Difference between revisions of "PhDSupervision:Dhananjay Ipparthi"
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Home address: Rue des Vierges 58, 1000 Bruxelles |
Home address: Rue des Vierges 58, 1000 Bruxelles |
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− | + | WhatsApp number: +32 483 382 207 |
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+ | |||
+ | Telephone number: +32 479 406 747 |
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== Milestones == |
== Milestones == |
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* Three papers |
* Three papers |
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* Thesis |
* Thesis |
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+ | ** [http://iridia.ulb.ac.be/wiki/PhDSupervision:Dhananjay_Ipparthi/Table_of_contents Table of contents] |
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== Project pages == |
== Project pages == |
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+ | |||
⚫ | |||
− | === [[ |
+ | === [[Study of yield predictions of a self-assembling system - extended]] === |
− | === [[Dynamics of self-assembly]] === |
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− | === [[Use of a external agent to break incompatible substructures]] === |
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=== [[Conformational Switching]] === |
=== [[Conformational Switching]] === |
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− | == |
+ | === [[Dynamics of self-assembly]] === |
+ | === [[Dipole words]] === |
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⚫ | |||
⚫ | |||
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− | ** Target journal: ''Micromachines: Special Issue on Building by Self-Assembly'' |
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− | ** Project page: [[Parallel self-assembling systems review paper]] |
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+ | == Papers in progress == |
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⚫ | |||
+ | Updated March 2, 2017 |
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− | ** Authors: Dhananjay Ipparthi, Andrew Winslow, Massimo Mastrangeli, and Marco Dorigo. |
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− | ** Target journal: ''Artificial Life and Robotics Special Issue'' |
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+ | ** Target journal: Soft Matter |
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** Project page: [[Theory of incompatible substructure problem]] |
** Project page: [[Theory of incompatible substructure problem]] |
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+ | ** Forecast submission: March 15, 2017 |
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+ | * <b>Velocities of 2D constrained orbitally shaken particles are Rayleigh distributed</b> |
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− | * Experiments to validate incompatible substructures model and growth of incompatible substructures |
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− | ** Authors: Dhananjay Ipparthi, Nicolas Cambier, |
+ | ** Authors: Dhananjay Ipparthi, Tijmen Hageman, Nicolas Cambier, Metin Sitti, Marco Dorigo, Leon Abelmann and Massimo Mastrangeli |
− | ** Target journal: |
+ | ** Target journal: Advanced Physics Letters |
+ | ** Synopsis: Experimental evidence that velocities of components constrained in 2D that are orbitally shaken are Rayleigh distributed |
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− | ** Synopsis: Study of how the incompatible substructures are formed, how the grow and a summary of possible ways to eliminate the problem. |
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** Project page: [[Dynamics of self-assembly]] |
** Project page: [[Dynamics of self-assembly]] |
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+ | ** Draft to Massimo: March 7th, 2017 |
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+ | ** Forecast submission: May 10th, 2017 |
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+ | * <b>1, 2 and 3 order Chi-distribution </b> |
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− | * Dynamics of a macro-scale self-assembling system |
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− | ** Authors: Dhananjay Ipparthi, |
+ | ** Authors: Tijmen Hageman, Dhananjay Ipparthi, Marc Pichel, Per Arvid Loethman, Marco Dorigo, Massimo Mastrangeli and Leon Abelmann |
− | ** Target |
+ | ** Target journal: TBD |
+ | ** Synopsis: The velocity distribution of 1 particle shaken in 1D, 2D and 3D are respectively Gaussian, Rayleigh and Maxwell-Boltzman distributed. That is, their velocity distributions are nth order of Chi. |
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− | ** Synopsis: Impact of different modes of shaking on a self-assembling system: orbitatl, linear, orbital + linear with kicks (random) |
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+ | ** Forecast submission: April 30, 2017 |
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− | ** Project page: [[Dynamics of self-assembly]] |
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− | * |
+ | * <b>Solutions to the incompatible substructures problem in macroscale systems</b> |
− | ** Authors: Dhananjay Ipparthi, Massimo Mastrangeli and Marco Dorigo |
+ | ** Authors: Dhananjay Ipparthi, Andrew Winslow, Massimo Mastrangeli and Marco Dorigo |
− | ** Target |
+ | ** Target journal: |
+ | ** Synopsis: Presentation of the different approaches to the incompatible substurcture problem: modifying geometry, modifying bonding rules, conformational switching, high inertia particles, partitioning the container and self-assembly. |
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− | ** Synopsis: Study of how high inertia objects can be used to reduce the formation of incompatible substructures. |
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− | ** Project |
+ | ** Project pages: [[Conformational Switching]], [[Use of a external agent to break incompatible substructures]] |
⚫ | |||
+ | ** Forecast submission: July 31, 2017 (it will include parts of PPSN 2015 paper and parts of Theoretical Computer Science 2015 paper) |
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⚫ | |||
⚫ | |||
