Distributed fiber optic sensing system

What is claimed is: 1. A vehicle sensing system comprising: an optic fiber disposed adjacent to a vehicle panel of a vehicle body; a transmitter/receiver disposed at an originating end of the optic fiber, the transmitter/receiver configured to emit a beam through the optic fiber at a defined originating frequency and receive a reflection of the beam through the optic fiber; a reflector disposed at a terminal end of the optic fiber configured to receive the beam emitted by the transmitter/receiver through the optic fiber and reflect back the reflection of the beam through the optic fiber to the transmitter/receiver; and a controller in communication with the transmitter/receiver, the controller configured to: determine a difference between the originating frequency of the beam emitted from the transmitter/receiver and a reflected frequency of the reflection of the beam reflected back from the reflector to the transmitter/receiver, and identify a position of a distortion in the vehicle panel based on the difference between the originating frequency of the beam emitted from the transmitter/receiver and the reflected frequency of the reflection of the beam reflected back from the reflector to the transmitter/receiver. 2. The vehicle sensing system as recited in claim 1 , wherein the controller is configured to receiver from the transmitter/receiver information relating to the difference between the originating frequency of the beam emitted from the transmitter/receiver and a reflected frequency of the reflection of the beam reflected back from the reflector to the transmitter/receiver. 3. The vehicle sensing system as recited in claim 1 , wherein the controller is configured to determine a change in temperature of the vehicle panel based on the difference between the originating frequency of the beam emitted from the transmitter/receiver and the reflected frequency of the reflection of the beam reflected back from the reflector to the transmitter/receiver. 4. The vehicle sensing system as recited in claim 1 , wherein the controller is configured to identify the position of the distortion in the vehicle panel by determining a distance from the transmitter/receiver within optic fiber of the distortion in the optic fiber based on the difference between the originating frequency of the beam emitted from the transmitter/receiver and the reflected frequency of the reflection of the beam reflected back from the reflector to the transmitter/receiver. 5. The vehicle sensing system as recited in claim 1 , wherein the transmitter/receiver comprises a coherent optical frequency domain reflectometry. 6. The vehicle sensing system as recited in claim 5 , wherein the optic fiber includes a sensing fiber arm adjacent to the vehicle panel of the vehicle body and a reference fiber arm disposed on the vehicle such that physical changes to the vehicle panel do not alter shape or length of the reference fiber arm. 7. The vehicle sensing system as recited in claim 6 , wherein the originating frequency of the beam emitted from the transmitter/receiver is provided in the reference fiber arm. 8. A method of identifying a distortion of a vehicle panel, the method comprising: emitting a beam of an originating frequency through an optic fiber disposed adjacent to the vehicle panel; detecting a difference between the originating frequency of the beam and a reflected frequency of a reflection of the beam received through the optic fiber; and identifying a position of a distortion in the vehicle panel based on the difference between the originating frequency of the beam and the reflected frequency of the reflection of the beam received through the optic fiber. 9. The method as recited in claim 8 , further comprising determining a change in temperature of the vehicle panel based on the difference between the originating frequency of the beam and the reflected frequency of the reflection of the beam through the optic fiber. 10. The method as recited in claim 8 , wherein identifying the position of the distortion in the vehicle panel comprises determining a distance from a transmitter/receiver that emits the beam within optic fiber of the distortion in the optic fiber based on the difference between the originating frequency of the beam emitted from the transmitter/receiver and the reflected frequency of the reflection of the beam reflected back from a reflector to the transmitter/receiver.