Dynamics of activation in semantic and episodic memory.

Spreading-activation models for the structure of semantic and episodic memory postulate a network of interconnected nodes in which activation spreads from a source node to recipient nodes. These models account for a broad range of memory-related processes, including word recognition, sentence verification, prose comprehension, and sentence production. A fundamental question regarding this account concerns the nature of activation growth at each node in the network. Two mutually exclusive possibilities are (a) that activation grows in a discrete fashion, making abrupt transitions between two or more distinct states and (b) that activation grows continuously from a resting level to an asymptotic level. In the present article, we characterize this dichotomy with examples from the literature, and we apply an adaptive priming procedure for testing discrete versus continuous activation models. Our procedure involves the presentation of prime stimuli at various moments before a test stimulus; subjects are required to make a lexical (word/nonword) decision about the test stimulus. The duration of the interval between the prime and test stimuli is varied adaptively on the basis of subjects' performance. Reaction times are recorded as a function of this duration. According to discrete activation models, there is a unique reaction-time distribution associated with each possible state of node activation. The distribution of reaction times observed when the test stimulus appears near the moment of transition between discrete states should therefore constitute a finite mixture of the underlying basis distributions associated with the individual discrete activation states. The mixture proportion will depend on the relation between the priming interval and the distribution of state-transition times. Continuous activation models assert instead that activation grows continuously over time and that there is a unique reaction-time distribution associated with any given degree of intermediate priming. Such models predict that no finite mixture distribution will emerge when the priming interval has a fixed intermediate duration. Two experiments with the adaptive priming procedure are reported to test these alternative predictions. In Experiment 1, the prime and test stimuli were semantically associated words (e.g., bread-butter). In Experiment 2, episodic associations between the prime and test stimuli were established through paired associate learning. For both cases, the mixture prediction failed, and two-state discrete activation models were rejected.(ABSTRACT TRUNCATED AT 400 WORDS)

[1]  B. Everitt,et al.  Finite Mixture Distributions , 1981 .

[2]  Geoffrey E. Hinton,et al.  Parallel Models of Associative Memory , 1989 .

[3]  J. C. Falmagne,et al.  Stochastic models for choice reaction time with applications to experimental results , 1965 .

[4]  John J. L. Morton,et al.  Interaction of information in word recognition. , 1969 .

[5]  H. Levitt Transformed up-down methods in psychoacoustics. , 1971, The Journal of the Acoustical Society of America.

[6]  Geoffrey E. Hinton,et al.  A Learning Algorithm for Boltzmann Machines , 1985, Cogn. Sci..

[7]  R. Ratcliff,et al.  A critical evaluation of the semantic-episodic distinction. , 1986, Journal of experimental psychology. Learning, memory, and cognition.

[8]  J. Jonides,et al.  On the Cost and Benefit of Cost and Benefit , 1984 .

[9]  F. Donders On the speed of mental processes. , 1969, Acta psychologica.

[10]  B. Dosher Effect of Sentence Size and Network Distance on Retrieval Speed. , 1982 .

[11]  David E. Irwin,et al.  The dynamics of cognition and action: mental processes inferred from speed-accuracy decomposition. , 1988, Psychological review.

[12]  James L. McClelland,et al.  An interactive activation model of context effects in letter perception: part 1.: an account of basic findings , 1988 .

[13]  G L MADDOX,et al.  A critical evaluation , 2012 .

[14]  M. Posner,et al.  Attention and cognitive control. , 1975 .

[15]  M. Ross Quillian,et al.  Retrieval time from semantic memory , 1969 .

[16]  E. Tulving What kind of a hypothesis is the distinction between episodic and semantic memory , 1986 .

[17]  M. Turvey On peripheral and central processes in vision: inferences from an information-processing analysis of masking with patterned stimuli. , 1973, Psychological review.

[18]  C W Eriksen,et al.  Information processing in visual search: A continuous flow conception and experimental results , 1979, Perception & psychophysics.

[19]  S. Dornič,et al.  Attention and performance V , 1976 .

[20]  P. D. Eimas,et al.  Effects of Context on the Classification of Words and Nonwords. , 1977 .

[21]  R. Schvaneveldt,et al.  Facilitation in recognizing pairs of words: evidence of a dependence between retrieval operations. , 1971, Journal of experimental psychology.

[22]  John R. Anderson Language, Memory, and Thought , 1976 .

[23]  R. F. Lorch,et al.  Priming and search processes in semantic memory: a test of three models of spreading activation , 1982 .

[24]  J. Ambrus,et al.  Critical evaluation. , 1965, The Wistar Institute symposium monograph.

[25]  B. Fischhoff,et al.  Journal of Experimental Psychology: Human Learning and Memory , 1980 .

