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Latest revision as of 06:25, 12 June 2015
Contents
Personal Information
My name is Amanda Wert and I am a double major in Math and Computer Science at Benedictine College in Kansas. I am planning on graduating in December of 2012 and hopefully move back to Appleton, Wisconsin and be a software developer.
Time Log
Week 1
Tuesday, May 31
- Was orientated
- Learned expectations
- Toured campus
- Filed paperwork
Time: 6 1/2 hrs
Wednesday, June 1
- Worked with the Wiki
- Created user page and updated recent activities
- Met with Dr. Spiller and Dr. Scott and received readings
- Read the first chapter of a textbook on Chaotic Dynamics
- Read Driscoll, Tobin A. Learning MATLAB. 2009 Chapters 1-4 and 6
- Played around with MATLAB
- Reread Learning MATLAB chapter 2
- Read Chapter 6 (Diff Eq) section 1 (IVP and Euler's Method) of a textbook on Numerical Analysis
Time: 8 hrs
Thursday, June 2
- Reread Learning MATLAB chapters 3 and 4
- Feel very comfortable with MATLAB and prepared to examine the code I'll be working with
- Researched Linear Shallow Water Equations online
- Found general background information but did not find an understandable technical description of the equations or how to use them
- Met with Dr. Scott and discussed:
- The code for the program that measures how a fluid particle's path covers the sample space among other things
- Goals for the summer
- Pere the super computer
- Logged onto Pere
- Went to the talk by Dr. Factor on good research practices and learned:
- To be careful because internet sources can lie
- To be both thorough and reasonable
- The goal of the summer is to gather information to make a conjecture and then support it
- Listened to a presentation on how to use the library online resources
- Familiarized myself with the Ergodic Defect script
- I am comfortable with what the program is doing though not with all the technical math behind it
- Read about how to submit jobs to Pere and looked up words/concepts I didn't know
- Need to find out how to run the job in Octave
- Skimmed Condor manual: http://www.cs.wisc.edu/condor/manual
- Began skimming Apte, Jones, Stuart. A Bayesian approach to Lagrangian data assimilation. 2007.
Time: 8 hrs
Friday, June 3
- Reviewed the Ergodic Defect script
- I am now very comfortable with everything the program does though still not with all of the technical math behind it
- Reviewed the Runge Kutta 4 script
- Reread the first chapter of a textbook on Chaotic Dynamics
- Played with the Ergodic Defect script
- Researched Condor
- Unsure how to submit MATLAB jobs but does not matter as I will be now using PBS/Torque
- Met with Dr. Scott
- Discussed goals
- Emailed Feng for help with Condor
- Answered my questions on the scripts
- Worked with Feng
- He showed my how to submit jobs using PBS :)
- Worked with PBS on my own
- I now know how to submit jobs and edit things on ssh
- Added goals and project page to wiki
Time: 6 hrs
Saturday, June 4
- Read Chapter 6 (Diff Eq) sections 1-4 of a textbook on Numerical Analysis
- Skimmed Apte, Jones, Stuart. A Bayesian approach to Lagrangian data assimilation. 2007.
Time: 4 hrs
Week 2
Sunday, June 5
- Read Chapter 6 (Diff Eq) sections 5-7 of a textbook on Numerical Analysis
- Read Apte, Jones, Stuart. A Bayesian approach to Lagrangian data assimilation. 2007.
