Detecting a moveable device position using fiber optic sensors

What is claimed is: 1. A method for detecting a position of a downhole moveable device, the method comprising: emitting electric or magnetic fields into a wellbore which interact with a moveable device to produce secondary electric or magnetic fields; using a fiber optic sensor, detecting the secondary electric or magnetic fields and thereby generating response signals; determining an operational position of the moveable device using the response signals; and wherein: the magnetic fields are emitted using a transmitter coil or magnet positioned adjacent to the moveable device; and detecting the secondary magnetic fields comprises: receiving the secondary magnetic fields using a receiver coil positioned adjacent to the moveable device, thereby generating a corresponding voltage potential in the receiver; using the voltage potential, deforming a transducer coupled to the receiver coil and an optical fiber; and using the deformation, inducing strain in the optical fiber to thereby generate the response signals. 2. A method as defined in claim 1 , wherein determining the operational position comprises: using the response signals to generate a response log of the moveable device at one or more operational positions; comparing the response log with a baseline log of the moveable device; and determining the operational position of the moveable device based upon the comparison. 3. A method as defined in claim 2 , wherein the baseline log is generated at a surface location or within the wellbore. 4. A method as defined in claim 2 , wherein: the baseline log is generated before the moveable device is actuated; and the response log is generated after the moveable device is actuated. 5. A method as defined in claim 2 , wherein comparing the response log with the baseline log comprises using a pattern recognition technique to perform the comparison. 6. A method as defined in claim 2 , wherein comparing the response log with the baseline log comprises using an inversion technique to perform the comparison. 7. A method as defined in claim 2 , further comprising aligning the response log and baseline log with respect to true depth. 8. A method as defined in claim 1 , wherein the moveable device is a sliding sleeve that forms part of a sliding sleeve assembly. 9. A method as defined in claim 1 , wherein determining the operational position comprises: using the response signals to generate a response log of the moveable device; comparing the response log to a baseline log library, the baseline log library containing logs having response signals of the moveable device at a plurality of operational positions; and determining the operational position of the moveable device based upon the comparison. 10. A method as defined in claim 1 , wherein determining the operational position comprises azimuthally determining the operational position of a plurality of moveable devices. 11. A method as defined in claim 10 , wherein multiple azimuthally distributed fiber optic sensors are utilized to determine the operational position of the moveable devices. 12. A method as defined in claim 1 , wherein: the moveable device is positioned along a tubular workstring; and the fiber optic sensor is positioned outside the tubular workstring. 13. A method for detecting a position of a downhole moveable device, the method comprising: emitting electric or magnetic fields into a wellbore which interact with a moveable device to produce secondary electric or magnetic fields; using a fiber optic sensor, detecting the secondary electric or magnetic fields and thereby generating response signals; determining an operational position of the moveable device using the response signals; and wherein: the magnetic fields are emitted using a transmitter coil or magnet positioned adjacent to the moveable device; and detecting the secondary magnetic fields comprises: receiving the secondary magnetic fields using a magnetostrictive element positioned adjacent to the moveable device, thereby deforming the magnetostrictive element; and using the deformation, inducing strain in an optical fiber coupled to the magnetostrictive element to thereby generate the response signals. 14. A method as defined in claim 13 , wherein determining the operational position comprises: using the response signals to generate a response log of the moveable device at one or more operational positions; comparing the response log with a baseline log of the moveable device; and determining the operational position of the moveable device based upon the comparison. 15. A method as defined in claim 13 , wherein: the moveable device is positioned along a tubular workstring; and the fiber optic sensor is positioned outside the tubular workstring. 16. A method for detecting a position of a downhole moveable device, the method comprising: emitting electric or magnetic fields into a wellbore which interact with a moveable device to produce secondary electric or magnetic fields; using a fiber optic sensor, detecting the secondary electric or magnetic fields and thereby generating response signals; determining an operational position of the moveable device using the response signals; and wherein: the electric fields are emitted using a transmitter toroid or electrode positioned adjacent to the moveable device; and detecting the secondary electric fields comprises: receiving the secondary electric fields using a receiver toroid or a pair of electrodes positioned adjacent to the moveable device, thereby generating a corresponding voltage potential in the receiver toroid or pair of electrodes; using the voltage potential, deforming a transducer coupled to the receiver toroid or pair of electrodes and an optical fiber; and using the deformation, inducing strain in the optical fiber to thereby generate the response signals. 17. A method as defined in claim 16 , wherein determining the operational position comprises: using the response signals to generate a response log of the moveable device at one or more operational positions; comparing the response log with a baseline log of the moveable device; and determining the operational position of the moveable device based upon the comparison. 18. A method as defined in claim 16 , wherein: the moveable device is positioned along a tubular workstring; and the fiber optic sensor is positioned outside the tubular workstring. 19. A method for detecting a position of a downhole moveable device, the method comprising: emitting electric or magnetic fields into a wellbore which interact with a moveable device to produce secondary electric or magnetic fields, wherein the secondary electric or magnetic fields are induced in the moveable device by the emitted electric or magnetic fields; using a fiber optic sensor, detecting the secondary electric or magnetic fields and thereby generating response signals; determining an operational position of the moveable device using the response signals; and wherein: the electric fields are emitted using a transmitter toroid positioned adjacent to the moveable device; and detecting the secondary electric fields comprises: receiving the secondary electric fields using an electrostrictive element positioned adjacent to the moveable device, thereby deforming the electrostrictive element; and using the deformation, inducing strain in an optical fiber coupled to the electrostrictive element to thereby generate the response signals. 20. A method as define