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Edelman, S., [http://kybele.psych.cornell.edu/~edelman/Archive/Edelman-on-Noe-ALife06.pdf Mostly harmless] (review of Action in Perception by Alva Noe, MIT Press, 2005); Artificial Life 12:183-186 (2006).
 
Edelman, S., [http://kybele.psych.cornell.edu/~edelman/Archive/Edelman-on-Noe-ALife06.pdf Mostly harmless] (review of Action in Perception by Alva Noe, MIT Press, 2005); Artificial Life 12:183-186 (2006).
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'''John George'''
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Yao, XC; George, JS. (2006) [http://www.ncbi.nlm.nih.gov/sites/entrez?cmd=Retrieve&db=PubMed&dopt=AbstractPlus&list_uids=17000120 Dynamic neuroimaging of retinal light responses using fast intrinsic optical signals.] NeuroImage, v.33, no.3, p.898-906
  
  
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Wolfe, J. M., Horowitz, T. S., & Michod, K. O. (2007). [http://search.bwh.harvard.edu/new/pubs/Wolfe,%20Horowitz,%20%26%20Michod%20(2007).pdf Is visual attention required for robust picture memory?] Vision Research, 47,  955-964.
 
Wolfe, J. M., Horowitz, T. S., & Michod, K. O. (2007). [http://search.bwh.harvard.edu/new/pubs/Wolfe,%20Horowitz,%20%26%20Michod%20(2007).pdf Is visual attention required for robust picture memory?] Vision Research, 47,  955-964.
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'''Garrett Kenyon:'''
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Kenyon, G. T. [http://arxiv.org/abs/0709.1947 Extreme synergy in a retinal code], arXiv:0709.1947v1 [q-bio.NC] (2007).
  
  
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'''Garrett Kenyon:'''
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'''Ilya Nemenman'''
  
Kenyon, G. T. [http://arxiv.org/abs/0709.1947 Extreme synergy in a retinal code], arXiv:0709.1947v1 [q-bio.NC] (2007).
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I Nemenman, GD Lewen, W Bialek, RR. de Ruyter van Steveninck. (2007) [http://arxiv.org/abs/q-bio.NC/0612050 Neural coding of a natural stimulus ensemble: Uncovering information at sub-millisecond resolution]arXiv:q-bio/0612050v1 [q-bio.NC]
  
  
'''Fritz Sommer:'''
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'''Lakshman Prasad'''
  
M. Rehn, F. T. Sommer:[http://redwood.berkeley.edu/fsommer/papers/rehnsommer07jcns.pdf A network that uses few active neurones to code visual input predicts the diverse shapes of cortical receptive fields.] J. Comp. Neurosci. 22 (2) 135-146 (2007).
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L. Prasad, A. N. Skourikhine, (2006) [http://www.sciencedirect.com/science/article/B6V14-4HNS9WJ-2/2/87e393e10940e252946f09aaa4949c9f Vectorized Image Segmentation via Trixel Agglomeration.] Pattern Recognition vol. 39, Issue 4,  pp 501-514, April 2006
  
M. Rehn, F. T. Sommer: [http://redwood.berkeley.edu/fsommer/papers/rehnsommer06neurocomp.pdf Storing and restoring visual input with collaborative rank coding and associative memory.] Neurocomputing 69 (10-12) (2006) 1219-1223
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L. Prasad, (2007) [http://www.sciencedirect.com/science/article/B6V09-4M4KK55-9/2/61108b6d2bbc44caa2bdf602d5d16005 Rectification of the Chordal Axis Transform and criteria  for shape decomposition]  Image and Vision Computing, vol. 25, Issue 10, pp 1557-1571, October 2007
  
  
'''Simon Thorpe:'''
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'''Fritz Sommer:'''
  
Guyonneau, R., Vanrullen, R., & Thorpe, S. J. (2005).
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M. Rehn, F. T. Sommer:[http://redwood.berkeley.edu/fsommer/papers/rehnsommer07jcns.pdf   A network that uses few active neurones to code visual input predicts the diverse shapes of cortical receptive fields.] J. Comp. Neurosci. 22 (2) 135-146 (2007).  
[http://www.klab.caltech.edu/~rufin/OriginalPapers/Guyonneau-etal-2005.pdf Neurons Tune to the Earliest Spikes Through STDP.] Neural Comput, 17(4), 859-879.
 
