2009 [top]

• Wang X-J (2009) [English version] [Chinese version]
  Introduction to computational neuroscience.
  

• Lo CC, Boucher L, Paré M, Schall JD, Wang X-J (2009) [PDF]
  Proactive inhibitory control and attractor dynamics in countermanding action: a spiking neural circuit model
  J. Neurosci. 29: 9059-71
  Neuro Forum by Ballanger B (2009) [PDF]
  Top-down control of saccades as part of a generalized model of proactive inhibitory control
  J. Neurophysiol., 102: 2578-2580
  

• Vasilaki E, Fusi S, Wang X-J, Senn W (2009) [PDF]
  Learning flexible sensori-motor mappings in a complex network
  Biol. Cybern. 100: 147-58
  

2008 [top]

• Furman M and Wang X-J (2008) [PDF]
  Similarity effect and optimal control of multiple-choice decision making
  Neuron 60: 1153-1168
  Neuro Forum by Morita K (2009) [PDF]
  Dynamical foundations of the neural circuit for bayesian decision making
  J. Neurophysiol., 102: 1-6
  

• Liu F and Wang X-J (2008) [PDF]
  A common cortical circuit mechanism for perceptual categorical discrimination and veridical judgment
  PLoS Comput. Biol. 4: e1000253. doi:10.1371/journal.pcbi.1000253
  

• Wang H, Stradtman GG III, Wang X-J, Gao W-J (2008) [PDF]
  A specialized NMDA receptor function in layer 5 recurrent microcircuitry of the adult rat prefrontal cortex
  Proc. Natl. Acad. Sci. (USA) 105: 16791-16796
  

• Köndgen H, Geisler C, Fusi S, Wang X-J, Lüscher H-R, Giugliano M (2008) [PDF]
  The dynamical response properties of neocortical neurons to temporally modulated noisy inputs in vitro
  Cerebral Cortex 18: 2086-2097
  

• Luhman CC, Chun MM, Yi D-J, Lee D, Wang X-J (2008) [PDF]
  Neural dissociation of delay and uncertainty in intertemporal choice
  J. Neurosci. 28: 14459-14466
  Journal Club by Engelmann JB and Brooks AM (2008) [PDF]
  Behavioral and neural effects of delays during intertemporal choice are independent of probability
  J. Neurosci., 29: 6055-6057
  

• Wang X-J (2008) [PDF]
  Decision making in recurrent neuronal circuits
  Neuron 60: 215-234
  

• Soltani A, Wang X-J (2008) [PDF]
  From biophysics to cognition: reward-dependent adaptive choice behavior
  Current Opinion in Neurobiology 18: 1-8. doi:10.1016/j.conb.2008.07.003
  

• Lee D and Wang X-J (2008) [PDF]
  Mechanisms for stochastic decision making in the primate frontal cortex: single-neuron recording and circuit modeling
  In Neuroeconomics: Decision Making and the Brain Edited by Glimcher PW, Camerer CF, Fehr E and Poldrack RA. Academic Press, London.
  

• Wang X-J (2008) [PDF]
  Attractor network models
  In Encyclopedia of Neuroscience, volume 1, pp. 667-679 Edited by Squire LR. Oxford: Academic Press.
  

• Goldman MS, Compte A, Wang X-J (2008) [PDF]
  Neural integrator models
  In Encyclopedia of Neuroscience, volume 6, pp. 165-178 Edited by Squire LR. Oxford: Academic Press.
  
  

2007 [top]

• Wang X-J, Barbas H, Knight RT (2007) [PDF]
  Dynamic landscape of the frontal lobe: a tribute to Patricia S. Goldman-Rakic
  Cerebral Cortex 17: i4-i5
  

• Wong K-F, Huk AC, Shadlen MN and Wang X-J (2007) [PDF]
  Neural circuit dynamics underlying accumulation of time-varying evidence during perceptual decision-making.
  Front. Comput. Neurosci., 1:6. doi: 10.3389/neuro.10/006.2007
  

• Carter E, Wang X-J (2007) [PDF]
  Cannabinoid-mediated disinhibition and working memory: dynamical interplay of multiple feedback mechanisms in a continuous attractor model of prefrontal cortex.
  Cerebral Cortex 17: i16-i26
  

• Ardid S, Wang X-J, Compte A (2007) [PDF] [Supplementary]
  An integrated microcircuit model of attentional processing in the neocortex.
  J. Neurosci., 27: 8486-8495
  

