The cognitive neurosciences

Free download. Book file PDF easily for everyone and every device. You can download and read online The cognitive neurosciences file PDF Book only if you are registered here. And also you can download or read online all Book PDF file that related with The cognitive neurosciences book. Happy reading The cognitive neurosciences Bookeveryone. Download file Free Book PDF The cognitive neurosciences at Complete PDF Library. This Book have some digital formats such us :paperbook, ebook, kindle, epub, fb2 and another formats. Here is The CompletePDF Book Library. It's free to register here to get Book file PDF The cognitive neurosciences Pocket Guide.

New frontiers in cognitive neuroscience research have emerged from investigations that integrate data at different spatial and temporal scales.


  • Wireless Broadband Handbook.
  • The cognitive neuroscience of creativity..
  • Mind Children: The Future of Robot and Human Intelligence.
  • Meditations?
  • Big Data Analytics: Second International Conference, BDA 2013, Mysore, India, December 16-18, 2013, Proceedings.
  • Machine Learning for the Cognitive Neurosciences.
  • HBHL 3-Day Workshop: Machine Learning for the Cognitive Neurosciences!

A wide range of neuroimaging techniques are employed by cognitive neuroscientists for measuring or inferring neural activity, as well as techniques for determining neuroanatomical structure-function relationships e. Electrocorticography ECoG and experimental interventions in human neural function, including stimulation and manipulation techniques combined with neuroimaging, have advanced the field. Additional recent methodological advances include machine-learning and multivariate analysis methods, resting-state and task-based connectomics and large-scale data analysis used to investigate and infer functional mechanisms, as well as multimodal neuroimaging and model-based approaches, wherein computational cognitive models may directly inform neuroimaging results.

The Cognitive Neuroscience Program seeks highly innovative proposals aimed at advancing a rigorous understanding of the neural mechanisms of human cognition. Central research topics for consideration by the program include attention, learning, memory, decision-making, language, social cognition, and emotions. Proposals with animal models are appropriate only if they include a comparative element with human subjects.

Proposals focused on behavioral, clinical or molecular mechanisms will not be considered for this program. Additionally, proposals directed at understanding low-level sensorimotor processes or restricted to model-based simulations of neural data will not be considered, unless they are embedded in a cognitive question related to one of the central research topics listed above.

Investigators are highly encouraged to contact the program director before submitting a proposal regarding the appropriateness of their project for the Cognitive Neuroscience Program. Please include a one-page summary with an overview of your research and statements of intellectual merit and broader impacts, the two NSF review criteria. Declined proposals are ineligible for resubmission until a minimum of one year has passed since their initial submission. This moratorium allows investigators the time required to digest the results of the merit review and revise their proposal accordingly.

Creativity and artificial intelligence. Artificial Intelligence , , — Boone, B. Neuropsychological assessment of executive functions. Cummings Eds. New York: Guilford. Bransford, J. The ideal problem solver. New York: Freeman.

Institute of Cognitive Neuroscience - UCL - London's Global University

Braun, A. Regional cerebral blood flow throughout the sleep-wake cycle. Brain , , — Broadbent, D. Perception and communication. New York: Pergamon. Bruckner, R. Cabeza, R. Journal of Cognitive Neuroscience , 12 , 1— Cadoret, G. Selective activation of the ventromedial prefrontal cortex in the human brain during active retrieval processing.

Cognitive Neuroscience — Neil Burgess

European Journal of Neuroscience , 14 , — Carlsson, I. On the neurobiology of creativity: Differences in frontal activity between high and low creative subjects. Neuropsychologia , 38 , — Channon, S. Problem-solving in real-lifetype situations: The effect of anterior and posterior lesions on performance. Neuropsychologia , 37 , — Churchland, P. Collins, A. A spreading activation theory of semantic processing. Psychological Review , 82 , — Conway, A. The cocktail party phenomenon revisited: The importance of working memory capacity.

Courtney, S. The role of prefrontal cortex in working memory: Examining the contents of consciousness. Cowan, N. Attention and memory: An integrated framework. Oxford Psychology Series, No. New York: Oxford University Press. The magical number 4 in short-term memory: A reconsideration of mental storage capacity. Crick, F. Consciousness and neuroscience.

Cerebral Cortex , 8 , 97— Csikszentmihalyi, M. Society, culture, person: A systems view of creativity. Sternberg Ed. Damasio, A. New York: Putnam. Some notes on brain, imagination and creativity. Shubik Eds. Oxford: Oxford University Press. Conference proceedings: Neuroethics. Mapping the field. New York: Dana. DeBono, E. New think: The use of lateral thinking in the generation of new ideas. New York: Basic Books. Dehaene, S. Toward a cognitive science of consciousness: Basic evidence and a workspace framework. Cognition , 79 , 1— Desgranges, B.

The functional neuroanatomy of episodic memory: The role of the frontal lobes, the hippocampal formation, and other areas. NeuroImage , 8 , — Dietrich, A. Functional neuroanatomy of altered states of consciousness. The transient hypofrontality hypothesis. Neurocognitive mechanisms underlying the experience of flow. Functional dissociation of the prefrontal cortex and the hippocampus in timing behavior. Behavioral Neuroscience , , — Brain Research , , 41— Duncan, J. Common regions of the human frontal lobe recruited by diverse cognitive demands.