  
Masquelier, T., & Thorpe, S. J. (2007). [http://compbiol.plosjournals.org/perlserv/?request=get-pdf&file=10.1371_journal.pcbi.0030031-S.pdf Unsupervised Learning of Visual Features through Spike Timing Dependent Plasticity.] PLoS Comput Biol, 3(2), e31.
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M. Rehn, F. T. Sommer: [http://redwood.berkeley.edu/fsommer/papers/rehnsommer06neurocomp.pdf Storing and restoring visual input with collaborative rank coding and associative memory.] Neurocomputing 69 (10-12) (2006) 1219-1223
  
Kirchner, H., & Thorpe, S. J. (2006). [http://www.allpsych.uni-giessen.de/rauisch06/readings/kirchner_h_06_1762.pdf Ultra-rapid object detection with saccadic eye movements: Visual processing speed revisited.] Vision Res, 46(11), 1762-1776.
 
  
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'''Christof Teuscher'''
  
'''Ilya Nemenman'''
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Christof Teuscher, (2006) [http://delivery.acm.org/10.1145/1170000/1167856/p27-teuscher.html?key1=1167856&key2=3681101911&coll=GUIDE&dl=GUIDE&CFID=1057781&CFTOKEN=69028198 Viewpoint: Biologically uninspired computer science.] Communications of the ACM
 
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Volume 49, Number 11, Pages 27-29
I Nemenman, GD Lewen, W Bialek, RR. de Ruyter van Steveninck. (2007) [http://arxiv.org/abs/q-bio.NC/0612050 Neural coding of a natural stimulus ensemble: Uncovering information at sub-millisecond resolution].  arXiv:q-bio/0612050v1 [q-bio.NC]
 
 
 
 
 
'''John George'''
 
 
 
Yao, XC; George, JS. (2006) [http://www.ncbi.nlm.nih.gov/sites/entrez?cmd=Retrieve&db=PubMed&dopt=AbstractPlus&list_uids=17000120 Dynamic neuroimaging of retinal light responses using fast intrinsic optical signals.] NeuroImage, v.33, no.3, p.898-906
 
 
 
  
  
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'''Lakshman Prasad'''
 
  
L. Prasad, A. N. Skourikhine, (2006) [http://www.sciencedirect.com/science/article/B6V14-4HNS9WJ-2/2/87e393e10940e252946f09aaa4949c9f Vectorized Image Segmentation via Trixel Agglomeration.]  Pattern Recognition vol. 39, Issue 4,  pp 501-514, April 2006
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'''Simon Thorpe:'''
  
L. Prasad, (2007) [http://www.sciencedirect.com/science/article/B6V09-4M4KK55-9/2/61108b6d2bbc44caa2bdf602d5d16005 Rectification of the Chordal Axis Transform and criteria  for shape decomposition]   Image and Vision Computing, vol. 25, Issue 10, pp 1557-1571, October 2007
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Guyonneau, R., Vanrullen, R., & Thorpe, S. J. (2005).
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[http://www.klab.caltech.edu/~rufin/OriginalPapers/Guyonneau-etal-2005.pdf Neurons Tune to the Earliest Spikes Through STDP.] Neural Comput, 17(4), 859-879.
  
 +
Masquelier, T., & Thorpe, S. J. (2007). [http://compbiol.plosjournals.org/perlserv/?request=get-pdf&file=10.1371_journal.pcbi.0030031-S.pdf Unsupervised Learning of Visual Features through Spike Timing Dependent Plasticity.] PLoS Comput Biol, 3(2), e31.
  
'''Christof Teuscher'''
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Kirchner, H., & Thorpe, S. J. (2006). [http://www.allpsych.uni-giessen.de/rauisch06/readings/kirchner_h_06_1762.pdf Ultra-rapid object detection with saccadic eye movements: Visual processing speed revisited.] Vision Res, 46(11), 1762-1776.
 
 
Christof Teuscher, (2006) [http://delivery.acm.org/10.1145/1170000/1167856/p27-teuscher.html?key1=1167856&key2=3681101911&coll=GUIDE&dl=GUIDE&CFID=1057781&CFTOKEN=69028198 Viewpoint: Biologically uninspired computer science.] Communications of the ACM
 
Volume 49, Number 11, Pages 27-29
 
  
  
  
 
Back to [http://www.santafe.edu/events/workshops/index.php/High-Level_Perception_and_Low-Level_Vision:_Bridging_the_Semantic_Gap main page]
 
Back to [http://www.santafe.edu/events/workshops/index.php/High-Level_Perception_and_Low-Level_Vision:_Bridging_the_Semantic_Gap main page]

Latest revision as of 00:13, 12 October 2007

Dana Ballard:

N. Sprague, D. Ballard, and A. Robinson (2007). Modeling embodied visual behaviors. ACM Transactions on Applied Perception, 4(2).


