[Comp-neuro] Deadline April 30 for Berkeley summer course in mining and modeling of neuroscience data

Friedrich Sommer fsommer at berkeley.edu
Wed Apr 13 23:36:28 CEST 2016

Just a reminder:  The application deadline for the Berkeley course in mining and modeling of neuroscience data, held July 11-22, 2016 is April 30 midnight.

Call for applications:
We invite applicants to the 2016 summer course in
"Mining and modeling of neuroscience data" to be held July 11-22, 2016 at UC Berkeley.
A description of the course is below and also at:

Berkeley summer course in mining and modeling of neuroscience data.

July 11-22, 2016
Redwood Center for Theoretical Neuroscience, UC Berkeley
Organizers: Fritz Sommer, Bruno Olshausen & 
 Jeff Teeters (HWNI, UC Berkeley)

This course is for students and researchers with backgrounds in mathematics and computational sciences who are interested in applying their skills toward problems in neuroscience.  It will introduce the major open questions of neuroscience and teach state-of–the-art techniques for analyzing and modeling neuroscience data sets.  The course is designed for students at the graduate level and researchers with background in a quantitative field such as engineering, mathematics, physics or computer science who may or may not have a specific neuroscience background. The goal of this summer course is to help researchers find new exciting research areas and at the same time to strengthen quantitative expertise in the field of neuroscience. The course is sponsored by the National Institute of Health, the National Science Foundation from a grant supporting activities at the data sharing repository CRCNS.org, and the Helen Wills Neuroscience Institute at UC Berkeley.

The course is “hands on” in that it will include exercises in how to use and modify existing software tools and apply them to data sets, such as those available in the CRCNS.org repository.

Course Instructors
Robert Kass, Carnegie Mellon University, Pittsburgh
Maneesh Sahani, Gatsby Unit, University College London
Odelia Schwartz, University of Miami
Frederic Theunissen, University of California Berkeley
Joshua Vogelstein, Johns Hopkins University

Course Moderators
Fritz Sommer and Jeff Teeters, Redwood Center for Theoretical Neuroscience.

To complement the main course instruction there will be lectures in the evenings by local Berkeley and UCSF neuroscientists presenting their research using quantitative approaches.

Applicants should be familiar with linear algebra, probability, differential and integral calculus and have some experience using MatLab and Python.  Each student should bring a laptop with both MatLab and Python installed. 

There is no cost to attend.  Non-local attendees will be reimbursed for economy travel expenses (up to a maximum, probably about $500) and also for qualifying food expenses if receipts are provided.

Rooms in a nearby hotel will be provided for those attendees who need accommodations. 

Breakfast and some dinners will be provided to all participants as a group.  Non-local attendees can purchase food at local stores or restaurants and be reimbursed.

How to apply
To apply, submit the online form linked from: http://crcns.org/course.   A curriculum vitae and a letter of recommendation are required.  The course is limited to 25 students.

Applications must be received by the end of April.   Notifications of acceptance will be given by May 15.

Questions about the course can be sent to course [at] crcns.org.

Topics covered (subject to change):
Basic approaches:
-	The problem of neural coding
-	Spike trains, point processes, and firing rate
-	Statistical thinking in neuroscience
-	Theory of model fitting / regularization / hypothesis testing
-	Overview of stimulus-response function models
-	Theory of model fitting / regularization / hypothesis testing
-	Bayesian methods
-	Spike sorting 
-	Estimation of stimulus-response functionals:  regression methods, spike-triggered covariance, 
-	Variance analysis of neural response
-	Estimation of SNR. Coherence
Information theoretic approaches:
-	Information transmission rates
-	Scene statistics approaches and neural modeling
Techniques for analyzing multiple-electrode and optical neural recordings:
-	Event sorting in electrophysiology and optical imaging
-	Optophysiology cell detection
-	Sparse coding/ICA methods, vanilla and methods including statistical models of nonlinear dependencies
-	Methods for assessing functional connectivity
-	Statistical issues in network identification
-	Low-dimensional latent dynamical structure in network activity–Gaussian process factor analysis/newer methods
Analyzing structural data:
-	Histology cell detection
-	Statistical connectomics
Neuroinformatics topics:
-	Petascale data storage, exploration, parsing and analysis
-	Introduction into Neurodata Without Borders data format for Neurophysiology

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