Hostname: page-component-cd9895bd7-hc48f Total loading time: 0 Render date: 2024-12-25T04:33:43.014Z Has data issue: false hasContentIssue false

Inertial Navigation System Testing 1967

Published online by Cambridge University Press:  18 January 2010

Abstract

The Central Inertial Guidance Test Facility (C.I.G.T.F.) at Holloman Air Force base, New Mexico, has the responsibility for testing all aircraft inertial navigational systems, aided and unaided, for Department of Defence applications. From 1963 to the present, ten systems have been evaluated. The experience derived from past test programmes has always been valuable to the C.I.G.T.F. engineers in the design of increasingly sophisticated programmes.

This paper retraces some of the experience of the C.I.G.T.F. in its inertial navigation system testing. Test philosophy, objectives and approach are discussed briefly. Flightpath design, radar coverage, range instrumentation, aircraft instrumentation, data reduction and analysis of system performance are then considered. In addition, some mention is made of the test programmes presently being designed, and the technical problems of INS evaluation that the C.I.G.T.F. is now attempting to resolve. Because of the breadth of subject material, ideas are presented mostly at the concept level. Technical details are contained in the references.

The C.I.G.T.F. test method is to fly the test specimen within the coverage of the FPS-16 radars or other instrumentation of the White Sands missile range. An airborne tape recorder records where the system ‘thinks’ it is, along with a range reference time signal (irig-b). Likewise, the FPS-16 radar site records where the radar ‘knows’ the aircraft is, referenced to the same time base. Post-flight data reduction compares the outputs of system and reference at each sample/time, and forms an error plot of the differences in position in each channel. This is the basic error data used to describe system performance.

Type
The Performance of Airborne Inertial Systems
Copyright
Copyright © The Royal Institute of Navigation 1967

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

1Aircraft Inertial Navigation System, Test Program Information. (1966). C.I.G.T.F., Holloman A.F.B., New Mexico, 03.Google Scholar
2Henderson, D. W. (1964). Aircraft Testing of lnenial Navigation Systems; Approach and Analytical Evaluation, presented at the Second Inertial Guidance Test Symposium, Holloman A.F.B., New Mexico, 10.Google Scholar
3Mason, F. J. and Hubbard, M. (1966). Optimization of Inertial Navigation System Flight Test for Minimum Variance Estimation of Error Coefficients, presented at the Third Inertial Guidance Test Symposium, C.I.G.T.F., Holloman A.F.B., New Mexico, 10.Google Scholar
4Emmerich, C. L. (1966). The Percentile Analysis of Guidance System Errors, presented at 1966 Aerospace and Electronic Systems Convention, Washington, D.C., 10.CrossRefGoogle Scholar
5Runyon, G. E. and Cunningham, D. L. (1966). Estimation of the Status of an Inertial Navigation System Using Optimum Smoothing Techniques, presented at the Third Inertial Guidance Test Symposium, Holloman A.F.B., New Mexico, 10.Google Scholar
6Ellms, S. (1966). Investigation of Inertial System Error Analysis Methods, presented at the Third Inertial Guidance Test Symposium, Holloman A.F.B., New Mexico, 10.Google Scholar
7Amacker, J. Z. and Mason, F. J.Specification of Inertial Navigation Accuracies, C.I.G.T.F., Holloman A.F.B., New Mexico.CrossRefGoogle Scholar
8Amacker, J. Z. and Graff, J. A. (1965). Inertial Navigation System Testing at Holloman A.F.B., presented at the A.I.A.A./I.O.N. Guidance and Control Conference, Minneapolis, Minn, 08.Google Scholar
9Zagone, P. V. and Amacker, J. Z. (1966). The Standardized Evaluation of Inertial Navigation Systems jot the Department of Defense, C.I.G.T.F., Holloman A.F.B., New Mexico, presented at A.I.A.A./J.A.C.C. Conference, Seattle, Wash., 08.Google Scholar
10Mason, F. J. (1966). Estimation of Error Coefficients When the Least Squares Matrix is Singular. C.I.G.T.F., Holloman A.F.B., New Mexico, 04.Google Scholar
11Mason, F. J. (1964). Mukivariate Regression. C.I.G.T.F., Holloman A.F.B., New Mexico, 10.Google Scholar
12Mason, F. J. (1964). Analysis of Multiple Correlation. C.I.G.T.F., Holloman A.F.B., New Mexico, 10.Google Scholar