The relationship between voltage - sensitive dye imaging signals and spiking 2 activity of neural populations in primate
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1 Title: 1 The relationship between voltage-sensitive dye imaging signals and spiking 2 activity of neural populations in primate V1 3 4 Authors: 5 Yuzhi Chen, Chris R. Palmer, and Eyal Seidemann 6 Dept. of Psychology and Center for Perceptual Systems, University of Texas at Austin 7 Austin, TX 78712, USA 8 9 1 These authors contributed equally to this work 10 11 Running Head: 12 Relationship between VSDI signals and spiking activity 13 14 Corresponding author: 15 Eyal Seidemann 16 The University of Texas at Austin 17 Dept. of Psychology and Center for Perceptual Systems, 18 108 East Dean Keeton 19 1 University Station A8000 20 Austin, TX 78712-0187 21 Phone (512) 232-6052 22 Fax (512) 471-7356 23 [email protected] 24 25 26 Articles in PresS. J Neurophysiol (March 14, 2012). doi:10.1152/jn.00977.2011
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The relationship between voltage-sensitive dye imaging signals and spiking activity of neural populations in primate V1.
Voltage-sensitive dye imaging (VSDI) is a powerful technique for measuring neural population responses from a large cortical region simultaneously with millisecond temporal resolution and columnar spatial resolution. However, the relationship between the average VSDI signal and the average spiking activity of neural populations is largely unknown. To better understand this relationship, we comp...
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تاریخ انتشار 2012