Seminars: Difference between revisions

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=== 2007/2008 academic year ===
=== 2007/2008 academic year ===
'''Nov. 13'''
* Speaker: Sonja Gruen
* Affiliation: Riken
* Host: Fritz
* Title: Spike synchrony and spike-LFP relation in freely viewing monkeys
* Abstract:
'''Oct. 31'''
* Speaker: Jason Kerr
* Affiliation: Max Planck Institute for Biological Cybernetics
* Host: Tim
* Title: TBA
'''Oct. 29'''
* Speaker: Laurenz Wiskott
* Affiliation: Bernstein Center for Computational Neuroscience and Institute for Theoretical Biology, Humboldt-University Berlin
* Host: Bruno
* Title:  Slow feature analysis for modeling place cells in the hippocampus and its relationship to spike timing dependent plasticity
* Abstract:  Slow Feature Analysis (SFA) is an algorithm for extracting slowly varying
features from a quickly varying signal.  We have applied SFA to the
learning of complex cell receptive fields, visual invariances for whole
objects, and place cells in the hippocampus.  Here I will report about our
results on modeling place cells in the hippocampus. 
If slowness is indeed an important learning principle in visual cortex and
beyond, the question arises, how it could be implemented in a biologically
plausible learning rule.  In the second part of the talk I will show
analytically that for linear Poisson units, SFA can be implemented with
STDP with the standard learning window as measured by, e.g., Bi and Poo
(1998).
'''Oct. 23'''
* Speaker: Liam Paninski
* Affiliation: Columbia Univesrity
* Host: Amir
* Title: Combining biophysical and statistical methods for understanding neural codes
* Abstract:
The neural coding problem --- deciding which stimuli will cause a
given neuron to spike, and with what probability --- is a fundamental
question in systems neuroscience.  The high dimensionality of both
stimuli and spike trains has spurred the development of a number of
sophisticated statistical techniques for learning the neural code from
finite experimental data.  In particular, modeling approaches based on
maximum likelihood have proven to be flexible and powerful.
We present three such applications here.  One common thread is that
the models we have chosen for these data each have concave
loglikelihood surfaces, permitting tractable fitting (by maximizing
the loglikelihood) even in high dimensional parameter spaces, since no
local maxima can exist for the optimizer to get `stuck' in.
First we describe neural encoding models in which a linear stimulus
filtering stage is followed by a noisy integrate-and-fire spike
generation mechanism incorporating after-spike currents and
spike-dependent conductance modulations.  This model provides a
biophysically more realistic alternative to models based on Poisson
(memoryless) spike generation, and can effectively reproduce a variety
of spiking behaviors.  We use this model to analyze extracellular
data from populations of retinal ganglion cells, simultaneously
recorded during stimulation with dynamic light stimuli.  Here the
model provides insight into the biophysical factors underlying the
reliability of these neurons' spiking responses, and provides a
framework for analyzing the cross-correlations observed between these
cells.  (Joint work with E.J. Chichilnisky, J. Pillow, J. Shlens,
E. Simoncelli, and V. Uzzell, at NYU and Salk.)
Next we describe how to use this model to ``decode'' the underlying
subthreshold somatic voltage dynamics, given only the superthreshold
spike train.  We also point out some connections to spike-triggered
averaging techniques.
We close by discussing recent extensions to highly
biophysically-detailed, conductance-based models, which have the
potential to allow us to estimate the density of active channels in a
cell's membrane and also to decode the synaptic input to the cell as a
function of time.  (With M. Ahrens, Q. Huys, and J. Vogelstein, at
Gatsby and Johns Hopkins.)