  • Secondary menu?
  • Grundzüge der Elektrochemie auf experimenteller Basis.
  • Find a Researcher.
  • U-boat Prey Merchant Sailors at War 1939-1942 Rare Photographs from Wartime Archives.
  • Cognitive Neuroscience | Department of Psychology!

Trends in Neurosciences , 23 , — Duncker, K. On problem solving. Psychological Monographs , , No Eysenck, H. Creativity and personality: Suggestions for a theory. Psychological Inquiry , 4 , — Genius: The natural history of creativity. Fink, G. Journal of Neuroscience , 16 , — PubMed Google Scholar. Finke, R.

Imagery, creativity, and emergent structure. Fletcher, P. Responses of the human frontal cortex to surprising events are predicted by formal associative learning theory. Nature Neuroscience , 4 , — Frensch, P. Expertise and intelligent thinking: When is it worse to know better? Hillsdale, NJ: Erlbaum. Friedman, R. The influence of approach and avoidance motor actions on creative cognition. Journal of Experimental Social Psychology , 38 , 41— Frith, C. The role of the prefrontal cortex in higher cognitive functions. Cognitive Brain Research , 5 , — Cognitive psychology-Interacting minds-A biological basis.

Science , , — Fuster, J. Temporal processing-Structure and function of the human prefrontal cortex. Annals of the New York Academy of Sciences , , — Executive frontal functions. Experimental Brain Research , , 66— The prefrontal cortex of the primate: A synopsis. Psychobiology , 28 , — Frontal lobe and cognitive development. Journal of Neurocytology , 31 , — Gabrieli, J. Cognitive neuroscience of human memory. Annual Review of Psychology , 49 , 87— Gardner, H. Gazzaniga, S. Cognitive neuroscience. New York: Norton. Gilbert, P.


  • [Article] Number of nearby visitors and noise level affect vigilance in captive koalas.
  • Diabetic Meals in 30 Minutes-or Less!;
  • Learn PowerShell Toolmaking in a Month of Lunches.

An outline of brain function. Cognitive Brain Research , 12 , 61— Goldman-Rakic, P.

Working memory and the mind. Scientific American , , — Goodwin, D. Alcohol as muse.

ICN Events

American Journal of Psychotherapy , 46 , — Gruber, H. Darwin on man: A psychological study of scientific creativity. Chicago: University of Chicago Press. Guilford, J. American Psychologist , 5 , — The nature of human intelligence. New York: McGraw-Hill.

Search form

Is some creative thinking irrational? Journal of Creative Behavior , 16 , — Halford, G. Processing capacity defined by relational complexity: Implications for comparative, developmental, and cognitive psychology. Hartman, E. The psychophysiology of free will. Lowenstein, L. Solnit Eds. New York: International University Press. Hasegawa, I. Memory retrieval under the control of the prefrontal cortex. Annals of Medicine , 31 , — Hayes, R. Cognitive processes in creativity.

Glover, R. Reynolds Eds. New York: Plenum.

Cognitive Neuroscience (CogNeuro)

Hebb, D. Intelligence in man after large removal of cerebral tissue: Report of four left frontal lobe cases. Journal of General Psychology , 21 , 73— Hobson, J. The dreaming brain. The brain as a dream-state generator: An activation-synthesis hypothesis of the dream process. American Journal of Psychiatry , , — Dreaming and the brain: Toward a cognitive neuroscience of conscious states.

Hull, D. Jamison, K. Touched by fire: Manic depressive illness and the artistic temperament. New York: Free Press. Janowsky, J. Source memory impairment in patients with frontal lobe lesions. Neuropsychologia , 27 , — Jasper, H.

Psychological Sciences

A historical perspective: The rise and fall of prefrontal lobotomy. Advances in Neurology , 66 , 97— Kane, M. A controlled-attention view of working-memory capacity. Journal of Experimental Psychology: General , , — Katz, A. The relationship between creativity and cerebral hemisphericity for creative architects, scientists, and mathematicians.

Empirical Studies of the Arts , 4 , 97— Keenan, J. Self-recognition and the right prefrontal cortex. Kesner, R. Dissociation of item and order spatial memory in rats following medial prefrontal cortex lesions. Neuropsychologia , 25 , — Kikyo, H. Kinsbourne, M. Hemispheric specialization and the growth of human understanding. American Psychologist , 37 , — Knight, R. Prefrontal cortex, time, and consciousness.

Gazzaniga Ed. Knoblich, G. Constraint relaxation and chunk decomposition in insight problem solving. Koechlin, E. The role of the anterior prefrontal cortex in human cognition. Nature , , — Koestler, A. The act of creation. New York: Macmillan. Kolb, B. Functions of the prefrontal cortex in the rat: A comparative view. Brain Research Review , 8 , 65— Problems and principles in crossspecies generalizations. Robinson Ed. Konishi, S. Transient activation of the inferior prefrontal cortex during cognitive set shifting.

Nature Neuroscience , 1 , 80— Kornhuber, H. Prefrontal cortex and homo-sapiens-on creativity and reasoned will. Kuhn, T. The structure of scientific revolutions 2nd ed. LeDoux, J. The emotional brain. New York: Touchstone.