Tracking Filter Engineering – The Gauss-Newton and Polynomial Filters (2016)

The course provides a detailed introduction to tracking filter engineering based on the Gauss-Newton and polynomial filters.

At the start of the Satellite Age in 1958, three tracking filters competed for acceptance at Bell Labs:

• Gauss-Newton filters were the first to be tried, but they had to be ruled out for real time use because of the speed limitations of the existing computers.
• The second to be tried were the Swerling filters, which could be run in near real time on the existing machines.
• Two years later, the Swerling filters were replaced by the Kalman filters.

Nevertheless, a number of facts were noted, among them the following:

• Swerling and Kalman yielded identical numerical results.
• Swerling and Kalman both suffered from the same problems of unpredictable instability.
• Swerling was in some ways superior to Kalman.

Apart from the fact that they were unusable at the time, Gauss-Newton was observed to be the best of the three: Gauss-Newton filters were unconditionally stable, they produced better numerical results, and they were better suited to the tracking of manoeuvring targets. The speed of today’s computers is vastly greater than those of 1958, and so Gauss-Newton need no longer be ruled out for near real time use.

This course:

• Touches briefly on the Swerling and Kalman filters;
• Covers Gauss-Newton in full depth;
• Covers in full depth the widely used polynomial filters, which were devised by the lecturer when he worked at Bell Labs between 1964 and 1968.

Download
Course
Handout:
Tracking Filter
Engineering
2016