- Sections 1 and 2
- Looked at running Ergodic Defect script in Pere
- How to put changing inputs in and get intelligible outputs out
Time: 3 hrs
Monday, June 6
- Reread the first chapter of a textbook on Chaotic Dynamics
- Worked with MATLAB and Pere
- Ran MATLAB functions that took input and output files on both
- Made an edited version of the Ergodic Defect script that takes an input file and writes to an output file
- Ran the edited version on Pere
- Ran an array of jobs using different inputs of the edited version on Pere
- Reviewed the two uses of Runge Kutta 4 Methods for Ergodic Defect Script
- Became more familiar with LSW equations
- Made a generic Runge Kutta 4 method for a system of up to 4 equations
- Put as a sub-function into a modified Erg Def script and used for flow field RK
- Same speed (maybe a bit slower)
- Should be useful when the third dimension will be added
- Put as a sub-function into a modified Erg Def script and used for flow field RK
- Wrote a program that will generate input files for the parameter sweep
- Still needs to be tested
- Reexamined Ergodic Defect code to prepare for adding a third dimension
- Marked places where dimension matters
- Re-went through variables to better understand calculations
- Need to finish this tomorrow morning
Time: 9 hrs
Tuesday, June 7
- Tested the input writing program
- Got everything ready in Pere to run a parameter sweep
- Finished going over variables to better understand calculations
- Edited Ergodic Defect code to easily take a third dimension
- Met with Dr. Spiller, Regis, and Paul to discuss Numerical Analysis theory
- Looked at previous posters and made a rough outline for presentation
- Read for background information
- Shalizi, Cosma Ergodic Theory
- Scott, Sherry E., et al. “Capturing deviation from ergodicity at different scales.” Physica D, 2009.
- Vreugdenhil C.B. "Numerical Methods for Shallow-Water Flow" Kluwer Academic Publishers. Dordrecht, The Netherlands. 1994.
- Acheson D.J. "Elementary Fluid Dynamics" Oxford University Press, Oxford. 1990.
Time: 9 hrs
Wednesday, June 8
- Read Learning MATLAB chapter 5 for knowledge of graphics
- Researched MATLAB graphics functions
- Found | MathwWorks' MATLAB Help Section very useful
- Sketched out what would needed for a grayscale picture of the ergodic defects of individual trajectories
- Met with Dr. Scott to discuss making the ergodic defect picture
- Implemented the code and got a picture
- Tried to run on Pere
- Had problems with writing/displaying the picture as output
- Found out I was using functions from the Image Procession Toolkit which the version of MATLAB on Pere does not have
- Feng Xizhou fixed that for me :)
- Now it works perfectly and is the version I am using
- Worked on a method of drawing the picture that does not use those functions
- Continued working after the problem was fixed because this way may be better overall
- Ended up failing
- Changed the script to calculate the average of individual ergodic defects at 5 scales
Time: 9 hrs
Thursday, June 9
- Added additional outputs to average picture script
- Got Pere ready
- Skimmed Rypina, I.I., et al. "Investigating the connection between complexity of isolated trajectories and Lagrangian coherent structures." 2011
- Met with Dr. Scott
- Submited the base case
- Went to the working lunch
- Worked on adding a title to the picture--didn't work
- Worked on creating a scale diagram to go with the pictures
- Tried to remote log onto Pere from home but it didn't work
Time: 7 hrs
Friday, June 10
- Tried to log onto Pere
- Had to go through Pascal and then Pere shut down
- Tried to download Octave
- Didn't work
- Handwrote plan for some cases Dr. Scott requested because text editor on Pascal wasn't working
- Typed up and ran the cases until Pere shut down again
- Pretty sure they are bug free and will quickly run in the morning
Time: 4 hrs
Saturday, June 11
- Ran the cases Dr. Scott had asked for
- The base case with the same gray scale
- The trajectories of the two particles
- Started the parameter sweep
- Ran the first 500
- Found out Monday I had made a mistake and would have to rerun
Time: 3 hrs
Week 3
Monday, June 13
- Discovered I had a problem with the inputs for my parameter sweep
- Fixed it and restarted the sweep
- Made a gray scale diagram for the LSW pictures
- Met with Dr. Scott and discussed:
- Parameter sweep
- MMW flows
- Future applications
- Reread Apte, Jones, Stuart. A Bayesian approach to Lagrangian data assimilation. 2007.
- Read the beginning of Malhotra, Mezic, Wiggins. Patchiness: A New Diagnostic for Lagrangian Trajectory Analysis in Time-Dependent Fluid Flows. 1998.
