Individual Differences in Processing Speed and Working Memory Speed as Assessed with the Sternberg Memory Scanning Task
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[1] Stephen J. Smith,et al. Gabapentin Receptor α2δ-1 Is a Neuronal Thrombospondin Receptor Responsible for Excitatory CNS Synaptogenesis , 2009, Cell.
[2] A. Miyake,et al. Individual differences in executive functions are almost entirely genetic in origin. , 2008, Journal of experimental psychology. General.
[3] Danielle Posthuma,et al. Netherlands Twin Register: From Twins to Twin Families , 2006, Twin Research and Human Genetics.
[4] Dorret I. Boomsma,et al. The phenotypic and genotypic relation between working memory speed and capacity , 2006 .
[5] D. Posthuma,et al. Theory and practice in quantitative genetics. , 2003, Twin research : the official journal of the International Society for Twin Studies.
[6] G. Willemsen,et al. Netherlands Twin Register: A Focus on Longitudinal Research , 2002, Twin Research.
[7] G. Geffen,et al. Genetic Covariance Among Measures of Information Processing Speed, Working Memory, and IQ , 2001, Behavior genetics.
[8] A. Neubauer,et al. Genetic and Environmental Influences on Two Measures of Speed of Information Processing and Their Relation to Psychometric Intelligence: Evidence from the German Observational Study of Adult Twins. , 2000 .
[9] M. J. Emerson,et al. The Unity and Diversity of Executive Functions and Their Contributions to Complex “Frontal Lobe” Tasks: A Latent Variable Analysis , 2000, Cognitive Psychology.
[10] B. Burle,et al. High-speed memory scanning: a behavioral argument for a serial oscillatory model. , 2000, Brain research. Cognitive brain research.
[11] Dorret I. Boomsma,et al. A Note on the Statistical Power in Extended Twin Designs , 2000, Behavior genetics.
[12] P. Vernon,et al. The genetic basis of the relation between speed-of-information-processing and IQ , 1998, Behavioural Brain Research.
[13] D W Fulker,et al. Increase in Power through Multivariate Analyses , 1998, Behavior genetics.
[14] R. Frankham. Introduction to quantitative genetics (4th edn): by Douglas S. Falconer and Trudy F.C. Mackay Longman, 1996. £24.99 pbk (xv and 464 pages) ISBN 0582 24302 5 , 1996 .
[15] A. Jensen,et al. The g factor , 1996, Nature.
[16] A. Thapar,et al. Methodology for Genetic Studies of Twins and Families , 1993 .
[17] T. Salthouse,et al. Decomposing adult age differences in working memory. , 1991 .
[18] L. Baker,et al. The genetic correlation between intelligence and speed of information processing , 1991, Behavior genetics.
[19] William Meredith,et al. Latent curve analysis , 1990 .
[20] J. Townsend. Serial vs. Parallel Processing: Sometimes They Look like Tweedledum and Tweedledee but they can (and Should) be Distinguished , 1990 .
[21] L. Baker,et al. Covariation between intelligence and speed of cognitive processing: Genetic and environmental influences , 1988, Behavior genetics.
[22] D. Lykken,et al. Information processing abilities in twins reared apart , 1984 .
[23] M. E. Campbell. Statistical Procedures with the Law of Initial Values , 1981 .
[24] E. Hunt,et al. Intelligence as an information-processing concept. , 1980, British journal of psychology.
[25] E. Hunt,et al. Memory impairment in epileptic patients: selective effects of phenobarbital concentration. , 1978, Science.
[26] N. Martin,et al. The power of the classical twin study , 1978, Heredity.
[27] S. Sternberg. Memory Scanning: New Findings and Current Controversies , 1975 .
[28] J. P. Cavanagh. Relation between the immediate memory span and the memory search rate. , 1972 .
[29] J. Townsend. SOME RESULTS CONCERNING THE IDENTIFIABILITY OF PARALLEL AND SERIAL PROCESSES , 1972 .
[30] James T. Townsend,et al. A note on the identifiability of parallel and serial processes , 1971 .
[31] N. Nie,et al. Statistical Package for the Social Sciences , 1970 .
[32] Lindon J. Eaves,et al. THE GENETIC ANALYSIS OF CONTINUOUS VARIATION: A COMPARISON OF EXPERIMENTAL DESIGNS APPLICABLE TO HUMAN DATA , 1969 .
[33] R. Atkinson,et al. Processing time as influenced by the number of elements in a visual display , 1969 .
[34] Raymond B. Cattell,et al. Handbook of multivariate experimental psychology , 1968 .
[35] S. Sternberg. High-Speed Scanning in Human Memory , 1966, Science.
[36] H. Grüneberg,et al. Introduction to quantitative genetics , 1960 .
[37] Stephen J. Smith,et al. Gabapentin Receptor alpha 2 delta-1 Is a Neuronal Thrombospondin Receptor Responsible for Excitatory CNS Synaptogenesis , 2009 .
[38] M. D’Esposito. Working memory. , 2008, Handbook of clinical neurology.
[39] K. Schermelleh-Engel,et al. Evaluating the Fit of Structural Equation Models: Tests of Significance and Descriptive Goodness-of-Fit Measures. , 2003 .
[40] A. van Ooyen,et al. Activity-dependent neurite outgrowth and neural network development. , 1994, Progress in brain research.
[41] Philip A. Vernon,et al. The heritability of measures of speed of information-processing☆ , 1989 .
[42] P. Vernon. Speed of Information-Processing and Intelligence: , 1988 .
[43] J. Mcardle. Dynamic but Structural Equation Modeling of Repeated Measures Data , 1988 .
[44] James T. Townsend,et al. The Stochastic Modeling of Elementary Psychological Processes , 1983 .
[45] R. Sternberg. Advances in the psychology of human intelligence , 1982 .
[46] S. Sternberg. Memory-scanning: mental processes revealed by reaction-time experiments. , 1969, American scientist.
[47] M. Manosevitz,et al. High-Speed Scanning in Human Memory , 2022 .