Shimon Edelman:

Edelman, S., Constraining the neural representation of the visual world, Trends in Cognitive Sciences, 6:125-131 (2002).

Edelman, S., Mostly harmless (review of Action in Perception by Alva Noe, MIT Press, 2005); Artificial Life 12:183-186 (2006).


John George

Yao, XC; George, JS. (2006) Dynamic neuroimaging of retinal light responses using fast intrinsic optical signals. NeuroImage, v.33, no.3, p.898-906


Rob Goldstone:

Goldstone, R. L., Landy, D., & Son, J. Y. (in press). A well grounded education: The role of perception in science and mathematics. In M. de Vega, A. Glenberg, & A. Graesser (Eds.) Symbols, embodiment, and meaning. Oxford Press.

Landy, D. & Goldstone, R. L. (2007). How abstract is symbolic thought? Journal of Experimental Psychology: Learning, Memory, & Cognition, 33, 720-733.

Landy, D. & Goldstone, R. L. (2005). How we learn about things we don't already understand. Journal of Experimental and Theoretical Artificial Intelligence, 17, 343-369.


Todd Horowitz

Wolfe, J. M., Horowitz, T. S., & Michod, K. O. (2007). Is visual attention required for robust picture memory? Vision Research, 47, 955-964.


Garrett Kenyon:

Kenyon, G. T. Extreme synergy in a retinal code, arXiv:0709.1947v1 [q-bio.NC] (2007).


Bartlett Mel:

Kapadia, M. K., Ito, M., Gilbert, C. D., and Westheimer, G. (1995). Improvement in visual sensitivity by changes in local context: Parallel studies in human observers and in V1 of alert monkeys. Neuron, 15, 843-856.


Melanie Mitchell:

Mitchell, M. Self awareness and control in decentralized systems, In Working Papers of the AAAI 2005 Spring Symposium on Metacognition in Computation. Menlo Park, CA: AAAI Press (2005).


Ilya Nemenman

I Nemenman, GD Lewen, W Bialek, RR. de Ruyter van Steveninck. (2007) Neural coding of a natural stimulus ensemble: Uncovering information at sub-millisecond resolution. arXiv:q-bio/0612050v1 [q-bio.NC]


Lakshman Prasad

L. Prasad, A. N. Skourikhine, (2006) Vectorized Image Segmentation via Trixel Agglomeration. Pattern Recognition vol. 39, Issue 4, pp 501-514, April 2006

L. Prasad, (2007) Rectification of the Chordal Axis Transform and criteria for shape decomposition Image and Vision Computing, vol. 25, Issue 10, pp 1557-1571, October 2007


Fritz Sommer:

M. Rehn, F. T. Sommer:A network that uses few active neurones to code visual input predicts the diverse shapes of cortical receptive fields. J. Comp. Neurosci. 22 (2) 135-146 (2007).

M. Rehn, F. T. Sommer: Storing and restoring visual input with collaborative rank coding and associative memory. Neurocomputing 69 (10-12) (2006) 1219-1223


Christof Teuscher

Christof Teuscher, (2006) Viewpoint: Biologically uninspired computer science. Communications of the ACM Volume 49, Number 11, Pages 27-29


James Theiler

J. Theiler and S. Perkins. (2007) Resampling approach for anomalous change detection. Proc. SPIE 6565 6565-65.

J. Theiler and S. Perkins. (2006) Proposed Framework for Anomalous Change Detection. ICML Workshop on Machine Learning Algorithms for Surveillance and Event Detection, 7-14.


Simon Thorpe:

Guyonneau, R., Vanrullen, R., & Thorpe, S. J. (2005). Neurons Tune to the Earliest Spikes Through STDP. Neural Comput, 17(4), 859-879.

Masquelier, T., & Thorpe, S. J. (2007). Unsupervised Learning of Visual Features through Spike Timing Dependent Plasticity. PLoS Comput Biol, 3(2), e31.

Kirchner, H., & Thorpe, S. J. (2006). Ultra-rapid object detection with saccadic eye movements: Visual processing speed revisited. Vision Res, 46(11), 1762-1776.


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