VS265: Reading: Difference between revisions
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* [http://cnl.salk.edu/Research/ParallelNetsPronounce/ NetTalk demo] | * [http://cnl.salk.edu/Research/ParallelNetsPronounce/ NetTalk demo] | ||
==== Sept. 23, 24: Unsupervised learning ==== | |||
* '''HKP''' Chapters 8 and 9, '''DJCM''' chapter 36, '''DA''' chapter 8, 10 | |||
* Handout: [http://redwood.berkeley.edu/vs265/hebb-pca-handout.pdf Hebbian learning and PCA] | |||
* '''PDP''' [http://redwood.berkeley.edu/vs265/chap9.pdf Chapter 9] (full text of Michael Jordan's tutorial on linear algebra, including section on eigenvectors) | |||
Optional: | |||
* Atick, Redlich. [http://redwood.berkeley.edu/vs265/Atick-Redlich-NC92.pdf What does the retina know about natural scenes?], Neural Computation, 1992. | |||
* Dan, Atick, Reid. [http://www.jneurosci.org/cgi/reprint/16/10/3351.pdf Efficient Coding of Natural Scenes in the Lateral Geniculate Nucleus: Experimental Test of a Computational Theory], J Neuroscience, 1996. | |||
<!-- plasticity and cortical maps | <!-- plasticity and cortical maps | ||
Revision as of 21:50, 25 September 2014
Aug 28: Introduction
- HKP chapter 1
- Dreyfus, H.L. and Dreyfus, S.E. Making a Mind vs. Modeling the Brain: Artificial Intelligence Back at a Branchpoint. Daedalus, Winter 1988.
- Bell, A.J. Levels and loops: the future of artificial intelligence and neuroscience. Phil Trans: Bio Sci. 354:2013--2020 (1999) here or here
- 1973 Lighthill debate on future of AI
Optional:
- Land, MF and Fernald, RD. The Evolution of Eyes, Ann Revs Neuro, 1992.
- Zhang K, Sejnowski TJ (2000) A universal scaling law between gray matter and white matter of cerebral cortex. PNAS, 97: 5621–5626.
- O'Rourke, N.A et al. "Deep molecular diversity of mammalian synapses: why it matters and how to measure it." Nature Reviews Neurosci. 13, (2012)
- Stephen Smith Array Tomography movies
- Solari & Stoner, Cognitive Consilience
Sept 2: Neuron models
- Mead, C. Chapter 1: Introduction and Chapter 4: Neurons from Analog VLSI and Neural Systems, Addison-Wesley, 1989.
- Carandini M, Heeger D (1994) Summation and division by neurons in primate visual cortex. Science, 264: 1333-1336.
Background reading on dynamics, linear time-invariant systems and convolution, and differential equations:
Sept 4: Linear neuron, Perceptron
- HKP chapter 5, DJCM chapters 38-40, 44, DA chapter 8 (sec. 4-6)
- Linear neuron models
Background on linear algebra:
- Linear algebra primer
- Jordan, M.I. An Introduction to Linear Algebra in Parallel Distributed Processing in McClelland and Rumelhart, Parallel Distributed Processing, MIT Press, 1985.
Sept 11: Multicompartment models, dendritic integration
- Koch, Single Neuron Computation, Chapter 19 pdf
- Rhodes P (1999) Functional Implications of Active Currents in the Dendrites of Pyramidal Neurons
- Schiller J (2003) Submillisecond Precision of the Input–Output Transformation Function Mediated by Fast Sodium Dendritic Spikes in Basal Dendrites of CA1 Pyramidal Neurons
Sept. 16, 18: Supervised learning
- HKP Chapters 5, 6
- Handout on supervised learning in single-stage feedforward networks
- Handout on supervised learning in multi-layer feedforward networks - "back propagation"
Further reading:
- Y. LeCun, L. Bottou, G. Orr, and K. Muller (1998) "Efficient BackProp," in Neural Networks: Tricks of the trade, (G. Orr and Muller K., eds.).
- NetTalk demo
Sept. 23, 24: Unsupervised learning
- HKP Chapters 8 and 9, DJCM chapter 36, DA chapter 8, 10
- Handout: Hebbian learning and PCA
- PDP Chapter 9 (full text of Michael Jordan's tutorial on linear algebra, including section on eigenvectors)
Optional:
- Atick, Redlich. What does the retina know about natural scenes?, Neural Computation, 1992.
- Dan, Atick, Reid. Efficient Coding of Natural Scenes in the Lateral Geniculate Nucleus: Experimental Test of a Computational Theory, J Neuroscience, 1996.
