Comparative cognition : experimental explorations of animal intelligence

Bibliographic Information

Comparative cognition : experimental explorations of animal intelligence

edited by Edward A. Wasserman, Thomas R. Zentall

Oxford University Press, 2009

  • : paperback

Search this Book/Journal
Note

"c2006 by Oxford University Press", "First published as an Oxford University Press paperback, 2009" -- T.p. verso

Includes bibliographical references and indexes

Description and Table of Contents

Description

In 1978, Hulse, Fowler, and Honig published Cognitive Processes in Animal Behavior, an edited volume that was a landmark in the scientific study of animal intelligence. It liberated interest in complex learning and cognition from the grasp of the rigid theoretical structures of behaviorism that had prevailed during the previous four decades, and as a result, the field of comparative cognition was born. At long last, the study of the cognitive capacities of animals other than humans emerged as a worthwhile scientific enterprise. No less rigorous than purely behavioristic investigations, studies of animal intelligence spanned such wide-ranging topics as perception, spatial learning and memory, timing and numerical competence, categorization and conceptualization, problem solving, rule learning, and creativity. During the ensuing 25 years, the field of comparative cognition has thrived and grown, and public interest in it has risen to unprecedented levels. In their quest to understand the nature and mechanisms of intelligence, researchers have studied animals from bees to chimpanzees. Sessions on comparative cognition have become common at meetings of the major societies for psychology and neuroscience, and in fact, research in comparative cognition has increased so much that a separate society, the Comparative Cognition Society, has been formed to bring it together. This volume celebrates comparative cognition's first quarter century with a state-of-the-art collection of chapters covering the broad realm of the scientific study of animal intelligence. Comparative Cognition will be an invaluable resource for students and professional researchers in all areas of psychology and neuroscience.

Table of Contents

  • Introduction
  • Comparative Cognition: A Natural Science Approach to the Study of Animal Intelligence, Edward A. Wasserman and Thomas R. Zentall
  • I. Perception and Illusion
  • 1. Grouping and Segmentation of Visual Objects by Baboons (Papio papio) and Humans (Homo sapiens), Joel Fagot and Isabelle Barbet
  • 2. Seeing What Is Not There: Illusion, Completion, and Spatio-Temporal Boundary Formation in Comparative Perspective, Kazuo Fujita
  • 3. The Cognitive Chicken: Visual and Spatial Cognition in a Non-Mammalian Brain, Giorgio Vallortigara
  • 4. The Comparative Psychology of Absolute Pitch, Ronald G. Weisman, Mitchel T. Williams, Jerome S. Cohen, Milan G. Njegovan, and Christopher B. Sturdy
  • II. Attention and Search
  • 5. Reaction-Time Explorations of Visual Perception, Attention, and Decision in Pigeons, Donald S. Blough
  • 6. Selective Attention, Priming, and Foraging Behavior, Alan C. Kamil and Alan B. Bond
  • 7. Attention as it is Manifest across Species, David A. Washburn and Lauren A. Taglialatela
  • III. Memory Processes
  • 8. The Questions of Temporal and Spatial Displacement in Animal Cognition, William A. Roberts
  • 9. Memory Processing, Anthony A. Wright
  • IV. Spatial Cognition
  • 10. Arthropod Navigation: Ants, Bees, Crabs, Spiders Finding Their Way, Ken Cheng
  • 11. Comparative Spatial Cognition: Processes in Landmark and Surface-Based Place Finding, Marcia L. Spetch and Debbie M. Kelly
  • 12. Properties of Time-Place Learning, Donald M. Wilkie and Christina M. Thorpe
  • V. Timing and Counting
  • 13. Behavioristic, Cognitive, Biological, and Quantitative Explanations of Timing, Russell M. Church
  • 14. Sensitivity to Time: Implications for the Representation of Time, Jonathon D. Crystal
  • 15. Time and Number: Learning, Psychophysics, Stimulus Control, and Retention, J. Gregor Fetterman
  • VI. Conceptualization and Categorization
  • 16. Relational Discrimination Learning in Pigeons, Robert G. Cook and Edward A. Wasserman
  • 17. A Modified Feature Theory as an Account of Pigeon Visual Categorization, Ludwig Huber and Ulrike Aust
  • 18. Category Structure and Typicality Effects, Masako Jitsumori
  • 19. Similarity and Difference in the Conceptual Systems of Primates: The Unobservability Hypothesis, Jennifer Vonk and Daniel J. Povinelli
  • 20. Rule Learning, Memorization Strategies, Switching Attention Between Local and Global Levels of Perception, and Optimality in Avian Visual Categorization, Charles P. Shimp, Walter T. Herbranson, Thane Fremouw, Alyson L. Froehlich
  • 21. Responses and Acquired Equivalence Classes, Peter J. Urcuioli
  • VII. Pattern Learning
  • 22. Spatial Patterns: Behavioral Control and Cognitive Representation, Michael F. Brown
  • 23. The Structure of Sequential Behavior, Stephen B. Fountain
  • 24. Truly Random Operant Responding: Results & Reasons, Greg Jensen, Claire Miller, and Allen Neuringer
  • 25. The Simultaneous Chain: A New Look at Serially Organized Behavior, Herbert S. Terrace
  • VIII. Tool Fabrication and Use
  • 26. Cognitive Adaptations for Tool-Related Behaviour in New Caledonian Crows, Alex Kacelnik, Jackie Chappell, Ben Kenward, and Alex A. S. Weir
  • 27. What is Challenging About Tool Use? The Capuchin's Perspective, Elisabetta Visalberghi and Dorothy Fragaszy
  • IX. Problem Solving and Behavioral Flexibility
  • 28. Intelligences and Brains: An Evolutionary Bird's Eye View, Juan D. Delius and Julia A. M. Delius
  • 29. How Do Dolphins Solve Problems?, Stan A. Kuczaj II and Rachel Thames Walker
  • 30. The Comparative Cognition of Caching, S. R. de Kort, S. Tebbich, J. M. Dally, N. J. Emery, and N. S. Clayton
  • 31. The Neural Basis of Cognitive Flexibility in Birds, Shigeru Watanabe
  • X. Social Cognition Processes
  • 32. Chimpanzee Social Cognition in Early Life: Comparative-Developmental Perspective, Masaki Tomonaga, Masako Myowa-Yamakoshi, Yuu Mizuno, Sanae Okamoto, Masami K. Yamaguchi, Daisuke Kosugi, Kim A. Bard, Masayuki Tanaka, and Tetsuro Matsuzawa
  • 33. Stimuli Signaling Rewards that Follow a Less Preferred Event are Themselves Preferred: Implications for Cognitive Dissonance, Thomas R. Zentall, Tricia S. Clement, Andrea M. Friedrich, and Kelly A. DiGian
  • Epilogue:
  • Postscript: An Essay on the Study of Cognition in Animals Stewart M. Hulse

by "Nielsen BookData"

Details
Page Top