- Compared the equations for the two
- Adjusted the Ergodic Defect code to use the MMW equations
- Edited/cleaned up my project page on the wiki
- Found out I was doing the parameter sweep inefficiently
Time: 8 hrs
Tuesday, June 14
- Printed off pictures of MMW in preparation for meeting with Dr. Scott
- Added titles to the pictures
- Troubleshooted with Pere
- No jobs I submit will run
- Met with Dr. Scott and discussed:
- MMW flows
- Trajectories
- She gave me code that another student had made that made a movie of the flow
- Went to a talk on Good Research Presentations and Good Research Papers by Dr. Brylow
- Worked with the MMW trajectories
- Realized my problem--I had forgotten to modify the mod function when I modified the rest of the code
- Fixed that
- Made the ergodic defect picture drawing scripts more efficient
- Combined loops and used a build in function in find(...) instead of max(find(...))
- Thought about where I wanted to go with my research
- Tried different things on Pere to get it to work
- Worked with trajectories to make sure I had the correct code
Time: 9 3/4 hrs
Wednesday, June 15
- My birthday! whoot!
- Worked with the trajectories to try to make Fig. 2 from the MMW paper
- Went to the conference on cloud computing in Appleton
Time: Conference + 3/4 hrs
Thursday, June 16
- Used Gabe's code to make a movie of the MMW trajectories
- Tried to run the parameter sweep
- Pere was working but then it stopped...:/
- Working lunch
- Went to a required NSF talk on Research Ethics
- Met with Dr. Scott
- Made small edits to MMW script
- Started the 10 T's but again, Pere won't run any jobs
- Started reading Bullitt, Elizabeth, et al. "Measuring Tortuosity of the Intracerebral Vasculature from MRA Images." 2003.
Time: 8 1/2 hrs
Friday, June 17
- Read Bullitt paper
- Thought about how to measure ergodic defect of sine graphs
- Edited code to measure the ergodic defect of sine graphs
- Varying frequency and amplitude
- Tried to submit jobs in Condor because Pere still wasn't running the jobs
- Didn't work
- Ran sine graph code to see if there is a correspondence with tortuosity
- I couldn't find one
- Made a code that drew the trajectories for the sine graphs
- Learned how to use Condor from Adam
- Met with Dr. Scott
Time: 7 hrs
Week 4
Monday, June 20
- Organized and prioritized tasks to be completed
- Run MMW sweep for the various T's
- Skimmed Rom-Kedar, V., and Poje, A. C. "Universal Properties of Chaotic Transport in teh Presence of Diffusion." 1999.
- Set up the Rom-Kedar flow script
- Did not find explicit u and v so used my calculator to solve for the complicated partial derivatives
- Fixed the dxdy problem for MMW, tortuosity, and Rom-Kedar
- Hadn't been using the correct area
- Skimmed Scott, Sherry E., et al. “Capturing deviation from ergodicity at different scales.” Physica D, 2009.
- Researched various terms on google to try to understand the underlying math and notation
- Adjusted domain of tortuosity d value calculations
- Made code for the coil tortuosity
Time: 9 1/2 hrs
Tuesday, June 21
- Collected output from LSW parameter sweep
- Tried to print the toruosity trajectories for the new domain
- There was some problem either with the mod-ing or the plot function, the trajectories were unintelligible
- Looked at the problems in the script with calculating the defect
- The normalization factor and maybe another constant had gotten lost from the code
- Fixed Rom-Kedar code for ln instead of log10
- Skimmed Capturing deviation from ergodicity at different scales some more
- Fixed the sine trajectory picture
- Cleaned up various scripts
- Added normalization factors to various scripts
- May not be needed...