'''Oct. 3'''
'''Oct. 3'''

Revision as of 04:36, 19 November 2007

Instructions

  1. Check the internal calendar for a free seminar slot. If a seminar is not already booked at the regular time of noon on Thursday, you can reserve it.
  2. Make a note on this page in the Tentative Speakers section that you are going to invite a speaker. Please include your name and email as host in case somebody wants to contact you.
  3. Invite a speaker.
  4. As soon as the speaker confirms, put the information in the Confirmed Speakers section.
  5. Put the date into the internal calendar
  6. Notify Jimmy [1] that we have a confirmed speaker so that he can update the web page. Please include a title and abstract.
  7. Notify Sharyn mailto:climons@berkeley.edu about the seminar date.

Tentative Speakers

21 Nov 2007

  • Speaker: Naoki Saito
  • Affiliation:
  • Host: Kilian
  • Title:
  • Abstract:

26/27 Feb 2008

  • Speaker: Jean-Philippe Lachaux
  • Affiliation: INSERM, Lyon
  • Host: Tim
  • Title:
  • Abstract:

5/6 Mar 2008

  • Speaker: Peter Robinson
  • Affiliation: University of Sydney
  • Host: Tim
  • Title:
  • Abstract:

9 Apr 2008

  • Speaker: Thanos Siapas
  • Affiliation: Caltech
  • Host: Amir
  • Title: TBD
  • Abstract: TBD

Confirmed Speakers

Nov. 27

  • Speaker: Geoff Hinton
  • Affiliation:
  • Host: Bruno
  • Title: How are error derivatives represented in the brain
  • Abstract:

Neurons need to represent both the presence of a feature in the sensory input and the derivative of an error function with repect to the neural activity. I will describe a simple way in which they can represent both of these very different quantities at the same time and show that this representational scheme would make it easy for real neurons to backpropagate error derivatives so that higher level feature detectors can fine-tune the receptive fields of lower level ones.

Previous Seminars

2007/2008 academic year

Nov. 13

  • Speaker: Sonja Gruen
  • Affiliation: Riken
  • Host: Fritz
  • Title: Spike synchrony and spike-LFP relation in freely viewing monkeys
  • Abstract:

Oct. 31

  • Speaker: Jason Kerr
  • Affiliation: Max Planck Institute for Biological Cybernetics
  • Host: Tim
  • Title: TBA

Oct. 29

  • Speaker: Laurenz Wiskott
  • Affiliation: Bernstein Center for Computational Neuroscience and Institute for Theoretical Biology, Humboldt-University Berlin
  • Host: Bruno
  • Title: Slow feature analysis for modeling place cells in the hippocampus and its relationship to spike timing dependent plasticity
  • Abstract: Slow Feature Analysis (SFA) is an algorithm for extracting slowly varying

features from a quickly varying signal. We have applied SFA to the learning of complex cell receptive fields, visual invariances for whole objects, and place cells in the hippocampus. Here I will report about our results on modeling place cells in the hippocampus. If slowness is indeed an important learning principle in visual cortex and beyond, the question arises, how it could be implemented in a biologically plausible learning rule. In the second part of the talk I will show analytically that for linear Poisson units, SFA can be implemented with STDP with the standard learning window as measured by, e.g., Bi and Poo (1998).

Oct. 23

  • Speaker: Liam Paninski
  • Affiliation: Columbia Univesrity
  • Host: Amir
  • Title: Combining biophysical and statistical methods for understanding neural codes
  • Abstract:

The neural coding problem --- deciding which stimuli will cause a given neuron to spike, and with what probability --- is a fundamental question in systems neuroscience. The high dimensionality of both stimuli and spike trains has spurred the development of a number of sophisticated statistical techniques for learning the neural code from finite experimental data. In particular, modeling approaches based on maximum likelihood have proven to be flexible and powerful.

We present three such applications here. One common thread is that the models we have chosen for these data each have concave loglikelihood surfaces, permitting tractable fitting (by maximizing the loglikelihood) even in high dimensional parameter spaces, since no local maxima can exist for the optimizer to get `stuck' in.

