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186 related items for PubMed ID: 23447596

  • 1. The sparseness of mixed selectivity neurons controls the generalization-discrimination trade-off.
    Barak O, Rigotti M, Fusi S.
    J Neurosci; 2013 Feb 27; 33(9):3844-56. PubMed ID: 23447596
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  • 2. Population approach to a neural discrimination task.
    Gaillard B, Buxton H, Feng J.
    Biol Cybern; 2006 Mar 27; 94(3):180-91. PubMed ID: 16331488
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  • 3. Context-dependent selection of visuomotor maps.
    Salinas E.
    BMC Neurosci; 2004 Nov 25; 5():47. PubMed ID: 15563737
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  • 4. Effects of task demands on the responses of color-selective neurons in the inferior temporal cortex.
    Koida K, Komatsu H.
    Nat Neurosci; 2007 Jan 25; 10(1):108-16. PubMed ID: 17173044
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  • 5. Linearly additive shape and color signals in monkey inferotemporal cortex.
    McMahon DB, Olson CR.
    J Neurophysiol; 2009 Apr 25; 101(4):1867-75. PubMed ID: 19144745
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  • 6. Sparseness of the neuronal representation of stimuli in the primate temporal visual cortex.
    Rolls ET, Tovee MJ.
    J Neurophysiol; 1995 Feb 25; 73(2):713-26. PubMed ID: 7760130
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  • 7. Different dorsal striatum circuits mediate action discrimination and action generalization.
    Hilario M, Holloway T, Jin X, Costa RM.
    Eur J Neurosci; 2012 Apr 25; 35(7):1105-14. PubMed ID: 22487040
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  • 8. Relationship between color discrimination and neural responses in the inferior temporal cortex of the monkey.
    Matsumora T, Koida K, Komatsu H.
    J Neurophysiol; 2008 Dec 25; 100(6):3361-74. PubMed ID: 18922950
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  • 9. Shape discrimination by wasps (Paravespula germanica) at the food source: generalization among various types of contrast.
    Lehrer M, Campan R.
    J Comp Physiol A Neuroethol Sens Neural Behav Physiol; 2004 Aug 25; 190(8):651-63. PubMed ID: 15316733
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  • 10. Random neuronal ensembles can inherently do context dependent coarse conjunctive encoding of input stimulus without any specific training.
    George JB, Abraham GM, Rashid Z, Amrutur B, Sikdar SK.
    Sci Rep; 2018 01 23; 8(1):1403. PubMed ID: 29362477
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  • 11. History-dependent excitability as a single-cell substrate of transient memory for information discrimination.
    Baroni F, Torres JJ, Varona P.
    PLoS One; 2010 Dec 28; 5(12):e15023. PubMed ID: 21203387
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  • 12. Neuronal selectivity, population sparseness, and ergodicity in the inferior temporal visual cortex.
    Franco L, Rolls ET, Aggelopoulos NC, Jerez JM.
    Biol Cybern; 2007 Jun 28; 96(6):547-60. PubMed ID: 17410377
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  • 13. Color opponent receptive fields self-organize in a biophysical model of visual cortex via spike-timing dependent plasticity.
    Eguchi A, Neymotin SA, Stringer SM.
    Front Neural Circuits; 2014 Jun 28; 8():16. PubMed ID: 24659956
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  • 14. Modulation of neuronal activity with cue-invariant shape discrimination in the primate superior temporal sulcus.
    Unno S, Handa T, Nagasaka Y, Inoue M, Mikami A.
    Neuroscience; 2014 May 30; 268():221-35. PubMed ID: 24674847
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  • 15. Development of object control in the first year: emerging category discrimination and generalization in infants' adaptive selection of action.
    Mash C, Bornstein MH, Banerjee A.
    Dev Psychol; 2014 Feb 30; 50(2):325-35. PubMed ID: 23772823
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  • 16. Discrimination and generalization along a simple dimension: peak shift and rule-governed responding.
    Livesey EJ, McLaren IP.
    J Exp Psychol Anim Behav Process; 2009 Oct 30; 35(4):554-65. PubMed ID: 19839707
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  • 17. Conditional same-different discrimination by pigeons: acquisition and generalization to novel and few-item displays.
    Castro L, Kennedy PL, Wasserman EA.
    J Exp Psychol Anim Behav Process; 2010 Jan 30; 36(1):23-38. PubMed ID: 20141315
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  • 18. Flexibility of sensory representations in prefrontal cortex depends on cell type.
    Hussar CR, Pasternak T.
    Neuron; 2009 Dec 10; 64(5):730-43. PubMed ID: 20005828
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  • 19. Adaptive regulation of sparseness by feedforward inhibition.
    Assisi C, Stopfer M, Laurent G, Bazhenov M.
    Nat Neurosci; 2007 Sep 10; 10(9):1176-84. PubMed ID: 17660812
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  • 20. Discrimination of communication vocalizations by single neurons and groups of neurons in the auditory midbrain.
    Schneider DM, Woolley SM.
    J Neurophysiol; 2010 Jun 10; 103(6):3248-65. PubMed ID: 20357062
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