Reducing measurement sensor error

What is claimed is: 1. A method of determining a position of an elongated member, comprising: providing a measurement sensor at a distal location on an elongated member; applying registration data by registering a plurality of points along a proximal region of the elongated member while the proximal region of the elongated member is disposed in an instrument structure, the instrument structure having a predetermined shape, the proximal region of the elongated member being at least partially constrained by the instrument structure and thereby following the predetermined shape of the instrument structure; determining a shape of the proximal region of the elongated member based on the registration data and based on information regarding the predetermined shape of the instrument structure, due to the elongated member being at least partially constrained by the instrument structure; and determining a position and orientation of the distal location on the elongated member, based on a combination of: (i) the determined shape of the proximal region of the elongated member, and (ii) data from the measurement sensor. 2. The method of claim 1 , further comprising establishing a first one of the plurality of points as including a proximal attachment of the elongated member, the proximal attachment generally fixing a portion of the elongated member at the first one of the points. 3. The method of claim 1 , wherein applying the registration data includes determining proximal positions of the plurality of points. 4. The method of claim 3 , further comprising determining the proximal positions of the plurality of points with electromagnetic sensors. 5. The method of claim 3 , further comprising determining the proximal positions of the plurality of points using a fluoroscopy image of the plurality of points. 6. The method of claim 1 , wherein applying the registration data plurality of points. 7. The method of claim 1 , further comprising: receiving a signal from the measurement sensor, the signal including proximal data associated with a proximal section of the elongated member and distal data associated with a distal section of the elongated member, the proximal section including the proximal region; and selectively filtering the proximal data of the signal. 8. The method of claim 7 , further comprising determining the position of the measurement sensor based at least upon the filtered proximal data of the signal, thereby reducing a fluctuation of the determined position of measurement sensor. 9. The method of claim 7 , further comprising filtering the distal data of the signal. 10. The method of claim 9 , further comprising establishing the filtering of the proximal data of the signal at a different rate than the filtering of the distal data of the signal. 11. The method of claim 7 , further comprising establishing the selective filtering as including averaging an incremental orientation change in the proximal data of the signal. 12. The method of claim 1 , further comprising establishing the elongated member as a fiber. 13. The method of claim 1 , wherein an insertion site of a patient laterally constrains the plurality of points. 14. A method of determining a position of an elongated member, comprising: providing a sensor at a distal position on an elongated member, the elongated member being located in an anatomical structure; receiving a signal from the sensor, the signal including proximal data associated with a proximal section of the elongated member and distal data associated with a distal section of the elongated member; selectively filtering the proximal data of the signal at a different rate than the distal data of the signal such that the proximal data of the signal is filtered at a higher rate than the distal data of the signal; applying registration data by registering a plurality of points along a proximal region of the elongated member; determining a shape of the proximal section of the elongated member based on the registration data and information regarding a known shape of a region of the anatomical structure in which the proximal section is positioned or a known position of the proximal section in the anatomical structure due to the elongated member being at least partially constrained by the anatomical structure; and determining a position of the sensor based at least upon the filtered signal and the determined shape, thereby reducing a fluctuation of the determined position of sensor. 15. The method of claim 14 , further comprising establishing the elongated member as a fiber. 16. The method of claim 13 , further comprising selectively filtering the proximal data of the signal without filtering the distal data of the signal. 17. A measurement system, comprising: a measurement sensor positioned at a distal location on an elongated member; and a processor configured to: apply registration data by registering a plurality of points along a proximal region of the elongated member while the proximal region of the elongated member is disposed in an instrument structure, the instrument structure having a predetermined shape, the proximal region of the elongated member being at least partially constrained by the instrument structure, determine a shape of the proximal region of the elongated member based on the registration data and based on information regarding the predetermined shape of the instrument structure, due to the elongated member being at least partially constrained by the instrument structure, and determine a position and orientation of the distal location on the elongated member, based on a combination of: (i) the determined shape of the proximal region of the elongated member, and (ii) data from the measurement sensor. 18. The system of claim 17 , wherein the processor is configured to: receive a signal from the measurement sensor, the signal including proximal data associated with a proximal section of the elongated member and distal data associated with a distal section of the elongated member, selectively filter the proximal data of the signal, and determine a position of the measurement sensor based at least upon the filtered proximal data of the signal, thereby reducing a fluctuation of the determined position of the measurement sensor.