First we describe neural encoding models in which a linear stimulus filtering stage is followed by a noisy integrate-and-fire spike generation mechanism incorporating after-spike currents and spike-dependent conductance modulations. This model provides a biophysically more realistic alternative to models based on Poisson (memoryless) spike generation, and can effectively reproduce a variety of spiking behaviors. We use this model to analyze extracellular data from populations of retinal ganglion cells, simultaneously recorded during stimulation with dynamic light stimuli. Here the model provides insight into the biophysical factors underlying the reliability of these neurons' spiking responses, and provides a framework for analyzing the cross-correlations observed between these cells. (Joint work with E.J. Chichilnisky, J. Pillow, J. Shlens, E. Simoncelli, and V. Uzzell, at NYU and Salk.)

Next we describe how to use this model to ``decode the underlying subthreshold somatic voltage dynamics, given only the superthreshold spike train. We also point out some connections to spike-triggered averaging techniques.

We close by discussing recent extensions to highly biophysically-detailed, conductance-based models, which have the potential to allow us to estimate the density of active channels in a cell's membrane and also to decode the synaptic input to the cell as a function of time. (With M. Ahrens, Q. Huys, and J. Vogelstein, at Gatsby and Johns Hopkins.)

Oct. 3

  • Speaker: Flip Sabes
  • Affiliation: Keck Center/UCSF
  • Host: Bruno
  • Title: TBA
  • Abstract:

2007 summer seminars

August 21, 2007

  • Speaker: Jeremy Lewi
  • Affiliation: Georgia Tech
  • Host: Amir
  • Title: Adaptively optimizing neurophysiology experiments for estimating encoding models

2006/2007 academic year

May 15, 2007

  • Speaker: Ray Guillery
  • Affiliation: University of Madisson, WI/Marmara University
  • Host: Fritz
  • Title: Thalamus and Sensorimotor Aspects of Perception

May 8

  • Speaker: Lokendra Shastri
  • Affiliation: ICSI
  • Host: Bruno
  • Title: Micro-circuits of Episodic Memory: Structure Matches Function in the Hippocampal System

April 24

  • Speaker: Jeff Johnson
  • Affiliation: UC Davis
  • Host: Bruno
  • Title: What does EEG tell us about the timecourse of object recognition?

April 17, 2007

  • Speaker: Steve Waydo
  • Affiliation: Control & Dynamical Systems, California Institute of Technology
  • Host: Bruno
  • Title: Explicit Object Representation by Sparse Neural Codes

April 10

  • Speaker: Andrew Ng
  • Affiliation: Stanford University
  • Host: Bruno
  • Title: Unsupervised discovery of structure for transfer learning

April 3

  • Speaker: Robert Miller
  • Affiliation: Department of Anatomy and Structural Biology, Otago University
  • Host: Fritz
  • Title: Axonal conduction time and human cerebral laterality

March 20, 2007

  • Speaker: Jeff Hawkins
  • Affiliation: Numenta
  • Host: Bruno
  • Title: Hierarchical Temporal Memory

March 13, 2007

  • Speaker: Chris Wiggins
  • Affiliation: Columbia University, NY
  • Host: Tony
  • Title: Optimal signal processing in small stochastic biochemical networks

March 6

  • Speaker: Pietro Perona
  • Affiliation: Caltech
  • Host: Bruno
  • Title: An exploration of visual recognition

March 1

  • Speaker: Hiroki Asari
  • Affiliation: CSL
  • Host: Fritz
  • Title: Sparse Representations for the Cocktail Party Problem
  • Abstract: A striking feature of many sensory processing problems is that there appear to be many more neurons engaged in the internal representations of the signal than in its transduction. For example, humans have about 30,000 cochlear neurons, but at least a thousand times as many neurons in the auditory cortex. Such apparently redundant internal representations have sometimes been proposed as necessary to overcome neuronal noise. We instead posit that they directly subserve computations of interest. Here we provide an example of how sparse overcomplete linear representations can directly solve difficult acoustic signal processing problems, using as an example monaural source separation using solely the cues provided by the differential filtering imposed on a source by its path from its origin to the cochlea (the head-related transfer function, or HRTF). In contrast to much previous work, the HRTF is used here to separate auditory streams rather than to localize them in space. The experimentally testable predictions that arise from this model--- including a novel method for estimating a neuron's optimal stimulus using data from a multi-neuron recording experiment---are generic, and apply to a wide range of sensory computations.

