Difference between revisions of "RITworkshop2017"

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Instructors: Elizabeth M. Cherry (Rochester Institute of Technology) and Flavio H. Fenton (Georgia Institute of Technology)
 
Instructors: Elizabeth M. Cherry (Rochester Institute of Technology) and Flavio H. Fenton (Georgia Institute of Technology)
[[File:Buzz gatech.gif]]
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[http://wiki.chaos.gatech.edu/images/7/75/Workshop2017Participants.jpg Workshop 2017 Group Photo]
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= Schedule =
 
= Schedule =
 
Sunday (01/08)
 
Sunday (01/08)
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*8:45am: Hotel shuttle transport to RIT campus
 
*8:45am: Hotel shuttle transport to RIT campus
 
*9am - 2:45pm: Science
 
*9am - 2:45pm: Science
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= Final Presentations =
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[http://wiki.chaos.gatech.edu/images/1/1c/AlisonReneeTony_COOLSTUFF.pptx Alison, Renee, Tony]
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[http://wiki.chaos.gatech.edu/images/8/8c/BellaNorahSean_Dynamics_of_Excitable_Systems.pptx Bella, Nora, Sean]
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[http://wiki.chaos.gatech.edu/images/8/88/BrendaJenniferLeo_Presentation.pptx Brenda, Jennifer, Leo]
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[http://wiki.chaos.gatech.edu/images/e/ef/DanielJoelPat_An_exploration_of_numerical_cardiac_dynamics.pptx Daniel, Joel, Pat]
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[http://wiki.chaos.gatech.edu/images/e/e4/IanNathanZach_finalpresentation1.pptx Ian, Nathan, Zach]
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[http://wiki.chaos.gatech.edu/images/7/70/JamieJennyRachel_Effect_of_the_L-Type_Calcium_and_K1_Potassium.pptx Jamie, Jenny, Rachel]
  
 
= Resources =
 
= Resources =
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== Workshop Notes ==
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[http://wiki.chaos.gatech.edu/images/c/c9/StabilityAnalysisAffineDiscreteMaps.pdf Stability Analysis]
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[http://wiki.chaos.gatech.edu/images/d/db/Sunday.pdf Sunday]
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[http://wiki.chaos.gatech.edu/images/7/77/Monday.pdf Monday]
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[http://wiki.chaos.gatech.edu/images/e/ef/Tuesday.pdf Tuesday]
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[http://wiki.chaos.gatech.edu/images/c/cf/Wednesday.pdf Wednesday]
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[http://wiki.chaos.gatech.edu/images/2/2f/Thursday.pdf Thursday]
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== Slides ==
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[http://wiki.chaos.gatech.edu/images/3/3b/CardiacElectrophysiologyOverview.pdf Cardiac Electrophysiology Overview]
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[http://wiki.chaos.gatech.edu/images/a/aa/20160112_RIT.pdf Visualizing Electrical Activity in the Heart]
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== Videos ==
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[https://www.youtube.com/watch?v=TJR2AfxVHsM Arrhythmias in motion]
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[https://www.youtube.com/watch?v=bQnFzTT7Ioc Us!]
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== Existential Crisis material ==
 
== Existential Crisis material ==
 
[http://www.simulation-argument.com/simulation.pdf Are we a simulation? (Nick Bostrom)]
 
[http://www.simulation-argument.com/simulation.pdf Are we a simulation? (Nick Bostrom)]
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[http://thevirtualheart.org/ The Virtual Heart]
 
[http://thevirtualheart.org/ The Virtual Heart]
  
[https://drive.google.com/open?id=0Bwgl0UVdq9iNWXFlYlhQaXd2d3dGSm1wRXFlZ0xYRE9wU21n Numerical Integration (pdf)]
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[http://wiki.chaos.gatech.edu/images/3/35/Workshop_numerical_integration.pdf Numerical Integration (pdf)]
  
 
== Opportunities ==
 
== Opportunities ==
[https://drive.google.com/open?id=0Bwgl0UVdq9iNaDBiLTZhWmdWSlplMHhidTZpZFlIXzBweFhr Membership Opportunities (pdf)]
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[http://wiki.chaos.gatech.edu/images/c/ce/You_belong.pdf Membership Opportunities (pdf)]

Latest revision as of 12:57, 20 January 2017

What makes your heart beat regularly or go out of control? Can chemical reactions change colors continuously? What happens when you burn a candle at both ends? Why can't we predict the weather more than a few days in advance?

Excitable systems are found throughout nature and have three main properties that can be illustrated through a canonical example, a forest fire.

  • Behavior threshold (no fire occurs without a sufficiently large stimulus like a lightning strike or initial blaze set by a camper).
  • Wave propagation without damping (the fire continues to spread to any nearby unburned trees).
  • Recovery period (the forest must regrow before another fire can occur).

Numerous biological and physical systems are excitable, with perhaps the most famous examples being cardiac and neural cells. Related oscillatory systems exhibit similar properties but produce their own stimuli without the need for an external perturbation

This workshop focuses on understanding the electrical properties of the heart. Individual cardiac cells are excitable and support propagation of electrical signals, which trigger contraction. Disruptions of this signaling can lead to serious health issues but also demonstrate interesting dynamics, including period-doubling bifurcations and formation of interesting patterns like spiral waves. Along the way, we will study simpler physical systems that show similar behavior and use these systems as a gateway to building understanding of the physics and mathematics that can describe such systems.

The workshop will alternate lectures with laboratory and collaborative exercises involving discussion, group work, experiments with physical systems, and computational modeling. In addition, participants will work in teams on a project. The teams will bring together students from multiple disciplines to assemble a diversity of backgrounds and expertise.

Instructors: Elizabeth M. Cherry (Rochester Institute of Technology) and Flavio H. Fenton (Georgia Institute of Technology)

Workshop 2017 Group Photo

Schedule[edit]

Sunday (01/08)

  • 12:45pm: Hotel shuttle transport to RIT campus
  • 5:15pm: Shuttle transport to hotel

Monday (01/09) - Friday (01/13)

  • 8:45am: Hotel shuttle transport to RIT campus
  • 9am - 5pm: Science
  • 5:15pm: Shuttle transport to hotel

Saturday (01/14)

  • 8:45am: Hotel shuttle transport to RIT campus
  • 9am - 2:45pm: Science

Final Presentations[edit]

Alison, Renee, Tony

Bella, Nora, Sean

Brenda, Jennifer, Leo

Daniel, Joel, Pat

Ian, Nathan, Zach

Jamie, Jenny, Rachel

Resources[edit]

Workshop Notes[edit]

Stability Analysis

Sunday

Monday

Tuesday

Wednesday

Thursday

Slides[edit]

Cardiac Electrophysiology Overview

Visualizing Electrical Activity in the Heart

Videos[edit]

Arrhythmias in motion

Us!

Existential Crisis material[edit]

Are we a simulation? (Nick Bostrom)

Are we living in a computer simulation? (Scientific American)

Numerical Simulation[edit]

The Virtual Heart

Numerical Integration (pdf)

Opportunities[edit]

Membership Opportunities (pdf)