System and method for sensing shape of elongated instrument

What is claimed is: 1. An instrument system, comprising: an elongate body; an optical fiber coupled to the elongate body and having a strain sensor provided on the optical fiber; a localization sensor positioned upon the elongate body; and a controller operatively coupled to the optical fiber and to the localization sensor and adapted to: receive a first signal from the strain sensor; receive a second signal from the localization sensor; and determine shape, position and orientation of the elongate body based on both the first signal from the strain sensor and the second signal from the localization sensor. 2. The instrument system of claim 1 , wherein the localization sensor comprises an electromagnetic sensor, a potential difference sensor, or an ultrasound sensor. 3. The instrument system of claim 1 , wherein the localization sensor comprises a radio-opaque marker adapted to interact with a fluoroscope. 4. The instrument system of claim 3 , wherein the controller is adapted to determine the position of the elongate body in two dimensions based on the second signal and is adapted to determine the position of the elongate body in a third dimension based on the first signal. 5. The instrument system of claim 1 , wherein the controller is adapted to determine the shape, position and orientation of the elongate body with respect to a coordinate system associated with both the strain sensor and the localization sensor. 6. The instrument system of claim 1 , wherein the controller is adapted to determine the shape, position and orientation of the elongate body with respect to a first coordinate system and determine the shape, position and orientation of the elongate body with respect to a second coordinate system, wherein the first coordinate system is associated with the strain sensor and the second coordinate system is associated with the localization sensor, and wherein the controller is adapted to spatially associate the first coordinate system with the second coordinate system. 7. The instrument system of claim 1 , wherein the controller is configured to determine the position of the elongate body, in a two-dimensional space, based on the second signal from the localization sensor. 8. The instrument system of claim 7 , wherein the position of the elongate body in the two-dimensional space includes X-Y dimensional positional data. 9. The instrument system of claim 1 , wherein the controller is configured to determine the position of the elongate body in a third dimension based on the first signal from the strain sensor. 10. The instrument system of claim 9 , wherein the position of the elongate body in the third dimension includes Z dimensional positional data. 11. The instrument system of claim 10 , wherein the Z dimensional positional data includes depth information. 12. The instrument system of claim 1 , wherein the controller is configured to determine the orientation and shape of the elongate body based on the first signal from the strain sensor. 13. The instrument system of claim 1 , wherein the localization sensor is an ultrasound sensor that is operatively associated with an ultrasound device. 14. A method for tracking position, comprising: receiving a first signal from an optical fiber coupled to an elongate body and having a strain sensor provided on the optical fiber; receiving a second signal from a localization sensor positioned upon the elongate body; and determining shape, position and orientation of the elongate body based on both the first signal from the strain sensor and the second signal from the localization sensor. 15. The method of claim 14 , wherein the localization sensor comprises an electromagnetic sensor, a potential difference sensor, or an ultrasound sensor. 16. The method of claim 15 , wherein the determining the shape, position and orientation of the elongate body comprises determining the shape, position and orientation with respect to a first coordinate system, determining the shape, position and orientation with respect to a second coordinate system, and spatially associating the first coordinate system with the second coordinate system, wherein the first coordinate system is associated with the strain sensor and the second coordinate system is associated with the localization sensor. 17. The method of claim 14 , wherein the localization sensor comprises a radio-opaque marker adapted to interact with a fluoroscope. 18. The method of claim 17 , wherein the determining the shape, position and orientation comprises determining a position of the elongate body in two dimensions based on the second signal and determining the position of the elongate body in a third dimension based on the first signal. 19. The method of claim 14 , wherein the determining the shape, position and orientation of the elongate body comprises determining the shape, position and orientation with respect to a coordinate system associated with both the strain sensor and the localization sensor.