• Fusi S., Asaad WF, Miller EK, Wang X-J (2007) [PDF]
  A neural circuit model of flexible sensorimotor mapping: learning and forgetting on multiple timescales.
  Neuron, 54: 319-333
  

• Renart A, Moreno-Bote R, Wang X-J, Parga N (2007) [PDF]
  Mean-driven and fluctuation-driven persistent activity in recurrent networks.
  Neural Computation, 19: 1-46
  
  

2006 [top]

• Soltani A, Lee D and Wang X-J (2006) [PDF]
  Neural mechanism for stochastic behavior during a competitive game.
  Neural Networks, 19: 1075-1090
  
  
• Miller P and Wang X-J (2006) [PDF]
  Stability of discrete memory states to stochastic fluctuations in neuronal systems
  Chaos, 16: 026109
  
  
• Lo C-C and Wang X-J (2006) [PDF] [Supplementary]
  Cortico-basal ganglia circuit mechanism for a decision threshold in reaction time tasks.
  Nat. Neurosci., 9: 956-963
  News and Views by Kiani R, Hanks TD and Shadlen MN (2006) [PDF]
  When is enough enough? Nat. Neurosci., 9: 861-863
  
  
• Wang X-J (2006) [PDF]
  Toward a prefrontal microcircuit model for cognitive deficits in schizophrenia.
  Pharmacopsychiatry, 39 Suppl 1: S80-S87
  
  
• Soltani A and Wang X-J (2006) [PDF] [Supplementary]
  A biophysically-based neural model of matching law behavior: melioration by stochastic synapses.
  J. Neurosci., 26: 3731-3744
  
  
• Miller P and Wang X-J (2006) [PDF]
  Power-law neuronal fluctuations in a recurrent network model of parametric working memory.
  J. Neurophysiol., 95: 1099-1114
  
  
• Wong K-F and Wang X-J (2006) [PDF] [Supplementary]
  A recurrent network mechanism of time integration in perceptual decisions.
  J. Neurosci., 26: 1314-1328
  
  
• Miller P and Wang X-J (2006) [PDF] [Supporting Information]
  Inhibitory control by an integral feedback signal in prefrontal cortex: a model of discrimination between sequential stimuli.
  PNAS, 103: 201-206
  
  
• Compte A and Wang X-J (2006) [PDF]
  Tuning curve shift by attention modulation in cortical neurons: a computational study of its mechanisms.
  Cerebral Cortex, 16: 761-778
  
  
• Wang X-J (2006) [PDF]
  A microcircuit model of prefrontal functions: Ying and Yang of reverberatory neurodynamics in cognition.
  In The Prefrontal Lobes: Development, Function and Pathology, Edited by J Risberg, J Grafman and F Boller, Cambridge University Press.
  
  

2005 [top]

• Geisler C, Brunel N, Wang X-J (2005) [PDF]
  Contributions of intrinsic membrane dynamics to fast network oscillations with irregular neuronal discharges.
  J. Neurophysiol., 94: 4344-4361
  
  
• Wang X-J (2005) [PDF]
  Discovering spatial working memory fields in prefrontal cortex.
  J. Neurophysiol., 93: 3027-3028
  
  
• Miller P, Zhabotinsky AM, Lisman JE, Wang X-J (2005) [PDF]
  The stability of a stochastic CaMKII switch: dependence on the number of enzyme molecules and protein turnover.
  PLoS Biol. 3:e107
  
  
• Song P, Wang X-J (2005) [PDF] [QuickTime Movie] [C++ Code]
  Angular path integration by moving "hill of activity": a spiking neuron model without recurrent excitation of the head-direction system.
  J. Neurosci., 25: 1002-1014
  
  

2004 [top]

• Constantinidis C, Wang X-J (2004) [PDF]
  A neural circuit basis for spatial working memory.
  Neuroscientist 10, 553-565
  
  
• Buzsaki G, Geisler C, Henze DA, Wang X-J (2004) [PDF]
  Interneuron diversity series: circuit complexity and axon wiring economy of cortical interneurons.
  Trends in Neurosci., 27, 186-193
  
  
• Wang X-J, Tegner J, Constantinidis C, Goldman-Rakic PS (2004) [PDF] [Supporting Text]
  Division of labor among distinct subtypes of inhibitory neurons in a cortical microcircuit of working memory.
  Proc. Natl. Acad. Sci. (USA), 101, 1368-1373
  
