Difference between revisions of "DataVis2012"

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This page contains information on the Data Visualization course taught by [http://vgc.poly.edu/~csilva Professor Cláudio Silva] during Spring 2012 in the Polytechnic Institute of NYU.  
This page contains information on the Data Visualization course taught by [http://vgc.poly.edu/~csilva Professor Cláudio Silva] during Spring 2012 in the Polytechnic Institute of NYU.  


This class meets on Mondays nights, exact times & rooms TBA.
This class meets on Mondays nights, 6-8:25pm, location TBD.


== Course Overview ==  
== Course Overview ==  


Computing, in its many forms, has been an enormous accelerator for
science, leading to an information explosion in many different
fields. As Moore's law and other advances in technology increases our
capacity for acquiring, storing, and generating information, our
ability to analyze these vasts amount of data with existing techniques
and tools is simply not keeping up.  Simply speaking, future
scientific advances depend on our ability to comprehend the vast
amounts of data currently being produced and acquired. Effectively
understand and leverage the growing wealth of scientific data is one
of the greatest research challenges of the 21st century.


There have been estimates of the amount of data being produced and
stored by the human race that support this notion of an "information
big bang". There are estimates that sometime in 2006, the human race
has generated more data in that one year than in all the 40,000 years
before. In this course, we will be concerned with techniques for
analyzing information and scientific data. We take the view that
future advances in science and engineering depend on the ability to
comprehend the vast amounts of data being produced and
acquired. Visualization is a key enabling technology in this endeavor,
it helps people explore and explain data through software systems that
provide a static or interactive visual representation.  A basic
premise of visualization is that visual information can be processed
at a much higher rate than raw numbers and text--as the cliche goes:
"A picture is worth a thousand words".


Despite the promise that visualization can serve as an effective
enabler of advances in other disciplines, the application of
visualization technology is non-trivial. The design of effective
visualizations is a complex process that requires deep understanding
of existing techniques, and how they relate to human
cognition. Although there have been enormous advances in the area, the
use of advanced visualization techniques is still limited.


The demand for the construction of [http://en.wikipedia.org/wiki/Scientific_visualization complex visualizations] is growing in many disciplines of science, as users are faced with ever increasing volumes of data to analyze. In this class, we will cover the principles and techniques necessary to generate these visualizations.  
In this class, we will cover the principles, techniques, and tools
necessary to generate these visualizations.


There will be no required textbook. Kitware's [http://www.kitware.com/products/vtkguide.html VTK User's Guide] might be useful. We will be providing a detailed set of course notes for the class.
There will be no required textbook. We will be providing a detailed set of course notes for the class.


For the assignments, we will be using [http://www.vistrails.org VisTrails], [http://www.vtk.org VTK], and [http://matplotlib.sourceforge.net matplotlib] in this class. For each assignment, the students will need to turn in their complete "vistrail" for the work.  
For the assignments, we will be using a variety of systems, including [http://www.paraview.org ParaView], [http://www.vistrails.org VisTrails], [http://www.vtk.org VTK], [http://matplotlib.sourceforge.net matplotlib], and custom code developed for this class.  


Besides the assignments, there will be one midterm and one final.
Besides the assignments, there will be a midterm, a final, and (for graduate students) a project.


[http://www.coe.utah.edu/SemesterGuidelines.pdf College of Engineering Guidelines]
== Course History ==
 
This course builds on the Visualization course taught at Utah for many years, with contributions by Professors Chris Johnson, Chuck Hansen, Ross Whitaker, among others. [http://www.vistrails.org/index.php/SciVisFall2007] and [http://www.vistrails.org/index.php/SciVisFall2008] are two previous editions of this course taught at the University of Utah.
 
The NYU-Poly offering is being revamped to include more material on information visualization, and a project for graduate students.


== Lectures, and consulting hours ==
== Lectures, and consulting hours ==


We will meet twice a week: Tuesday, Thursday, 10:45am-12:05pm, WEB 112.
We will meet once a week on Mondays.


The instructor for the class is Claudio Silva.
The instructor for the class is [http://vgc.poly.edu/~csilva Claudio Silva].


The TA for the course is Chang Liu.
The TA for the course is TBD.


Silva office hours: Tuesdays and Thursdays (9:45 - 10:45 am), WEB 4893.
Silva office hours: TBD.


TA office hours: Mon, Wed and Fri(10:00-11:00am), CADE lab(Linux) or by appointment chang.liu@utah.edu
TA office hours: TBD.


Please post your questions to teach-cs5630@cs.utah.edu.
Please post your questions to datavis-course-teach [@vgc.poly.edu].


== Schedule ==
== Schedule ==


[http://www.vistrails.org/index.php/SciVisFall2008/Schedule Schedule]
[http://www.vistrails.org/index.php/DataVis2012/Schedule Schedule]
 
We are likely to hold optional classes on Python, CMake, and VisTrails. Those will be discussed and announced in class.
 
== Projects ==


As announced in class, we will hold 2 optional lectures on VisTrails, VTK, and Python. They will be held on WEB Rm# 120 (note room change!), 3-4pm on the following dates:
[http://www.vistrails.org/index.php/DataVis2012/Projects Go to projects]


* August 29th, 2008
== Datasets ==


* September 5th, 2008
We will list the datasets used in the course here.


