Real-time non-linear optical strain gauge system

What is claimed is: 1. A system for measuring strain between two fixed points, comprising: an optical fiber having a first end, a second end, and a central portion secured between the two fixed points; a first light source outputting a light signal having predetermined characteristics and a first frequency and coupled to the first end of the optical fiber; a second light source outputting a light signal having the same predetermined characteristics and a second frequency different from the first frequency and coupled to the first end of the optical fiber; a back scatter detector coupled to the first end of the optical fiber for receiving a return light signal from the optical fiber and for outputting a signal based thereon, the back scatter detector including an associated frequency control element having a frequency corresponding to a predetermined calculated response frequency based on the first frequency and the second frequency, the predetermined calculated response frequency different from the first frequency and the second frequency; a forward scatter detector coupled to the second end of the optical fiber for receiving a forward light signal from the optical fiber and for outputting a signal based thereon, the forward scatter detector including an associated frequency control element having a frequency corresponding to the predetermined calculated response frequency; a processor coupled to receive the signals from the back scatter detector and the forward scatter detector, the processor generating an output signal proportional to the strain between the two fixed points based on a magnitude of the signals from the back scatter detector and the forward scatter detector at the predetermined calculated response frequency; and wherein the output signal at the predetermined calculated response frequency is produced based on second order effects applied to the light signal at the first frequency and to the light signal at the second frequency. 2. The system of claim 1 , wherein the first light source, the second light source and the back scatter detector are coupled to the optical fiber via a 3:1 coupler. 3. The system of claim 1 , wherein the central portion of the optical fiber includes Bragg gratings that reflect light at a frequency corresponding to the predetermined calculated response frequency. 4. The system of claim 1 , wherein the first light source includes an intensity control element having a predetermined intensity, a polarization control element having a predetermined polarization and a frequency control element having a frequency corresponding to the first frequency. 5. The system of claim 1 , wherein the second light source includes an intensity control element having a predetermined intensity, a polarization control element having a predetermined polarization and a frequency control element having a frequency corresponding to the second frequency. 6. A system for measuring strain between two fixed points, comprising: an optical fiber having a first end, a second end, and a central portion secured between the two fixed points; a first light source outputting a light signal having predetermined characteristics and a first frequency and coupled to the first end of the optical fiber; a second light source outputting a light signal having the same predetermined characteristics and a second frequency different from the first frequency and coupled to the first end of the optical fiber; a back scatter detector coupled to the first end of the optical fiber for receiving a return light signal from the optical fiber and for outputting a signal based thereon, the back scatter detector including an associated frequency control element having a frequency corresponding to a predetermined calculated response frequency based on the first frequency and the second frequency, the predetermined calculated response frequency different from the first frequency and the second frequency; a processor coupled to receive the signal from the back scatter detector, the processor generating an output signal proportional to the strain between the two fixed points based on a magnitude of the signal from the back scatter detector at the predetermined calculated response frequency; and wherein the output signal at the predetermined calculated response frequency is produced based on second order effects applied to the light signal at the first frequency and to the light signal at the second frequency. 7. The system of claim 6 , wherein the first light source, the second light source and the back scatter detector are coupled to the optical fiber via a 3:1 coupler. 8. The system of claim 6 , wherein the central portion of the optical fiber includes Bragg gratings that reflect light at a frequency corresponding to the predetermined calculated response. 9. The system of claim 6 , wherein the first light source includes an intensity control element having a predetermined intensity, a polarization control element having a predetermined polarization and a frequency control element having a frequency corresponding to the first frequency. 10. The system of claim 6 , wherein the second light source includes an intensity control element having a predetermined intensity, a polarization control element having a predetermined polarization and a frequency control element having a frequency corresponding to the second frequency. 11. The system of claim 6 , wherein the first light source includes an intensity control element having a first predetermined intensity, a polarization control element having a first predetermined polarization and a frequency control element having a frequency corresponding to the first frequency; wherein the second light source includes an intensity control element having a second predetermined intensity, a polarization control element having a second predetermined polarization and a frequency control element having a frequency corresponding to the second frequency; wherein the first predetermined intensity is the same as the second predetermined intensity; and wherein the first predetermined polarization is the same as the second predetermined polarization. 12. A system for measuring strain between two fixed points, comprising: an optical fiber having a first end, a second end, and a central portion secured between the two fixed points; a first light source outputting a light signal having predetermined characteristics and a first frequency and coupled to the first end of the optical fiber; a second light source outputting a light signal having the same predetermined characteristics and a second frequency different from the first frequency and coupled to the first end of the optical fiber; a forward scatter detector coupled to the second end of the optical fiber for receiving a forward light signal from the optical fiber and for outputting a signal based thereon, the forward scatter detector including an associated frequency control element having a frequency corresponding to a predetermined calculated response frequency based on the first frequency and the second frequency, the predetermined calculated response frequency different from the first frequency and the second frequency; a processor coupled to receive the signal from the forward scatter detector, the processor generating an output signal proportional to the strain between the two fixed points based on a magnitude of the signal from the forward scatter detector at the predetermined calculated response frequency; and wherein the output signal at the predetermined calculated response frequency is produced based on second order effects applied to the light signal at the first frequency and to the light signal at the second