Buch, Englisch, 752 Seiten, Format (B × H): 175 mm x 250 mm, Gewicht: 1453 g
Buch, Englisch, 752 Seiten, Format (B × H): 175 mm x 250 mm, Gewicht: 1453 g
ISBN: 978-0-19-852967-5
Verlag: ACADEMIC
The creation and consolidation of a memory can rest on the integration of any number of possibly disparate features and contexts - colour, sound, emotion, arousal, context. How is it that these bind together to form a coherent memory? What is the role of binding in memory formation? What are the neural processes that underlie binding? Do these binding processes change with age?
This book offers an unrivalled overview of one of the most debated hotspots of modern memory research: binding. It contains 28 chapters on binding in different domains of memory, presenting classic research from the field of cognitive neuroscience. It is written by renowned scientists and leaders in the field who have made fundamental contributions to the rapidly expanding field of neurocognitive memory research. As well as presenting a state-of-the-art account of recent views on binding and its importance for remembering, it also includes a review of recent publications in the area, of benefit to both students and active researchers. More than just a survey, it supplies the reader with an integrative view on binding in memory, fostering deep insights not only into the processes and their determinants, but also into the neural mechanisms enabling these processes.
The content also encompasses a wide range of binding-related topics, including feature binding, the binding of items and contexts during encoding and retrieval, the specific roles of familiarity and recollection, as well as task- and especially age-related changes in these processes. A major section is dedicated to in-depth analyses of underlying neural mechanisms, focusing on both medial temporal and prefrontal structures. Computational approaches are covered as well.
For all students and researchers in memory, the book will not only enhance their understanding of binding, but will instigate innovative and pioneering ideas for future research.
Autoren/Hrsg.
Fachgebiete
- Sozialwissenschaften Psychologie Allgemeine Psychologie Biologische Psychologie, Neuropsychologie
- Sozialwissenschaften Psychologie Psychologie / Allgemeines & Theorie Experimentelle Psychologie
- Sozialwissenschaften Psychologie Allgemeine Psychologie Kognitionspsychologie Gedächtnis
- Geisteswissenschaften Philosophie Moderne Philosophische Disziplinen Philosophie des Geistes, Neurophilosophie
- Naturwissenschaften Biowissenschaften Biowissenschaften Neurobiologie, Verhaltensbiologie
Weitere Infos & Material
- 1: Hubert D Zimmer, Axel Mecklinger and Ulman Lindenberger: Introduction - Levels of binding: types, mechanisms and functions of binding in remembering
- Section I - Neural Mechanisms of Binding
- 2: Howard Eichenbaum: Memory binding in hippocampal relational networks
- 3: Iris Trinkler, John King, Hugo Spiers and Neil Burgess: Part or parcel? Contextual binding of events in episodic memory
- 4: Don M Tucker and Phan Luu: Adaptive binding
- 5: Wolfgang Klimesch: Binding principles in the theta frequency range
- 6: Emrah Durzel, Markus Neufang and Sebastian Guderian: Relationship between event-related potentials and oscillatory dynamics in episodic retrieval
- 7: Guillen Fernandez and Jurgen Fell: Rhinal-hippocampal contribution to declarative memory formation
- Section II - A Computational Approach to Mechanisms of Binding
- 8: Daniel M Cer and Randall C O'Reilly: Neural mechanisms of binding in the hippocampus and neocortex: insights from computational models
- 9: Jaap Murre, Gezinus Wolters and Antonio Raffone: The memory chain model of learning, forgetting and disorders of long-term memory
- 10: Gordon Brown and Teresa McCormack: The role of time in human memory and binding: a review of the evidence
- 11: Shu-chen Li and Ulman Lindenberger: Aging deficits in neuromodulation of representational distinctiveness and conjunctive binding: computational explorations of possible links
- Section III - Binding in Perception and Knowledge Representation
- 12: Anne Treisman: Object tokens, binding and visual memory
- 13: Frank Rosler, Kerstin Jost and Michael Niedeggen: Psychophysiological evidence for binding and unbinding arithmetic knowledge representations
- 14: Andreas Voss, Klaus Rothermund and Jochen Brandstadter: Motivated binding: top-down influences in the encoding of compound objects
- 15: Esther Fujiwara and Hans J Markowitsch: Brain correlates of binding processes of emotion and memory
- Section IV - Binding Processes during Retrieval
- 16: Malcolm W Brown and Clea Warburton: Associations and dissociations in recognition memory systems
- 17: Joel R Quamme, Andrew P Yonelinas and Neal E A Kroll: Unpacking explicit memory: the contribution of recollection and familiarity
- 18: Tim Curran, Katharine L Tepe and Carley Piatt: ERP explorations of dual processes in recognition memory
- 19: Barbara Knowlton and Laura Eldridge: Mnemonic binding in the medial temporal lobe
- 20: Lars Nyberg: Functional imaging studies of intentional and incidental reactivation: implications for the binding problem
- 21: Ken A Paller: Binding memory fragments together to form declarative memories depends on cross-cortical storage
- 22: Karl-Heinz Bauml: Retrieval inhibition in episodic recall: effects on feature binding
- Section V - Binding in the Aging Brain
- 23: Fergus I M Craik: Remembering items and their contexts: effects of aging and divided attention
- 24: Roberto Cabeza: Prefrontal and medial temporal lobe contributions to relational memory in young and older adults
- 25: Moshe Naveh-Benjamin: Binding of memories: adult-age differences and the effects of divided attention in young on episodic memory
- 26: Mark A McDaniel, Karin M Butler and Courtney C Dornburg: Binding of source and content: new directions revealed by neuropsychological and age-related effects
- 27: David Friedman: Age-associated changes in episodic memory: event-related potential (ERP) investigations of recollection and familiarity
- 28: Brent J Small and Lars Backman: Episodic memory impairment in preclinical Alzheimer's disease