- Skimmed some papers on chaotic advectation
- Went through the LSW parameter sweep data to look for patterns
Time: 9 hrs
Wednesday, June 22
- Looked at the temperature data
- Consolidated the LSW parameter sweep data into a single matrix
- Made graphs using data
- Skyped/talked with Dr. Scott
- Found a way to save the trajectories of the particles in the flow
- Started jobs to get more detail on h1=+-.5
- Thought about how to make the code faster
Time: 8 hrs
Thursday, June 23
- Made trajectory movies
- Examined data
- Grayscale pictures
- Individual trajectory
- Made combined graphs for Avg d vs u1 and Avg d vs h1 with the varying other parameter (u1 or h1)
- Working lunch
- Made the script much faster
- Wrote outline for presentation
- Worked more with the movies
- Skyped with Dr. Scott
Time: 9 hrs
Friday, June 24
- Made more combined graphs
- Adjusted code for mapping
- Made tortuosity pictures
- Worked with the LSW movie
- Obtained tortuosity sine data
- Worked with coil toruosity
- Varies u0 to see if the step size needs to be increased
Time: 8 1/2 hrs
Week 5
Monday, June 27
- Finished varying u0
- Do not need to change step size
- Made pictures of the coil trajectories
- Wrote setup sheets for tortuosity and MMW
- Obtained tortuosity coil data
- d values, xyindcounts, and pictures
- Tested for number of uncounted boundary cases
- Very few compared to the number of counts so its ok
- Skimmed the chapter on LSW to review for presentation
- Ensured synthetic tortuosity matched the Bullitt et al 2003 paper
- Had trouble with corresponding same start/end voxel
- Reread the tortuosity paper
- Worked on my presentation
- Met with Dr. Scott
- Worked u0
Time: 9 hrs
Tuesday, June 28
- Worked on presentation
- Made the start/end voxels the same for tort
- Ready Rypina paper on Largrangian structures and Scott paper on ergodic defect
- Met with Dr. Scott
- Set up u0 varying parameter sweep
Time: 8 hrs
Wednesday, June 29
- Worked on presentation
- Made the coil 3d
- Worked with u0 data
- Finished collecting and consolidated data
- Reread Scott, et. al on the Ergodic Defect
Time: 7 hrs
Thursday, June 30
- Worked on presentation
- Thought about how to use ergodic defect to measure tortuosity effectively
- Listened to other present and gave my presentation
- Worked with u0 data
- Tried to figure out an informative way to graph
Time: 8 hrs
Friday, July 1
- Read various papers for background info
- Looking for inspiration on how to process LSW data and how to measure tortuosity
- Worked with u0 data
- Researched vessel segmentation
- Read on chaotic advection
Time: 7 hrs
Week 6
Tuesday, July 5
- Worked on making tortuosity sampling evenly spaced
- Read on chaotic advection
- Went to a talk on making a good poster
- Started 3 small parameter sweeps exploring
- LSW for h1=0:0.01:0.1 and u1=-0.5:0.1:0.5
- LSW for h1=0.3:0.1:0.5 and u1=-5:0.1:-1.9
- MMW for Epsilon 0:.05:0.5 and T=0.5:0.5:3
- Found out I made a mistake and so restarted the run on Thursday
Time: 9 hrs
Wednesday, July 6
- Worked with the temperature data
- Consolidated and calculated ergodic defects
- Made grayscale pictures
- Dealt with the NaN values
- Broke the data into 4 sets for more detailed graphing
- Worked with tortuosity
Time: 8 hrs
Thursday, July 7
- Consolidated data from the small parameter sweeps from Tuesday
- Fixed MMW and restarted small sweep
- Worked with the tortuosity data
- Cleaned up folders
- Working lunch
- Listened to a talk by Dr. Struble
Time: 7 hrs
Week 7
Monday, July 11
- Worked with the tortuosity data
- Wrote a program to automatically write the excel file for me
- Consolidated the MMW data
- Edited the sine and coil scripts so that the number of scales can be varied
Time: 8 hrs
Tuesday, July 12
- Worked with the tortuosity averaging scales 3 to 5
- Put comments in code describing purpose and reasoning
- Tortuosity
- LSW
Time: 8 hrs
Wednesday, July 13
- Fixed the Arclength program
- Used it to calculate the ergodic defect of the sine waves
- Made the tortuosity set up sheet more detailed
- Worked with the Rom Kedar flows
- Fixed the equations
- Attempted ways to make it faster
Time: 7 1/2 hrs
Thursday, July 14
- Made sure everything in the tortuosity and Rom Kedar sections were good to go
- Made the LSW set up and observations sheet more detailed
- Added observations to the detailed tortuosity set up sheet
- Went to the working lunch
- Further commented the code
- MMW
- Rome Kedar
- Temperature
- Started editing code to calculate the ergodicity defect of the temperature of the floats
Time: 8 1/2 hrs
Friday, July 15
- Finished editing the code to calculate the ergodicity defect of the temperature of the floats
- Made grayscale pictures
- Made a comparison graph between the two types of defects--position and temperature
- Proofed comments of various codes and made more detailed
- Went over comments from the presentation to improve for next time
- Read the paper on the Loop Current in the Gulf of Mexico
- Calculated the defect for more detailed synthetic sine wave data
- Met with Dr. Scott and went over:
- MMW-how to get fig 2.