[26]  M. S. Mayzner,et al.  Human information processing : tutorials in performance and cognition , 1975 .

[27]  James L. McClelland,et al.  Parallel distributed processing: explorations in the microstructure of cognition, vol. 1: foundations , 1986 .

[28]  A. Salasoo,et al.  Building permanent memory codes: codification and repetition effects in word identification. , 1985, Journal of experimental psychology. General.

[29]  John R. Anderson A spreading activation theory of memory. , 1983 .

[30]  D. Meyer,et al.  Temporal properties of human information processing: Tests of discrete versus continuous models , 1985, Cognitive Psychology.

[31]  G S Dell,et al.  A spreading-activation theory of retrieval in sentence production. , 1986, Psychological review.

[32]  C. Eriksen,et al.  Journal of Experimental Psychology: Human Perception and Performance , 2004 .

[33]  R. Ratcliff,et al.  Priming in episodic and semantic memory. , 1979 .

[34]  Marvin Minsky,et al.  Semantic Information Processing , 1968 .

[35]  James J. Jenkins,et al.  Word Association Norms: Grade School Through College , 1964 .

[36]  Wayne A. Wickelgren,et al.  Network Strength Theory of Storage and Retrieval Dynamics. , 1976 .

[37]  Allan Collins,et al.  A spreading-activation theory of semantic processing , 1975 .

[38]  J. H. Neely Semantic priming and retrieval from lexical memory: Roles of inhibitionless spreading activation and limited-capacity attention. , 1977 .

[39]  D E Meyer,et al.  Structure and process in semantic memory: new evidence based on speed-accuracy decomposition. , 1987, Journal of experimental psychology. General.

[40]  J. Miller Discrete versus continuous stage models of human information processing: in search of partial output. , 1982, Journal of experimental psychology. Human perception and performance.

[41]  James L. McClelland On the time relations of mental processes: An examination of systems of processes in cascade. , 1979 .

[42]  S. Sternberg The discovery of processing stages , 1969 .

[43]  E. Tulving,et al.  Organization of memory. , 1973 .

[44]  David A. Taylor Time Course of Context Effects. , 1977 .

[45]  R. E. Warren,et al.  Time and the spread of activation in memory. , 1977 .

[46]  S. W. Link,et al.  QUANTITATIVE METHODS IN PSYCHOLOGY Correcting Response Measures for Guessing and Partial Information , 1982 .

[47]  P Bertelson,et al.  The Time Course of Preparation* , 1967, The Quarterly journal of experimental psychology.

[48]  Wayne A. Wickelgren,et al.  Speed-accuracy tradeoff and information processing dynamics , 1977 .

[49]  B. Hayes-Roth Evolution of Cognitive Structures and Processes. , 1977 .

[50]  R. Venezky The Structure of English Orthography , 1965 .

[51]  Robert G Pachella,et al.  The Interpretation of Reaction Time in Information-Processing Research 1 , 1973, Human Information Processing.

[52]  John Theios,et al.  Can a Two-State Model Account for Two-Choice Reaction-Time Data?. , 1972 .

[53]  Saul Sternberg,et al.  The discovery of processing stages: Extensions of Donders' method , 1969 .

[54]  Stephen J. Boies,et al.  Components of attention. , 1971 .

[55]  Patrick T. W. Hudson,et al.  Associative facilitation of word recognition as measured from a neutral prime , 1982, Memory & cognition.

[56]  H. Kucera,et al.  Computational analysis of present-day American English , 1967 .

[57]  S. Link The relative judgment theory of two choice response time , 1975 .

[58]  J. Yellott,et al.  A cueing technique in choice reaction tlme , 1970 .

[59]  E. Tulving,et al.  STIMULUS INFORMATION AND CONTEXTUAL INFORMATION AS DETERMINANTS OF TACHISTOSCOPIC RECOGNITION OF WORDS. , 1963, Journal of experimental psychology.

[60]  J. Miller Can response preparation begin before stimulus recognition finishes? , 1983, Journal of experimental psychology. Human perception and performance.

[61]  D. Rosenbaum Human movement initiation: specification of arm, direction, and extent. , 1980, Journal of experimental psychology. General.

[62]  James L. McClelland,et al.  An interactive activation model of context effects in letter perception: I. An account of basic findings. , 1981 .

[63]  Roger Ratcliff,et al.  Does Activation Really Spread ? , 1981 .

[64]  E. Tulving,et al.  Episodic and semantic memory , 1972 .

[65]  Roger Ratcliff,et al.  A Theory of Memory Retrieval. , 1978 .

[66]  Curt Burgess,et al.  Activation and selection processes in the recognition of ambiguous words. , 1985 .