Predicting Aircraft Detectability

A visual search model, VIDEM, has been formulated for predicting the detectability of a single, unknown target in an unstructured surround. The intended application is aircraft detection. The model consists of four components: a liminal contrast threshold, a frequency-of-seeing curve, a soft shell search representation, and discrete cumulation of single glimpse detection probabilities. The formulation was developed by registering five existing models against three controlled search experiments. The five models used represent all appropriate laboratory threshold data, including those of Blackwell, Lamar, Sloan, and Taylor. The search experiments included a large set of aircraft field tests, with precise photometric target measurements correlated to the detection events. The model registrations were done using nonlinear parameter estimation techniques and by comparing model predictions to actual event cumulatives with the Kolmogorov-Smirnov statistic. The resultant VIDEM model is a derivative of Sloan's data, cast into the popular visual lobe equations of Lamar.

[1]  Arthur C. Poe A Model for Visual Detection of Aircraft by Ground Observers , 1974 .

[2]  S. Hecht,et al.  Size, Shape, and Contrast in Detection of Targets by Daylight Vision. I. Data and Analytical Description1 , 1947 .

[3]  Alphonse Chapanis,et al.  Research techniques in human engineering , 1959 .

[4]  L. L. Sloan Area and luminance of test object as variables in examination of the visual field by projection perimetry , 1961 .

[5]  John H. Taylor Contrast thresholds as a function of retinal position and target size for the light-adapted eye - eScholarship , 1961 .

[6]  H. H. Bailey Target Detection Through Visual Recognition: A Quantitative Model , 1970 .

[7]  S. Hecht,et al.  Size, shape, and contrast in detection of targets by daylight vision; frequency of seeing and the quantum theory of cone vision. , 1948, Journal of the Optical Society of America.

[8]  L G Williams,et al.  Target Conspicuity and Visual Search1 , 1966, Human factors.

[9]  H. Richard Blackwell,et al.  Foveal contrast thresholds for various durations of single pulses , 1958 .

[10]  H. Hartley The Modified Gauss-Newton Method for the Fitting of Non-Linear Regression Functions by Least Squares , 1961 .

[11]  E S KRENDEL,et al.  Search in an unstructured visual field. , 1960, Journal of the Optical Society of America.

[12]  H R BLACKWELL,et al.  Contrast thresholds of the human eye. , 1946, Journal of the Optical Society of America.

[13]  C T WHITE,et al.  Analysis of eye movements during free search. , 1959, Journal of the Optical Society of America.

[14]  H R BLACKWELL,et al.  Neural theories of simple visual discriminations. , 1963, Journal of the Optical Society of America.

[15]  S HECHT,et al.  Size, shape, and contrast in detection of targets by daylight vision; data and analytical description. , 1947, Journal of the Optical Society of America.

[16]  Charles P. Greening,et al.  Mathematical Modeling of Air-to-Ground Target Acquisition , 1976 .