== Reading ==
== Reading ==
Line 60: Line 100:
[http://diveintopython.org/toc/index.html Dive Into Python]
[http://diveintopython.org/toc/index.html Dive Into Python]


[http://www.kitware.com/products/vtkguide.html VTK User's Guide]
[http://paraview.org/Wiki/ParaView/Users_Guide/Table_Of_Contents ParaView User's Guide]
 
[http://www.kitware.com/products/vtkguide.html VTK User's Guide] (Optional, this is a link to buy the book)


== Assignments ==
== Assignments ==


Assignments will be listed here.
Assignments will be listed here.
Please note the CSE departmental policy on collaboration on programming assignments: http://cis.poly.edu/policies/


== Late Assignments ==
== Late Assignments ==
Line 82: Line 126:
http://vgc.poly.edu/mailman/listinfo/datavis-course
http://vgc.poly.edu/mailman/listinfo/datavis-course


The datavis-course-teach [@vgc.poly.edu] is how you should interact with the instructor staff. Please do not send mail to personal addresses.
The datavis-course-teach [@vgc.poly.edu] is how you should interact with the instructor staff. Please do not send mail to personal email addresses.

Latest revision as of 02:10, 5 March 2012

[WORK IN PROGRESS, final version will be available when the semester starts]

This page contains information on the Data Visualization course taught by Professor Cláudio Silva during Spring 2012 in the Polytechnic Institute of NYU.

This class meets on Mondays nights, 6-8:25pm, location TBD.

Course Overview

Computing, in its many forms, has been an enormous accelerator for science, leading to an information explosion in many different fields. As Moore's law and other advances in technology increases our capacity for acquiring, storing, and generating information, our ability to analyze these vasts amount of data with existing techniques and tools is simply not keeping up. Simply speaking, future scientific advances depend on our ability to comprehend the vast amounts of data currently being produced and acquired. Effectively understand and leverage the growing wealth of scientific data is one of the greatest research challenges of the 21st century.

There have been estimates of the amount of data being produced and stored by the human race that support this notion of an "information big bang". There are estimates that sometime in 2006, the human race has generated more data in that one year than in all the 40,000 years before. In this course, we will be concerned with techniques for analyzing information and scientific data. We take the view that future advances in science and engineering depend on the ability to comprehend the vast amounts of data being produced and acquired. Visualization is a key enabling technology in this endeavor, it helps people explore and explain data through software systems that provide a static or interactive visual representation. A basic premise of visualization is that visual information can be processed at a much higher rate than raw numbers and text--as the cliche goes: "A picture is worth a thousand words".

Despite the promise that visualization can serve as an effective enabler of advances in other disciplines, the application of visualization technology is non-trivial. The design of effective visualizations is a complex process that requires deep understanding of existing techniques, and how they relate to human cognition. Although there have been enormous advances in the area, the use of advanced visualization techniques is still limited.

In this class, we will cover the principles, techniques, and tools necessary to generate these visualizations.

There will be no required textbook. We will be providing a detailed set of course notes for the class.

For the assignments, we will be using a variety of systems, including ParaView, VisTrails, VTK, matplotlib, and custom code developed for this class.

Besides the assignments, there will be a midterm, a final, and (for graduate students) a project.

Course History

This course builds on the Visualization course taught at Utah for many years, with contributions by Professors Chris Johnson, Chuck Hansen, Ross Whitaker, among others. [1] and [2] are two previous editions of this course taught at the University of Utah.

The NYU-Poly offering is being revamped to include more material on information visualization, and a project for graduate students.

Lectures, and consulting hours

We will meet once a week on Mondays.

The instructor for the class is Claudio Silva.

The TA for the course is TBD.

Silva office hours: TBD.

TA office hours: TBD.

Please post your questions to datavis-course-teach [@vgc.poly.edu].

Schedule

Schedule

We are likely to hold optional classes on Python, CMake, and VisTrails. Those will be discussed and announced in class.

Projects

Go to projects

Datasets

We will list the datasets used in the course here.

Reading

The class wiki page will contain up-to-date notes that reflect the material covered in class. We will also add pointers to supplementary material.

In the tentative schedule, there are hints on what to read before attending the class.

Tips for converting VTK pipelines

Reference Material

VisTrails User's Guide

Matplotlib User’s Guide

Dive Into Python

ParaView User's Guide

VTK User's Guide (Optional, this is a link to buy the book)

Assignments

Assignments will be listed here.

Please note the CSE departmental policy on collaboration on programming assignments: http://cis.poly.edu/policies/

Late Assignments

Assignments will not be accepted late. Students will be given a one-time two-day exemption for an unexpected event.

Grading

Your grade will be a combination of assignments, midterm and final.

Mailing List

There are two mailing lists for this class.

The datavis-course [@vgc.poly.edu] mailing list is the general student list for the course. You can sign up for it here:

http://vgc.poly.edu/mailman/listinfo/datavis-course

The datavis-course-teach [@vgc.poly.edu] is how you should interact with the instructor staff. Please do not send mail to personal email addresses.