Validating the random search model for a double-target search task

A random visual search model was fit to 2980 search times obtained from a double-target search task. The overall adequacy and prediction accuracy of the model for various search time parameters like mean and median search times, and response times for both individual and pooled data show that subjects' search strategy may reasonably be inferred from search time distributions. The results also suggest the general applicability of the random search model for describing the search behaviour of a large number of subjects performing the type of search task used here, and the practical feasibility of its application for determination of stopping policy in optimization of inspection system design. Notwithstanding the general conformity of the data with the model, some extremely long search times were found, and this was accounted for by the characteristics of visual lobes, nonoptimum interfixation distances and inappropriate overlapping of lobes previously reported. An interpretation of temporal changes of subjects' search strategies during target detection was made by considering the cross-over phenomenon exhibited by the two cumulative detection percentage curves.

[1]  A J Courtney,et al.  Visual lobe dimensions and search performance for targets on a competing homogeneous background , 1986, Perception & psychophysics.

[2]  A J Courtney,et al.  Manual card sorting compared to automatic card presentation for assessing visual lobe size. , 1986, Ergonomics.

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

[4]  Colin G. Drury Exploring search strategies in aircraft inspection , 1993 .

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

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

[7]  J R Bloomfield,et al.  Visual Search in Complex Fields: Size Differences between Target Disc and Surrounding Discs , 1972, Human factors.

[8]  Alan J. Courtney,et al.  Visual Lobe Area for Single Targets on a Competing Homogeneous Background , 1985, Human factors.

[9]  B. O. Koopman The Theory of Search. II. Target Detection , 1956 .

[10]  A J Courtney,et al.  Inter-relationships between visual lobe dimensions, search times and eye movement parameters for a competition search task. , 1993, The Annals of physiological anthropology = Seiri Jinruigaku Kenkyukai kaishi.

[11]  C G Drury,et al.  A Variable-Memory Model of Visual Search , 1984, Human factors.

[12]  Colin G. Drury Integrating Human Factors Models into Statistical Quality Control , 1976 .

[13]  A. J. Courtney,et al.  Visual search performance with complete and incomplete visual lobe areas. , 1996, Ergonomics.

[14]  Alan J. Courtney,et al.  Visual performance on detection tasks with two targets , 1995 .

[15]  C G Drury,et al.  Inspection of Sheet Materials — Model and Data , 1975, Human factors.