Data fusion architecture

What is claimed is: 1. Architecture comprising: a plurality of sensors, each sensor supplying measurement data and being associated with accuracy data indicative of the accuracy of the supplied measurement data; each sensor being associated with means for deriving first estimates of the variability of the measurement data supplied by the respective sensor by processing the measurement data supplied by the respective sensor, means for deriving second estimates of the variability of the measurement data supplied by the respective sensor by processing the accuracy data associated with the respective sensor, and means for combining the first and second estimates to derive overall estimates of the variability of the measurement data supplied by the respective sensor; means for removing measurements which deviate from other measurements of the measurement data prior to deriving the first estimates of the variability of the measurement data supplied by the respective sensor; means for combining the measurement data supplied by each sensor and the overall estimates for each sensor. 2. The architecture of claim 1 , wherein the plurality of sensors includes a combination of different types of sensors and/or different types of measurement data formats. 3. The architecture of claim 1 , wherein the means for deriving the first estimates derives estimates of the variability of the measurement data in the horizontal plane. 4. The architecture of claim 3 , wherein the first estimates are the standard deviation of the measurement data supplied by the respective sensor in two axes, or the size and orientation of an error ellipse for the measurement data. 5. The architecture of claim 1 , wherein each sensor is further associated with means for deriving a filtered version of the first estimates. 6. The architecture of claim 5 , wherein the means for deriving a filtered version of the first estimates is a first low-pass filter. 7. The architecture of claim 6 , wherein the means for deriving the second estimates includes a second low-pass filter for deriving a filtered version of the accuracy data associated with the respective sensor and means for dividing the accuracy data by the filtered version of the accuracy data, the first and second low-pass filters having substantially the same filter characteristics. 8. The architecture of claim 1 , wherein the means for deriving the second estimates includes means for deriving a filtered version of the accuracy data supplied by the respective sensor and means for dividing the accuracy data by the filtered version of the accuracy data. 9. The architecture of claim 8 , wherein the second estimates are a normalised, filtered version of the accuracy data supplied by the respective sensor. 10. The architecture of claim 8 , wherein the means for deriving a filtered version of the accuracy data is a second low-pass filter. 11. The architecture of claim 1 , wherein the means for combining the measurement data supplied by each sensor and the overall estimates for each sensor is a Kalman filter. 12. The architecture of claim 1 , wherein the means for combining the measurement data supplied by each sensor and the overall estimates for each sensor uses a weighted average technique. 13. The architecture of claim 1 , wherein the sensors are position measuring equipment. 14. A dynamic positioning system for a marine vessel using architecture comprising: a plurality of sensors, each sensor supplying measurement data and being associated with accuracy data indicative of the accuracy of the supplied measurement data; each sensor being associated with means for deriving first estimates of the variability of the measurement data supplied by the respective sensor by processing the measurement data supplied by the respective sensor, means for deriving second estimates of the variability of the measurement data supplied by the respective sensor by processing the accuracy data associated with the respective sensor, and means for combining the first and second estimates to derive overall estimates of the variability of the measurement data supplied by the respective sensor; means for removing the effects of low frequency motion of the marine vessel on position measurement data provided by the respective sensor before the position measurement data is provided to the means for deriving the first estimates; and means for combining the measurement data supplied by each sensor and the overall estimates for each sensor.