Directed interactions between visual areas and their role in processing image structure and expectancy

Salazar RF, Konig P, Kayser C (2004)
Eur J Neurosci 20(5): 1391-401.

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Eur J Neurosci
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5
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1391-401
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Salazar RF, Konig P, Kayser C. Directed interactions between visual areas and their role in processing image structure and expectancy. Eur J Neurosci. 2004;20(5):1391-401.
Salazar, R. F., Konig, P., & Kayser, C. (2004). Directed interactions between visual areas and their role in processing image structure and expectancy. Eur J Neurosci, 20(5), 1391-401. doi:10.1111/j.1460-9568.2004.03579.x
Salazar, R. F., Konig, P., and Kayser, C. (2004). Directed interactions between visual areas and their role in processing image structure and expectancy. Eur J Neurosci 20, 1391-401.
Salazar, R.F., Konig, P., & Kayser, C., 2004. Directed interactions between visual areas and their role in processing image structure and expectancy. Eur J Neurosci, 20(5), p 1391-401.
R.F. Salazar, P. Konig, and C. Kayser, “Directed interactions between visual areas and their role in processing image structure and expectancy”, Eur J Neurosci, vol. 20, 2004, pp. 1391-401.
Salazar, R.F., Konig, P., Kayser, C.: Directed interactions between visual areas and their role in processing image structure and expectancy. Eur J Neurosci. 20, 1391-401 (2004).
Salazar, R. F., Konig, P., and Kayser, Christoph. “Directed interactions between visual areas and their role in processing image structure and expectancy”. Eur J Neurosci 20.5 (2004): 1391-401.

12 Zitationen in Europe PMC

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Modelling and analysis of local field potentials for studying the function of cortical circuits.
Einevoll GT, Kayser C, Logothetis NK, Panzeri S., Nat Rev Neurosci 14(11), 2013
PMID: 24135696
Cross validation for selection of cortical interaction models from scalp EEG or MEG.
Cheung BL, Nowak R, Lee HC, van Drongelen W, Van Veen BD., IEEE Trans Biomed Eng 59(2), 2012
PMID: 22084038
Analyzing multiple spike trains with nonparametric Granger causality.
Nedungadi AG, Rangarajan G, Jain N, Ding M., J Comput Neurosci 27(1), 2009
PMID: 19137420
Transient cortical excitation at the onset of visual fixation.
Rajkai C, Lakatos P, Chen CM, Pincze Z, Karmos G, Schroeder CE., Cereb Cortex 18(1), 2008
PMID: 17494059
Causal measures of structure and plasticity in simulated and living neural networks.
Cadotte AJ, DeMarse TB, He P, Ding M., PLoS One 3(10), 2008
PMID: 18839039
Mapping information flow in sensorimotor networks.
Lungarella M, Sporns O., PLoS Comput Biol 2(10), 2006
PMID: 17069456
Nonlinear multivariate analysis of neurophysiological signals.
Pereda E, Quiroga RQ, Bhattacharya J., Prog Neurobiol 77(1-2), 2005
PMID: 16289760

66 References

Daten bereitgestellt von Europe PubMed Central.

Task difficulty and the specificity of perceptual learning.
Ahissar M, Hochstein S., Nature 387(6631), 1997
PMID: 9163425
Dependence of cortical plasticity on correlated activity of single neurons and on behavioral context.
Ahissar E, Vaadia E, Ahissar M, Bergman H, Arieli A, Abeles M., Science 257(5075), 1992
PMID: 1529342

