 , wherein the at least one sensor is the acoustic emission sensor and the acoustic emission sensor detects cracking in one of the valve shaft or valve stem through a change in acoustic signature. 4. The control valve monitoring system of claim 1 , wherein the at least one sensor is wireless. 5. The control valve monitoring system of claim 1 , further including memory and a power source for constant data gathering and reporting of faults in the valve shaft or valve stem. 6. A method of detecting a change in mechanical integrity of a valve shaft of a rotary-shaft control valve or a valve stem of a sliding-stem control valve, the method comprising: integrating at least one sensor into a valve shaft or a valve stem, wherein the at least one sensor is one of a piezoelectric wave active sensor or a piezoceramic (PZT) sensor; sensing fatigue in the valve shaft or valve stem; and detecting one or more of a crack or an onset of a crack in the valve shaft or the valve stem, wherein integrating at least one sensor into the valve shaft or valve stem comprises attaching, via one of a bonding agent or a soldering agent, the at least one piezoelectric wave active sensor or piezoceramic (PZT) sensor to an outer surface of the valve shaft or valve stem between an end of the valve shaft or the valve stem connected to a control element and another end of the valve shaft or the valve stem opposite the control element, allowing a change in mechanical integrity of one of the valve shaft or the valve stem to be detected. 7. The method of claim 6 , wherein sensing fatigue in the valve shaft or valve stem further comprises one of detecting a change in acoustic signature between the sensor and at least one of the valve shaft or valve stem or detecting a change in ultrasonic Lamb waves between the sensor and the valve shaft or valve stem. 8. The method of claim 6 , wherein sensing fatigue in the valve shaft or valve stem comprises measuring strain on an area of the valve shaft or valve stem. 9. The method of claim 7 , wherein sensing fatigue is using the ultrasonic Lamb waves and detecting a change in ultrasonic Lamb waves comprises pinching the valve stem or valve shaft material and waiting to record resultant ultrasonic waves propagating through the valve stem or valve shaft. 10. The method of claim 6 , further comprising providing data regarding the change in mechanical integrity of the valve shaft or valve stem to one or more of a local digital valve positioner, a stand alone device for data collection and reduction, an asset management software package, or a control system. 11. The control valve monitoring system of claim 1 , the at least one piezoelectric wave active sensor or PZT sensor is wireless, and the at least one piezoelectric wave active sensor or PZT sensor is only attached to the valve stem or valve shaft by one of the bonding agent or the soldering agent. 12. The method of claim 1 , wherein attaching, via one of a bonding agent or a soldering agent, the at least one piezoelectric wave active sensor or PZT sensor to the outer surface of the valve shaft or the valve stem includes attaching the at least one piezoelectric wave active sensor or PZT sensor, the at least one piezoelectric wave active sensor or PZT sensor being wireless, to only the outer surface of the valve shaft or the valve stem between an end of the valve shaft or the valve stem connected to a control element and another end of the valve shaft or the valve stem opposite the control element.