Generalization Gradients for Acquisition and Extinction in Human Contingency Learning
Abstract
Two experiments investigated the perceptual generalization of acquisition and extinction in human contingency learning. In Experiment 1, the degree of perceptual similarity between the acquisition stimulus and the generalization stimulus was manipulated over five groups. This successfully generated a generalization gradient of acquisition. In the subsequent phase, the response to the generalization stimulus was extinguished in each group. Finally, the acquisition stimulus was presented again. The response recovered differently over groups, thereby establishing the generalization gradient of extinction. In Experiment 2, the acquisition stimulus itself was extinguished before the set of generalization stimuli was tested between groups. One group evidenced a response recovery at test, which suggests that the gradient of acquisition is somewhat broader than the gradient of extinction.
References
(1934). The irradiation of a tactile conditioned reflex in man. Journal of Comparative Psychology, 17, 47– 65
(1975). Steady state data and a quantitative model of operant generalization and discrimination. Journal of Experimental Psychology: Animal Behavior Processes, 1(1), 3– 21
(1993). Context, time, and memory retrieval in the interference paradigms of Pavlovian learning. Psychological Bulletin, 114(1), 80– 99
(1994). Context, ambiguity, and classical conditioning. Current Directions in Psychological Science, 3, 49– 53
(1971). Disinhibition of an operant response. Learning and Motivation, 1(4), 346– 371
(2002). Spatial generalization and peak shift in humans. Learning and Motivation, 33, 3 358– 389
(2002). A review of recent developments in research and theories on human contingency learning. Quarterly Journal of Experimental Psychology: Comparative and Physiological Psychology, 55B, 4 289– 310
(2002). Outcome and cue properties modulate blocking. Quarterly Journal of Experimental Psychology, 55A, 965– 985
(2003). Massive extinction treatment attenuates the renewal effect. Learning and Motivation, 34(1), 68– 86
(1973). Generalization of extinction gradients: A systematic analysis. Journal of Experimental Psychology, 100(2), 403– 412
(2003). Empirical and theoretical implications of additivity between reinstatement and renewal after interference in causal learning. Behavioural Processes, 63, 1 21– 31
(1961). Generalization of extinction on the spectral continuum. Psychological Record, 11, 269– 278
(1981). The legacy of Guttman and Kalish (1956): 25 years of research on stimulus generalization. Journal of the Experimental Analysis of Behavior, 39, 405– 445
(1937a). The generalization of conditioned responses. I. The sensory generalization of conditioned responses with varying frequencies of tone. Journal of General Psychology, 17, 125– 148
(1937b). The generalization of conditioned responses. III. Extinction, spontaneous recovery, and disinhibition of conditioned and of generalized responses. Journal of Experimental Psychology, 21, 47– 62
(1943). Principles of behavior: An introduction to behavior theory. New York: Appleton-Century-Crofts.
(1969). Stimulus generalization. In M. H. Marx (Ed.), Learning: Processes (pp. 205-297). Oxford, England: Macmillan.
(1963). Generalization: I. Generalization gradients from single and multiple stimulus points. II. Generalization of inhibition. Journal of Experimental Psychology, 65(2), 176– 181
(1952). Generalization of extinction of an instrumental response to stimuli varying on the size dimension. Journal of Experimental Psychology, 44, 339– 346
(1984). Context specificity of conditioning, extinction and latent inhibition. Journal of Experimental Psychology: Animal Behavior Processes, 10, 3 360– 375
(1974). The psychology of animal learning. London: Academic Press.
(2005). Multiple comparison procedures for detecting differences in simply ordered means. Computational Statistics & Data Analysis, 48, 291– 306
(1927). Conditioned reflexes. London: Oxford University Press.
(1987). A model for stimulus generalization in Pavlovian conditioning. Psychological Review, 94, 61– 73
(1994). Similarity and discrimination: A selective review and a connectionist model. Psychological Review, 101, 587– 607
(1949). Stimulus generalization of conditioned responses. Psychological Bulletin, 46, 337– 365
(1976). Stimulus generalization: Some predictions from a model of Pavlovian conditioning. Journal of Experimental Psychology: Animal Behavior Processes, 2(1), 88– 96
(2000). Experimental extinction. In R. R. Mowrer, S. B. Klein (Eds.), Handbook of contemporary learning theories (pp. 119-154). Mahwah, NJ: Lawrence Erlbaum.
(2002). Comparison of the rates of associative change during acquisition and extinction. Journal of Experimental Psychology: Animal Behavior Processes, 28(4), 406– 415
(1972). A theory of Pavlovian conditioning: Variations in the effectiveness of reinforcement and non reinforcement. In A. H. Black, W. F. Prokasy (Eds.), Classical conditioning II. Current research and theory (pp. 64-99). New York: Appleton-Century-Crofts.
(1936). The nature of discrimination learning in animals. Psychological Review, 43, 427– 449
(2003). Role of context similarity in ABA, ABC, and AAB renewal paradigms: Implications for theories of renewal and for treating human phobias. Learning and Motivation, 34, 4 410– 436
(2005). Return of fear in a human differential conditioning paradigm caused by a return to the original acquisition context. Behaviour Research and Therapy, 43(3), 323– 336
(2005). Return of fear in a human differential conditioning paradigm caused by a stimulus change after extinction. Behaviour Research and Therapy, 43, 3 357– 371
(2004). Generalization of extinguished skin conductance responding in human fear conditioning. Learning & Memory, 11(5), 555– 558
(1997). Generalization in human category learning: A connectionist account of differences in gradient after discriminative and non discriminative training. Quarterly Journal of Experimental Psychology, 50A(3), 607– 630