  

2003 [top]

• Wang X-J (2003) [PDF]
  Neural oscillations.
  in Encyclopedia of Cognitive Science, MacMillan Reference Ltd, 2003
  
  
• Compte A, Constantinidis C, Tegner J, Raghavachari S, Chafee MV, Goldman-Rakic PS and Wang X-J (2003) [PDF]
  Temporally irregular mnemonic persistent activity in prefrontal neurons of monkeys during a delayed response task.
  J. Neurophysiol., 90, 3441-3454
  
  
• Renart A, Brunel N and Wang X-J (2003) [PDF] [Book Cover]
  Mean-field theory of recurrent cortical networks: from irregularly spiking neurons to working memory.
  in Computational Neuroscience: A Comprehensive Approach., J. Feng Ed., CRC Press, Boca Raton.
  
  
• Renart A, Song P and Wang X-J (2003) [PDF]
  Robust spatial working memory through homeostatic synaptic scaling in heterogeneous cortical networks.
  Neuron, 38, 473-485
  
  
• Brunel N and Wang X-J (2003) [PDF]
  What determines the frequency of fast network oscillations with irregular neural discharges? I. Synaptic dynamics and excitation-inhibition balance.
  J. Neurophysiol., 90, 415-430
  
  
• Wang X-J, Liu Y, Sanchez-Vives MV and McCormick DA (2003) [PDF]
  Adaptation and temporal decorrelation by single neurons in the primary visual cortex.
  J. Neurophysiol., 89, 3279-3293
  
  
• Compte A, Sanchez-Vives MV, McCormick DA and Wang X-J (2003) [PDF]
  Cellular and network mechanisms of slow oscillatory activity (< 1 Hz) in a cortical network model.
  J. Neurophysiol., 89, 2707-2725
  
  
• Miller P, Brody CD, Romo R and Wang X-J (2003) [PDF] [ERRATUM]
  A recurrent network model of somatosensory parametric working memory in the prefrontal cortex.
  Cerebral Cortex, 13, 1208-1218
  
  

2002 [top]

• Wang X-J (2002) [PDF]
  Probabilistic decision making by slow reverberation in cortical circuits.
  Neuron, 36, 955-968
  
  
• Kepecs A, Wang X-J and Lisman J (2002) [PDF]
  Slope detection by bursts: a dendritic computation.
  J. Neurosci., 22, 9053-9062
  
  
• Tegner J, Compte A and Wang X-J (2002) [PDF]
  The dynamical stability of reverberatory neural circuits.
  Biol. Cybern., 87, 471-481
  
  
• Wang X-J (2002) [PDF]
  Pacemaker neurons for the theta rhythm and their synchronization in the septohippocampal reciprocal loop.
  J Neurophysiol., 87, 889-900.
  
  

2001 [top]

• Wang X-J (2001a) [PDF]
  Synaptic reverberation underlying mnemonic persistent activity.
  Trends in Neurosci. 24, 455-463
  
  
• Brunel N and Wang X-J (2001) [PDF] [PS]
  Effects of neuromodulation in a cortical network model of object working memory dominated by recurrent inhibition.
  J. Comput. Neurosci. 11, 63-85.
  
  
• Liu YH and Wang X-J (2001) [PDF] [PS]
  Spike-frequency adaptation of a generalized integrate-and fire model neuron.
  J. Comput. Neurosci., 10, 25-45
  
  

2000 [top]

• Kepecs A and Wang X-J (2000) [PDF]
  Analysis of complex bursting in cortical pyramidal neuron models.Neurocomputing. 32-33, 181-187.
  
  
• Compte A, Brunel N, Goldman-Rakic PS and Wang X-J (2000) [PDF]
  Synaptic mechanisms and network dynamics underlying visuospatial working memory in a cortical network model.
  Cerebral Cortex 10, 910-923
  
  
• Hempel CM, Hartman KH, Wang X-J, Turrigiano GG and Nelson SB (2000) [PDF]
  Multiple forms of short-term plasticity at excitatory synapses in rat medial prefrontal cortex.
  J. Neurophysiol. 83, 3031-3041.
  
  
• Matveev V and Wang X-J (2000a) [PDF]
  Implications of all-or-none synaptic transmission and short-term depression beyond vesicle depletion: a computational study.
  J. Neurosci. 20, 1575-1588.
  