** Authors: Dhananjay Ipparthi, Massimo Mastrangeli and Marco Dorigo |
** Authors: Dhananjay Ipparthi, Massimo Mastrangeli and Marco Dorigo |
||
− | ** Target journal: |
+ | ** Target journal: ''Micromachines: Special Issue on Building by Self-Assembly'' |
⚫ | |||
− | ** Synopsis: Presentation of a purely mechanical conformational switching mechanism used for self-assembly. |
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− | ** Project page: [[ |
+ | ** Project page: [[Parallel self-assembling systems review paper]] |
== Academic Activities == |
== Academic Activities == |
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− | === 10th March - 3rd September, 2015 === |
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− | * SWARM2015 paper submitted on: 25th May, 2015. |
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− | * Tracking of components in a self-assembling system preliminary thesis submitted by Nicolas on: 28th May, 2015. |
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− | * Theoretical Computer Science paper submitted on: 12th August, 2015. |
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− | * Camera ready version of SWARM2015 paper submitted on: 1st September, 2015. |
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− | |||
− | === 2nd March - 9th March, 2015 === |
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− | * WBI Application submitted on 3rd March, 2015. |
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− | * Master student Nicolas starts today. |
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− | ** I've set up a git repo for the TrackingOfSelfAssembly project. Nicolas, Marco, you and I have access to this repo. |
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− | ** His immediate deliverable to the university is a state of the art section as well as a brief project proposal. |
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− | ** Thus far he has setup OpenCV. He is able to capture image stream and store the frames sequentially. |
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− | ** His next steps will be to detect blobs, and then tracking using frame differencing. |
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− | |||
− | * Towards our work with Andrew |
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− | ** In depth lit review to see if the work we propose has already been done. |
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− | ** Write out outline: relevant literature, physical experiment set up, experiment procedure, analytical model, discussion |
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− | |||
− | * Try out new lead pellets for conformational switching experiments |
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+ | === [[Things I'm taking to MPI]] === |
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− | * Clean up shared Dropbox folder, svn up all changes. |
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+ | === [[Year 5: Feb 2016 - Feb 2017]] === |
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+ | === [[Year 4: Feb 2015 - Feb 2016]] === |
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=== [[Year 3: Feb 2014 - Feb 2015]] === |
=== [[Year 3: Feb 2014 - Feb 2015]] === |
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=== [[Year 2: Feb 2013 - Feb 2014]] === |
=== [[Year 2: Feb 2013 - Feb 2014]] === |
Latest revision as of 09:59, 18 May 2017
Personal Information
Name: Dhananjay Ipparthi
Date of arrival in Brussels: 08th February, 2012
Home address: Rue des Vierges 58, 1000 Bruxelles
WhatsApp number: +32 483 382 207
Telephone number: +32 479 406 747
Milestones
- Three papers
- Thesis
Project pages
Study of yield predictions of a self-assembling system - extended
Conformational Switching
Dynamics of self-assembly
Dipole words
Parallel self-assembling systems review paper
Papers in progress
Updated March 2, 2017
- Yield Predictions for a Model of Homogeneous Parallel Aggregation
- Authors: Dhananjay Ipparthi, Andrew Winslow, Metin Sitti, Marco Dorigo, Massimo Mastrangeli.
- Target journal: Soft Matter
- Synopsis: Statistics to compare model and physical experiments.
- Project page: Theory of incompatible substructure problem
- Forecast submission: March 15, 2017
- Velocities of 2D constrained orbitally shaken particles are Rayleigh distributed
- Authors: Dhananjay Ipparthi, Tijmen Hageman, Nicolas Cambier, Metin Sitti, Marco Dorigo, Leon Abelmann and Massimo Mastrangeli
- Target journal: Advanced Physics Letters
- Synopsis: Experimental evidence that velocities of components constrained in 2D that are orbitally shaken are Rayleigh distributed
- Project page: Dynamics of self-assembly
- Draft to Massimo: March 7th, 2017
- Forecast submission: May 10th, 2017
- 1, 2 and 3 order Chi-distribution
- Authors: Tijmen Hageman, Dhananjay Ipparthi, Marc Pichel, Per Arvid Loethman, Marco Dorigo, Massimo Mastrangeli and Leon Abelmann
- Target journal: TBD
- Synopsis: The velocity distribution of 1 particle shaken in 1D, 2D and 3D are respectively Gaussian, Rayleigh and Maxwell-Boltzman distributed. That is, their velocity distributions are nth order of Chi.
- Forecast submission: April 30, 2017
- Solutions to the incompatible substructures problem in macroscale systems
- Authors: Dhananjay Ipparthi, Andrew Winslow, Massimo Mastrangeli and Marco Dorigo
- Target journal:
- Synopsis: Presentation of the different approaches to the incompatible substurcture problem: modifying geometry, modifying bonding rules, conformational switching, high inertia particles, partitioning the container and self-assembly.
- Project pages: Conformational Switching, Use of a external agent to break incompatible substructures
- Missing: Conformational switching design still not working
- Forecast submission: July 31, 2017 (it will include parts of PPSN 2015 paper and parts of Theoretical Computer Science 2015 paper)
- Review of macroscale parallel self-assembling systems - Not sure it will be done
- Authors: Dhananjay Ipparthi, Massimo Mastrangeli and Marco Dorigo
- Target journal: Micromachines: Special Issue on Building by Self-Assembly
- Synopsis: An in-depth review of macroscale parallel self-assembling systems. Summaries, categorisations and differentiations of the various works till date. Provide open problems.
- Project page: Parallel self-assembling systems review paper