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Learning and Memory: A Comprehensive Reference 3rd edition [Multiple-component retail product]

Editor-in-chief (Department of Psychology University of California, San Diego San Diego, California, USA)
  • Formāts: Multiple-component retail product, 2400 pages, height x width: 276x216 mm, Contains 4 hardbacks
  • Izdošanas datums: 26-Jun-2025
  • Izdevniecība: Academic Press Inc
  • ISBN-10: 0443157545
  • ISBN-13: 9780443157547
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  • Multiple-component retail product
  • Cena: 2 278,50 €
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Learning and Memory: A Comprehensive Reference 3rd editionPalielināt
  • Formāts: Multiple-component retail product, 2400 pages, height x width: 276x216 mm, Contains 4 hardbacks
  • Izdošanas datums: 26-Jun-2025
  • Izdevniecība: Academic Press Inc
  • ISBN-10: 0443157545
  • ISBN-13: 9780443157547
Citas grāmatas par šo tēmu:
Permanent link: https://www.kriso.lv/db/9780443157547.html
Keywords:

Learning and Memory: A Comprehensive Reference, Third Edition, Four Volume Set is the authoritative resource for scientists and students interested in all facets of learning and memory. This updated edition will include chapters that reflect the rapidly evolving, state-of-the-art of research in this area, from the molecular mechanisms of consolidation and forgetting to the cognitive mechanisms of eyewitness memory. No other reference work comes close to providing such breadth covered in so much depth and thus is a valuable tool for all academics and researchers in the field of neuroscience, psychology, psychiatry, neurobiology and neurology.

I. Neurobiology of Learning and Memory
1. The role of LTP/LTD in learning and memory
2. The role of place cells/grid cells in spatial memory and navigation
3. cAMP signaling pathway and CREB activation
4. CREB-mediated changes in neuronal excitability and memory formation
5. pigenetic mechanisms and control of RNA during learning and memory
6. Non-synaptic memory mechanisms (e.g., modification of histone proteins)
7. The role of adult neurogenesis in dentate gyrus in memory and forgetting
8. Emerging (e.g., richer, more ethologically relevant) behavioral methods

II. Computational and Theoretical Neuroscience
9. Computational Models of Synaptic Memory
10. Models of Large-Scale Neural Recordings
11. Reinforcement Learning and Memory
12. Computational Models of Motor Memory
13. Neural Oscillations and Computational Models of Time

III. Systems Neuroscience
14. Computational Models of Memory Systems
15. Declarative Memory (Hippocampus/MTL/Amnesia)
16. Functional Connectivity of Declarative Memory
17. Emotion and Memory (Amygdala/Fear/PTSD)
18. Prefrontal Cortex/Parietal Cortex/Working Memory
19. Conditioning
20. Cerebellum/Skill learning
21. Consolidation/reconsolidation/sleep
22. Neuroscience of Aging and Memory

IV. Memory and Cognition
23. Encoding and Retrieval Processes
24. Mathematical Models of Memory
25. Working Memory
26. Prospective Memory
27. Metamemory/Deja Vu
28. Developmental Psychology
29. Psychology of Aging and Memory
30. Learning and Education
31. False Memory/Eyewitness Memory

Dr. Wixted's research is concerned with the understanding of episodic memory. Much of his work investigates the cognitive mechanisms that underlie recognition memory, often using signal detection theory as a guide. A related line of research investigates how episodic memory is represented in the human hippocampus, work that is based mainly on single-unit recording studies performed with epilepsy patients. In recent years, his research has also investigated the applied implications of signal detection-based models of recognition memory. The main focus of this line of research is on the reliability of eyewitness memory.