  
• Matveev V and Wang X-J (2000b) [PDF]
  Differential short-term synaptic plasticity and transmission of complex spike trains: to depress or to facilitate?
  Cerebral Cortex. 10, 1143-1153.
  
  

1999 [top]

• Wang X-J (1999a) [PDF]
  Fast burst firing and short-term synaptic plasticity: a model of neocortical chattering neurons.
  Neuroscience 89:347-362.
  
  
• Wang X-J (1999b) [PDF]
  Synaptic basis of cortical persistent activity: the importance of NMDA receptors to working memory.
  J. Neurosci. 19, 9587-9603.
  
  

1998 [top]

• Chen Z, Ermentrout GB and Wang X-J (1998) [PDF]
  Wave propagation mediated by GABAB synapse and rebound excitation in an inhibitory network: a reduced model approach.
  J. Comput. Neurosci. 5, 53-69.
  
  
• Rinzel J, Terman D, Wang X-J and Ermentrout GB (1998) [PDF]
  Propagating activity patterns in large-scale inhibitory neuronal networks.
  Science 279, 1351-1355.
  
  
• Kamondi A., Acsady L., Wang X-J, Buzsaki G (1998) [PDF]
  Theta oscillations in somata and dendrites of hippocampal pyramidal cells in vivo: activity-dependent phase-precession of action potentials. Hippocampus8:244-261.
  
  
• Lisman JE, Fellous J-M, Wang X-J (1998) [PDF]
  A role for NMDA-receptor channels in working memory.
  Nat. Neurosci. 1:273-275.
  
  
• Camperi M, Wang X-J (1998) [PDF] [PS]
  A model of visuospatial working memory in prefrontal cortex: recurrent network and cellular bistability.
  J. Comput. Neurosci. 5:383-405.
  
  
• Wang X-J (1998) [PDF]
  Calcium coding and adaptive temporal computation in cortical pyramidal neurons.
  J. Neurophysiol. 79: 1549-1566.
  
  

1997 [top]

• Camperi M and Wang X-J (1997)
  Modeling delay-period activity in the prefrontal cortex during working memory tasks.
  in Computational Neuroscience: Trends in Research 1997 J. Bower ed., Plenum Press, pp. 273-279.
  
  

1996 [top]

• Golomb D, Wang X-J, Rinzel J (1996) [PDF]
  Propagation of spindle waves in a thalamic slice model.
  J. Neurophysiol. 75:750-769.
  
  
• Wang, X-J and Buzsáki G (1996) [PDF]
  Gamma oscillations by synaptic inhibition in a hippocampal interneuronal network.
  J. Neurosci. 16, 6402-6413.
  
  

1995 [top]

• Golomb D, Wang X-J, and Rinzel J (1995)
  Partial and full synchrony of thalamic spindle oscillations,
  In Computation in Neurons and Neural Systems, edited by J. Bower. Boston, MA: Kluwer, 1995, p. 215-220.
  
  
• Wang X-J and Rinzel J (1995) [PDF]
  Oscillatory and bursting properties of neurons.
  in Handbook of Brain Theory and Neural Networks, edited by M. Arbib, MIT press, 686-691.
  
  
• Wang, X-J, Golomb, D. and Rinzel, J. (1995) [PDF]
  Emergent spindle oscillations and intermittent burst firing in a thalamic model: specific neuronal mechanisms.
  Proc. Natl. Acad. Sci.(USA) 92, 5577-5581.
  
  

1994 [top]

• Llinás RR, Ribary U, Joliot M and Wang X-J(1994) [PDF]
  Content and context in temporal thalamocortical binding.
  in Temporal Coding in the Brain, G. Buzsáki, R.R. Llinás, W. Singer et al. eds., Springer-Verlag, 251-272.
  
  
• Golomb D, Wang X-J and Rinzel J (1994) [PDF]
  Synchronization properties of spindle oscillations in a thalamic reticular nucleus model.
  J. Neurophysiol. 72, 1109-1126.
  
  
• Wang X-J (1994)
  Multiple dynamical modes of thalamic relay neurons: rhythmic bursting and intermittent phase-locking.
  Neuroscience 59, 21-31.
  
  

1993 [top]

• Wang X-J and Rinzel J (1993) [PDF Scan]
  Spindle rhythmicity in the reticularis thalami nucleus: synchronization among mutually inhibitory neurons.
  Neuroscience 53, 899-904.
  
