Jude Mitchell
E-mail: jude@salk.edu
All data on this page came from the following attention task:
- Multiple-Object Tracking in a Macaque:
The monkeys fixated the white dot at the center of the computer monitor,
and four striped stimuli appeared. Their eye position was monitored using
an IR camera. The red cross shows where the eyes were pointing throughout
each trial. The circle shows the location of the receptive field of the neuron
under study during the recording. At the beginning of each trial, either one or
two of the stimuli were highlighted, indicating to the monkey that they were the
targets of attention. The stimuli then moved to new locations and paused, with
one stimulus in the receptive field. After a brief pause, they moved to new
locations and the fixation point disappeared. The monkey was rewarded with juice
if it then looked at the cued targets.
- Attention Dask Demo (Avi File)
Publication from this Dataset:
Recent Posters from this Dataset:
- Dissecting sources of neuronal noise that are reduced by attention in macaque area V4.
KA Sundberg, JF Mitchell, and JH Reynolds
SFN 2008 [pdf]
- Attention-dependent reductions in response variability in area V4 associated with
changes in spike power spectra and burstiness.
JF Mitchell, KA Sundberg, and JH Reynolds
COSYNE. 2008 [pdf]
- Attentive tracking of multiple objects modulates neuronal responses in area V4 of macaque.
JF Mitchell, KA Sundberg, and JH Reynolds
Vision Sci. Soc. 2006 [pdf]
- Attentive tracking of multiple objects by humans and monkeys.
JF Mitchell, KA Sundberg, and JH Reynolds
Vision Sci. Soc. 2005 [pdf]
- Comparison of Human and Macaque Ability to Attentive Track Multiple Visual Stimuli.
JF Mitchell, KA Sundberg, and JH Reynolds
Soc. Neurosci. 2004 [pdf]
Download Subset of Dataset with Analysis Routines (easiest to download whole set
with full subdirectory structure):
tracking_data [winzip9.0]
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- Routines for Fano Factor, Autocorrelation, and Power Spectra (poster above):
- Plots Spike Waveform and Tests if Significant Visual Response:
basic_info.m
- Firing Rate and Fano Factor Analysis (Mitchell et. al, 2007):
rate_fano_psth.m
- Routines for Spike-LFP Coherence:
Example Neuron Data Files (zipped matlab files, matlab 7.1 or higher):
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Data Format
- ___________________14 Neurons in Public Database ___________________________
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mbag15_u1 (wave duration = 150us, peak autocor = 1.21) putative interneuron
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mnar4_u2 (wave duration = 225us, peak autocor = 1.62) putative interneuron
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msiv3_u8 (wave duration = 200us, peak autocor = 1.42) putative interneuron
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msir27_u3 (wave duration = 200us, peak autocor = 1.35) putative interneuron
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mzir4_u1 (wave duration = 180us, peak autocor = 1.25) putative interneuron
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mbbag31_u1 (wave duration = 325us, peak autocor = 1.37) putative pyramidal, non-bursty
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mbsurr3_u4 (wave duration = 325us, peak autocor = 2.41) putative pyramidal, non-bursty
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mbbag42_u2 (wave duration = 400us, peak autocor = 10.31) putative pyramidal, bursty
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mbbag44_u3 (wave duration = 300us, peak autocor = 17.08) putative pyramidal, bursty
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mzir50_u1 (wave duration = 300us, peak autocor = 6.41) putative pyramidal, bursty
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mzir22_u2 (wave duration = 360us, peak autocor = 5.45) putative pyramidal, bursty
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mzir20_u3 (wave duration = 350us, peak autocor = 13.0) putative pyramidal, bursty
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mzir19_u2 (wave duration = 150us, peak autocor = 6.62) putative chattering?
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mzir13_u1 (wave duration = 175us, peak autocor = 5.85) putative chattering?