AUTHOR UNKNOWN, 0
Partial directed coherence: a new concept in neural structure determination.
Baccala LA, Sameshima K., Biol Cybern 84(6), 2001
PMID: 11417058
The world from a cat's perspective--statistics of natural videos.
Betsch BY, Einhauser W, Kording KP, Konig P., Biol Cybern 90(1), 2004
PMID: 14762723
The Psychophysics Toolbox.
Brainard DH., Spat Vis 10(4), 1997
PMID: 9176952
The role of feedback connections in shaping the responses of visual cortical neurons.
Bullier J, Hupe JM, James AC, Girard P., Prog. Brain Res. 134(), 2001
PMID: 11702544
Learning to see: experience and attention in primary visual cortex.
Crist RE, Li W, Gilbert CD., Nat. Neurosci. 4(5), 2001
PMID: 11319561
Dynamic predictions: oscillations and synchrony in top-down processing.
Engel AK, Fries P, Singer W., Nat. Rev. Neurosci. 2(10), 2001
PMID: 11584308
Distributed hierarchical processing in the primate cerebral cortex.
Felleman DJ, Van Essen DC., Cereb. Cortex 1(1), 1991
PMID: 1822724
Discrete coding of reward probability and uncertainty by dopamine neurons.
Fiorillo CD, Tobler PN, Schultz W., Science 299(5614), 2003
PMID: 12649484
Testing non-linearity and directedness of interactions between neural groups in the macaque inferotemporal cortex.
Freiwald WA, Valdes P, Bosch J, Biscay R, Jimenez JC, Rodriguez LM, Rodriguez V, Kreiter AK, Singer W., J. Neurosci. Methods 94(1), 1999
PMID: 10638819
Synchronization of oscillatory responses in visual cortex correlates with perception in interocular rivalry.
Fries P, Roelfsema PR, Engel AK, Konig P, Singer W., Proc. Natl. Acad. Sci. U.S.A. 94(23), 1997
PMID: 9356513
Contour decouples gamma activity across texture representation in monkey striate cortex.
Gail A, Brinksmeyer HJ, Eckhorn R., Cereb. Cortex 10(9), 2000
PMID: 10982745
The role of feedback in shaping neural representations in cat visual cortex.
Galuske RA, Schmidt KE, Goebel R, Lomber SG, Payne BR., Proc. Natl. Acad. Sci. U.S.A. 99(26), 2002
PMID: 12477930
A neuronal learning rule for sub-millisecond temporal coding.
Gerstner W, Kempter R, van Hemmen JL, Wagner H., Nature 383(6595), 1996
PMID: 8779718

Geweke, J. Am. Stat. Assoc. 77(), 1982

Granger, Inf. Control 6(), 1963

Granger, Econometrica 37(), 1969

AUTHOR UNKNOWN, 0

Haykin, 1983
Precisely synchronized oscillatory firing patterns require electroencephalographic activation.
Herculano-Houzel S, Munk MH, Neuenschwander S, Singer W., J. Neurosci. 19(10), 1999
PMID: 10234029
Feedback connections act on the early part of the responses in monkey visual cortex.
Hupe JM, James AC, Girard P, Lomber SG, Payne BR, Bullier J., J. Neurophysiol. 85(1), 2001
PMID: 11152714
Cortical feedback improves discrimination between figure and background by V1, V2 and V3 neurons.
Hupe JM, James AC, Payne BR, Lomber SG, Girard P, Bullier J., Nature 394(6695), 1998
PMID: 9723617