  
• Wang X-J (1993) [PDF]
  Genesis of bursting oscillations in the Hindmarsh-Rose model and homoclinicity to a chaotic saddle.
  Physica D, Special Issue on Homoclinic Chaos, 62, 263-274.
  
  
• Wang X-J (1993) [PDF Scan]
  Ionic basis for intrinsic 40 Hz neuronal oscillations.
  NeuroReport 5, 221-224.
  
  

1992 [top]

• Wang X-J and Rinzel J (1992) [PDF Scan]
  Alternating and synchronous rhythms in reciprocally inhibitory model neurons.
  Neural Computat. 4, 84-97.
  
  

1991 [top]

• Wang X-J. (1991)
  Spontaneous activity in a large neural net: between chaos and noise. in Self-Organization, Emergent Properties and Learning edited by A. Babloyantz, Plenum Press , 155-160.
  
  
• Wang X-J, Rinzel J and Rogawski MA. (1991)
  Low threshold spikes and rhythmic oscillations in thalamic neurons. in Analysis and Modeling of Neural Systems edited by F. H. Eeckman et al , 85-91.
  
  
• Wang X-J, Rinzel J and Rogawski MA. (1991) [PDF]
  A model of the T-type calcium current and the low-threshold spike in thalamic neurons.
  J. Neurophysiol 66, 839-850.
  
  

• Wang X-J (1995)
  Sporadic chaos in spacetime dynamical processes.
  Phys. Rev. E 52, 1318-1324.
  
  
• Wang X-J and Hu C-K (1993)
  Anomalous diffusion in dynamical systems: transport coefficients of all order.
  Phys. Rev. E 48, 728-733.
  
  
• Gaspard P and Wang X-J (1993) [PDF]
  Noise, chaos, and $(\tau, \epsilon)$-entropy per unit time.
  Phys. Rep. 235, issue 6, 321-373.
  
  
• Wang X-J and Gaspard P (1992)
  Epsilon-entropy analysis for a time series of thermal turbulence.
  Phys. Rev. A Rapid Communications 46, R3000-3003.
  
  
• Wang X-J (1992)
  Dynamical sporadicity and anomalous diffusion the Levy motion.
  Phys. Rev. A 45, 8407-8417.
  
  
• Wang X-J and Gaspard P(1990)
  Homoclinicity and multi-modal periodic or chaotic oscillations in chemical kinetics.
  in Spatial Inhomogeneity and Transient Behaviours in Chemical Kinetics , edited by P. Gray et al, Manchester University Press, 687-690.
  
  
• Wang X-J (1990)
  Intermittent fluctuations and complexity.
  in Complexity, Entropy, and the Physics of Information, SFI Studies in the Sciences of Complexity, vol. VIII , edited by W. H. Zurek, Addison-Wesley (1990), p. 319-329.
  
  
• Wang X-J (1990)
  The Newhouse set has a positive Hausdorff dimension.
  Commun. Math. Phys. 131, 317-332.
  
  
• Wang X-J (1989)
  Statistical physics of temporal intermittency.
  Phys. Rev. A 40, 6647-6661.
  
  
• Wang X-J (1989)
  Abnormal fluctuations and thermodynamic phase transition in dynamical systems.
  Phys. Rev. A. Rapid Communications 39, 3214-3217.
  
  
• Wang X-J (1989)
  Chaotic oscillations of cool flames.
  Combustion and Flame 75, 107-109.
  
  
• Gaspard P and Wang X-J (1988) [PDF]
  Sporadicity: between periodic and chaotic dynamical systems.
  Proc. Natl. Acad. Sci. (USA) 85, 4591-4595
  
  
• Gaspard P and Wang X-J (1987)
  Homoclinic orbits and mixed-mode oscillations in far from equilibrium systems.
  J. Stat. Phys. 48, 151-199.
  
  
• Wang X-J and Nicolis G (1987)
  Bifurcation phenomena in coupled chemical oscillators: normal form analysis and numerical simulations.
  Physica D 26, 140-155.
  
  
• Wang X-J and Mou CY (1985) [PDF]
  A thermokinetic model of complex oscillations in gaseous hydrocarbon oxidation.
  J. Chem. Phys. 83, 4554-4561.
  
  
• Wang X-J (1985)
  Chaotic phenomena in dissipative systems.
  Physics (Beijing) 14, 199-205 (in Chinese).
  
  

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