Adjamian P, Hadjipapas A, Barnes GR et al (2008) Induced gamma activity in primary visual cortex is related to luminance and not color contrast: an MEG study. J Vis 8(7):1–7
Araki O, Tsuruoka Y, Urakawa T (2020) A neural network model for exogenous perceptual alternations of the Necker cube. Cogn Neurodyn 14(11):229–237
Bartos M, Vida I, Jonas P (2007) Synaptic mechanisms of synchronized gamma oscillations in inhibitory interneuron networks. Nat Rev Neurosci 8(1):45–56
Brunel N, Wang XJ (2003) What determines the frequency of fast network oscillations with irregular neural discharges? J Neurophysiol 90:415–430
Burns SP, Xing D, Shapley RM (2011) Is gamma-band activity in the local field potential of V1 cortex a ‘clock’ or filtered noise? J Neurosci 31(26):9658–9664
Dayan P, Abbott LF (2001) Theoretical neuroscience: computational and mathematical modeling of neural systems. MIT Press, Cambridge
Henrie J, Shapley R (2005) LFP power spectra in V1 cortex: the graded effect of stimulus contrast. J Neurophysiol 94:479–490
Hipp JF, Engel AK, Siegel M (2011) Oscillatory synchronization in large-scale cortical networks predicts perception. Neuron 69(2):387–396
Jadi MP, Sejnowski TJ (2014a) Cortical oscillations arise from contextual interactions that regulate sparse coding. Proc Natl Acad Sci 111(18):6780–6785
Jadi MP, Sejnowski TJ (2014b) Regulating cortical oscillations in an inhibition-stabilized network. Proc IEEE 102(5):830–842
Kim S, Lim W (2018) Effect of spike-timing-dependent plasticity on stochastic burst synchronization in a scale-free neuronal network. Cogn Neurodyn 12(3):315–342
Kim S, Lim W (2020) Effect of interpopulation spike-timing-dependent plasticity on synchronized rhythms in neuronal networks with inhibitory and excitatory populations. Cogn Neurodyn. https://doi.org/10.1007/s11571-020-09580-y
Malagarriga D, Pons AJ, Villa AEP (2019) Complex temporal patterns processing by a neural mass model of a cortical column. Cogn Neurodyn 13:379–392
Neymotin SA, Lee H, Park E, Fenton AA et al (2011) Emergence of physiological oscillation frequencies in a computer model of neocortex. Front Comput Neurosci 5:19
Orekhova EV, Butorina AV, Sysoeva OV et al (2015) Frequency of gamma oscillations in humans is modulated by velocity of visual motion. J Neurophysiol 114(1):244–255
Perry G, Randle JM, Koelewijn L et al (2015) Linear tuning of gamma amplitude and frequency to luminance contrast: evidence from a continuous mapping paradigm. PLoS ONE 10(4):e0124798
Ray S, Maunsell JH (2010) Differences in gamma frequencies across visual cortex restrict their possible use in computation. Neuron 67(5):885–896
Ray S, Maunsell JH (2011) Different origins of gamma rhythm and high-gamma activity in macaque visual cortex. PLoS Biol 9(4):e1000610
Sacerdote L, Giraudo MT (2013) Stochastic integrate and fire models: a review on mathematical methods and their applications. Quant Biol 2058:99–148
Saleem AB, Lien AD, Krumin M et al (2017) Subcortical source and modulation of the narrowband gamma oscillation in mouse visual cortex. Neuron 93(2):315–322
Tiesinga P, Sejnowski TJ (2009) Cortical enlightenment: are attentional gamma oscillations driven by ING or PING? Neuron 63(6):727–732
Vida I, Bartos M, Jonas P (2006) Shunting inhibition improves robustness of gamma oscillations in hippocampal interneuron networks by homogenizing firing rates. Neuron 49(1):107–117
Wallace E, Benayoun M, Drongelen WV et al (2011) Emergent oscillations in networks of stochastic spiking neurons. PLoS ONE 6:e14804
Wang XJ, Buzsáki G (1996) Gamma oscillation by synaptic inhibition in hippocampal interneuronal network model. J Neurosci 16(20):6402–6413