Jenkins, 1968
Responses to natural scenes in cat V1.
Kayser C, Salazar RF, Konig P., J. Neurophysiol. 90(3), 2003
PMID: 12750423
The distinct modes of vision offered by feedforward and recurrent processing.
Lamme VA, Roelfsema PR., Trends Neurosci. 23(11), 2000
PMID: 11074267
Feedforward, horizontal, and feedback processing in the visual cortex.
Lamme VA, Super H, Spekreijse H., Curr. Opin. Neurobiol. 8(4), 1998
PMID: 9751656
Synchronized activity in prefrontal cortex during anticipation of visuomotor processing.
Liang H, Bressler SL, Ding M, Truccolo WA, Nakamura R., Neuroreport 13(16), 2002
PMID: 12438916
Causal influences in primate cerebral cortex during visual pattern discrimination.
Liang H, Ding M, Nakamura R, Bressler SL., Neuroreport 11(13), 2000
PMID: 11006957
Shape representation in the inferior temporal cortex of monkeys.
Logothetis NK, Pauls J, Poggio T., Curr. Biol. 5(5), 1995
PMID: 7583105
Reversible inactivation of visual processing operations in middle suprasylvian cortex of the behaving cat.
Lomber SG, Cornwell P, Sun JS, MacNeil MA, Payne BR., Proc. Natl. Acad. Sci. U.S.A. 91(8), 1994
PMID: 8159694
Dynamics of striate cortical activity in the alert macaque: II. Fast time scale synchronization.
Maldonado PE, Friedman-Hill S, Gray CM., Cereb. Cortex 10(11), 2000
PMID: 11053232
Regulation of synaptic efficacy by coincidence of postsynaptic APs and EPSPs.
Markram H, Lubke J, Frotscher M, Sakmann B., Science 275(5297), 1997
PMID: 8985014
Cortical plasticity and memory.
Merzenich MM, Sameshima K., Curr. Opin. Neurobiol. 3(2), 1993
PMID: 8513231
The effect of reversible cooling of cat's primary visual cortex on the responses of area 21a neurons.
Michalski A, Wimborne BM, Henry GH., J. Physiol. (Lond.) 466(), 1993
PMID: 8410689
Synchronization of neuronal activity during stimulus expectation in a direction discrimination task.
de Oliveira SC, Thiele A, Hoffmann KP., J. Neurosci. 17(23), 1997
PMID: 9364071
Topographic reorganization of the hand representation in cortical area 3b owl monkeys trained in a frequency-discrimination task.
Recanzone GH, Merzenich MM, Jenkins WM, Grajski KA, Dinse HR., J. Neurophysiol. 67(5), 1992
PMID: 1597696
Spike synchronization and rate modulation differentially involved in motor cortical function.
Riehle A, Grun S, Diesmann M, Aertsen A., Science 278(5345), 1997
PMID: 9395398
Visuomotor integration is associated with zero time-lag synchronization among cortical areas.
Roelfsema PR, Engel AK, Konig P, Singer W., Nature 385(6612), 1997
PMID: 8990118

Rosenquist, 1985
Short-term response variability of monkey striate neurons.
Schiller PH, Finlay BL, Volman SF., Brain Res. 105(2), 1976
PMID: 816424
Practising orientation identification improves orientation coding in V1 neurons.
Schoups A, Vogels R, Qian N, Orban G., Nature 412(6846), 2001
PMID: 11484056
Predictive reward signal of dopamine neurons.
Schultz W., J. Neurophysiol. 80(1), 1998
PMID: 9658025
Multiple reward signals in the brain.
Schultz W., Nat. Rev. Neurosci. 1(3), 2000
PMID: 11257908
Getting formal with dopamine and reward.
Schultz W., Neuron 36(2), 2002
PMID: 12383780
Top-down processing mediated by interareal synchronization.
von Stein A, Chiang C, Konig P., Proc. Natl. Acad. Sci. U.S.A. 97(26), 2000
PMID: 11121074

AUTHOR UNKNOWN, 0
Dynamics of neuronal interactions in monkey cortex in relation to behavioural events.
Vaadia E, Haalman I, Abeles M, Bergman H, Prut Y, Slovin H, Aertsen A., Nature 373(6514), 1995
PMID: 7845462
Information processing in the primate visual system: an integrated systems perspective.
Van Essen DC, Anderson CH, Felleman DJ., Science 255(5043), 1992
PMID: 1734518
The response variability of striate cortical neurons in the behaving monkey.
Vogels R, Spileers W, Orban GA., Exp Brain Res 77(2), 1989
PMID: 2792290
Dopamine responses comply with basic assumptions of formal learning theory.
Waelti P, Dickinson A, Schultz W., Nature 412(6842), 2001
PMID: 11452299

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