- Rom Kedar - how to get fig 3 and 4
Time: 7 1/2 hrs
Week 8
Monday, July 18
- Tried various ways to make fig 2 pic 1 for MMW
- Tried to make fig 3 for Rom Kedar
- Didn't succeed at all
- Met with Dr. Scott and discussed:
- Other ways to get MMW and Rom Kedar right
Time: 7 1/2 hrs
Tuesday, July 19
- Set up more detailed u0 sweep
- Made movies of various trajectories
- Tried to make fig 2 pic 1 for MMW
- Somewhat succeeded but mine is more continuous
- Tried to make fig 3 for Rom Kedar
- Didn't succeed at first
- Ran for a much longer time interval and it worked
- Met with Dr. Scott to discuss achievements so far
- Played around with LSW trajectory movies
Time: 8 1/2 hrs
Wednesday, July 20
- Examined relationship and effects of parameters
- Why white line is where it is when u0=0
- What happens as you vary u1 and h1 for u0=0
- Examined change as u0 approaches 0
- Made trajectory movies
- Documented observations so far
- Consolidated u0 data and graphed
- Tried to get fig 3 from Rom Kedar
- Succeeded in fig 3c
- Met with Dr. Scott to discuss current progress
- Tried to obtain fig 2 from MMW
Time: 8 hrs
Thursday, July 21
- Ran some trials with u1=u0=0 for a larger endt
- Tried to obtain fig 2 from MMW
- Was able to get a discrete grayscale like theirs
- Worked on my final presentation
- Made some movies of LSW gray scale pictures
- Went to the working lunch
- Met with Dr. Scott and discussed
- Tortuosity data to come tomorrow! :D
- Crazy LSW behavior
- Thought about why certain LSW behavior occurs
- Got a script ready to process the real tortuosity data for tomorrow
Time: 9 1/2 hours
Friday, July 22
- Explored why the the white line appears where it does
- Reread MMW and tortuosity
- Looked at LSW with different endt
- Tried to reproduce fig 2 of MMW
Time: 6 hrs
Week 9
Monday, July 25
- Found the mean Temperature values
- Worked on my poster
- Tried to get the tortuosity software to work
- Met with Dr. Scott
- Extracted vessel XYZ data and tested with script
Time: 9 hrs
Tuesday, July 26
- Played around with Paraview
- Worked on my poster
- Met with Dr. Scott
- Made graphs for the tortuosity
Time: 7 1/2 hrs
Wednesday, July 27
- Worked on my poster
- Fixed the problem with LSW quiver plots
- Played around with tortuosity data
Time: 7 1/2 hrs
Thursday, July 28
- Worked with tortuosity data
- Documented my work with LSW
- Went to the working lunch
- Met with Dr. Scott
Time: 8 hours
Friday, July 29
- Worked on my abstract for my final talk
- Worked with tortuosity data
- Met with Dr. Scott
Time: 10 1/2 hrs
Week 10
Monday, August 1
- Worked with tortuosity data
- Met with Dr. Scott
- Submitted our abstract for the SPIE conference
- Worked on presentation
Time: 7 hrs
Tuesday, August 2
- Presented posters
- Worked on presentation
Time: 5 hrs
Wednesday, August 3
- Worked on presentation
- Gave and listened to presentations
- Worked on final paper
Time: hrs