February 20, 2007

  • Speaker: Yair Weiss
  • Affiliation: Hebrew University, Jerusalem
  • Host: Tony
  • Title: What makes a good model of natural images?

February 13, 2007

  • Speaker: Tobi Delbruck
  • Affiliation: Inst of Neuroinformatics, UNI-ETH Zurich
  • Host: Bruno
  • Title: Building a high-performance event-based silicon retina leads to new ways to compute vision
  • URL: http://siliconretina.ini.uzh.ch

Jan 23, 2007

  • Speaker: Giuseppe Vitiello
  • Affiliation: Department of Physics “E.R.Caianiello”, Salerno University
  • Host: Fritz
  • Title: Relations between many-body physics and nonlinear brain dynamics

Jan 9, 2007

  • Speaker: Boris Gutkin
  • Affiliation: University of Paris
  • Host: Fritz
  • Title: TBA

Dec 5

  • Speaker: Tanya Baker
  • Affiliation: U Chicago
  • Host: Kilian
  • Title: What Forest Fires Tell Us About the Brain

December 1, 2006 1.30pm

  • Informal visit: Nancy Kopell
  • Affiliation: Boston University
  • Host: Fritz
  • Title: No talk: Informal visit in the afternoon

Nov 28

  • Speaker: Thomas Dean
  • Host: Bruno
  • Affiliation: Brown University/Google
  • Title: TBA

Nov 21

  • Speaker: Urs Koster
  • Host: Bruno
  • Affiliation: University of Helsinki
  • Title: Towards Multi-Layer Processing of Natural Images

Nov 14

  • Speaker: Andrew D. Straw
  • Affiliation: Bioengineering, California Institute of Technology
  • Host: Kilian
  • Title: Closed-Loop, Visually-Based Flight Regulation in a Model Fruit Fly

Nov 7

  • Speaker: Mitya Chklovskii
  • Host: Bruno
  • Title: What determines the shape of neuronal arbors?

Oct 31

  • Speaker: Matthias Kaschube
  • Host: Kilian
  • Title: A mathematical constant in the design of the visual cortex


Oct 3

  • Speaker: Jay McClelland
  • Affiliation: Mind, Brain & Computation/MBC, Psychology Department, Stanford
  • Host: Evan
  • Title: Graded Constraints in English Word Forms (video)

Sept 25

  • Speaker: Peter Latham
  • Affiliation: Gatsby Unit, UCL
  • Host: Bruno
  • Title: Requiem for the spike (video)

Sept 19

  • Speaker: Jerry Feldman
  • Affiliation: ICSI/UC Berkeley
  • Host: Bruno
  • Title: From Molecule to Metaphor: Towards a Unified Cognitive Science (video)

Sept 5

  • Speaker: Tom Griffiths
  • Affiliation: Cogsci/UC Berkeley
  • Host: Bruno
  • Title: Natural Statistics and Human Cognition (video)

Aug 1

  • Speaker: Carol Whitney
  • Affiliation: U Maryland
  • Host: Bruno
  • Title: What can Visual Word Recognition Tell us about Visual Object Recognition? (video)

July 18

  • Speaker: Evan Smith
  • Affiliation: Redwood Center/Stanford
  • Host: Bruno
  • Title: Efficient auditory coding

2005/2006 academic year

June 20

  • Speaker: Vincent Bonin
  • Affiliation: Smith Kettlewell Institute
  • Host: Thomas
  • Title:

