Cats were trained to discriminate moving from nonmoving targets or one direction of movement from another. Various stimulus changes, e.g., size, direction, and rate, were then introduced as a test for generalization of the dimension of movement. Thresholds for detection for minimal movement were also determined. The results showed that (a) for cats, discrimination of movement is more difficult than discriminations based on brightness; (b) the dimension of movement is completely generalized across stimulus configuration but incompletely generalized for direction of movement; (c) the mean movement detection threshold was found to be 3.3 degrees/sec; (d) the thresholds for minimal movement and direction of movement were essentially identical; and (e) stimulus-viewing strategies were found to play an important role in the threshold determinations. The results of the generalization tests are consistent with the physiological properties of neurons found to be sensitive to movement in the cat visual system. The movement threshold values were found to lend support to the view that resolution and slow movement thresholds are correlated.
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