June 15

  • Speaker: Philip Low
  • Affiliation: Salk Institute
  • Host: Tony
  • Title: A New Way To Look At Sleep

May 2

  • Speaker: Dileep George
  • Affiliation: Numenta
  • Host: Bruno
  • Title: Hierarchical, cortical memory architecture for pattern recognition

April 18

  • Speaker: Risto Miikkulainen
  • Affiliation: The University of Texas at Austin
  • Host: Bruno
  • Title: Computational maps in the visual cortex (video)

April 11

  • Speaker: Charles Anderson
  • Affiliation: Washington University School of Medicine
  • Host: Bruno
  • Title: Population Coding in V1 (video)

April 10

  • Speaker: Charles Anderson
  • Affiliation: Washington University School of Medicine
  • Host: Bruno
  • Title: A Comparison of Neurobiological and Digital Computation (video)

April 4

  • Speaker: Odelia Schwartz
  • Affiliation: The Salk Institute
  • Host: Bruno
  • Title: Natural images and cortical representation

March 21

  • Speaker: Mark Schnitzer
  • Affiliation: Stanford University
  • Host: Amir
  • Title: In vivo microendoscopy and computational modeling studies of mammalian brain circuits

March 15

  • Speaker: Mate Lengyel
  • Affiliation: Gatsby Unit/UCL London
  • Host: fritz
  • Title: Bayesian model learning in human visual perception (video)

March 14

  • Speaker: Mate Lengyel
  • Affiliation: Gatsby Unit/UCL London
  • Host: fritz
  • Title: Firing rates and phases in the hippocampus: what are they good for? (video)

March 7

  • Speaker: Michael Wu
  • Affiliation: Gallant lab/UC Berkeley
  • Host: Bruno
  • Title: A Unified Framework for Receptive Field Estimation

February 28

  • Speaker: Dario Ringach
  • Affiliation: UCLA
  • Host: thomas
  • Title: Population dynamics in primary visual cortex

February 21

  • Speaker: Gerard Rinkus
  • Affiliation: Brandeis University
  • Host: Bruno
  • Title: Hierarchical Sparse Distributed Representations of Sequence Recall and Recognition (video)

February 14

  • Speaker: Jack Cowan
  • Affiliation: U Chicago
  • Host: Bruno
  • Title: Spontaneous pattern formation in large scale brain activity: what visual migraines and hallucinations tell us about the brain (video)

February 7

  • Speaker: Christian Wehrhahn
  • Affiliation: Max Planck Institute for Biological Cybernetics, Tuebingen, Germany
  • Host: Tony
  • Title: Seeing blindsight: motion at isoluminance?

January 23 (Monday)

  • Speaker: Read Montague
  • Affiliation: Baylor College of Medicine
  • Host: Bruno
  • Title: Abstract plans and reward signals in a multi-round trust game

January 17

  • Speaker: Erhardt Barth
  • Affiliation: Institute for Neuro- and Bioinformatics, Luebeck, Germany
  • Host: Bruno
  • Title: Guiding eye movements for better communication (video)

January 3

  • Speaker: Dan Butts
  • Affiliation: Harvard University
  • Host: Thomas
  • Title: "Temporal hyperacuity": visual neuron function at millisecond time resolution

December 13, 2005

  • Speaker: Paul Rhodes
  • Affiliation: Stanford University
  • Title: Simulations of a thalamocortical column with compartment model cells and dynamic synapses (video)

December 6, 2005

November 29, 2005

  • Speaker: Stanley Klein
  • Affiliation: School of Optometry, UC Berkeley
  • Title: Limits of Vision and psychophysical methods (video)

November 22, 2005

  • Speaker: Scott Makeig
  • Affiliation: Swartz Center for Computational Neuroscience, Institute for Neural Computation, UCSD
  • Title: Viewing event-related brain dynamics from the top down