Difference between revisions of "JoelBurdick"

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=== Robotics Projects & Sites ===
 
=== Robotics Projects & Sites ===
* '''Public Data Sets:''' [http://www.rawseeeds.org/ Raw Seeds]; [http://www.willowgarage.com/ Willow Garage]; [http://kos.informatik.uni-osnabrueck.de/3Dscans/ 3D Laser Data sets]; [http://kitchendata.cs.tum.edu TUM Kitchen Data Set]; [http://kos.informatik.uni-osnabrueck.de/3Dscans/ Aass-Loop dataset]; [http://cvpr.in.tum.de/data/datasets/rgbd-dataset/ Freiburg Metallic Sphere RGBD data]
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* '''Public Data Sets:''' [http://kos.informatik.uni-osnabrueck.de/3Dscans/ 3D Laser Data sets]; [http://kitchendata.cs.tum.edu TUM Kitchen Data Set]; [http://kos.informatik.uni-osnabrueck.de/3Dscans/ Aass-Loop dataset]; [http://cvpr.in.tum.de/data/datasets/rgbd-dataset/ Freiburg Metallic Sphere RGBD data]
 
* '''Online Conf. Materials:''' [http://www.acfr.usyd.edu.au/education/summerschool.shtml 4th SLAM Summer School]; [http://safety2010.inrialpes.fr/proceedings/ ICRA 2010 Wkshop on Safe Navigation in Dynamics Environments]; [http://web.mae.cornell.edu/hadaskg/ICRA10/Abstracts.html Formal Methods for Robotics];
 
* '''Online Conf. Materials:''' [http://www.acfr.usyd.edu.au/education/summerschool.shtml 4th SLAM Summer School]; [http://safety2010.inrialpes.fr/proceedings/ ICRA 2010 Wkshop on Safe Navigation in Dynamics Environments]; [http://web.mae.cornell.edu/hadaskg/ICRA10/Abstracts.html Formal Methods for Robotics];
 
* '''Online Courses/Tutorials:''' [http://www.robot-learning.de/Research/LocomotionSeminar Locomotion Seminar Course];
 
* '''Online Courses/Tutorials:''' [http://www.robot-learning.de/Research/LocomotionSeminar Locomotion Seminar Course];
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* [http://slam6d.sourceforge.net 6D Slam@sourceforge]; [http://www.robots.ox.ac.uk/~mobile Fast Appearance Based mapping]; [http://www.petercorke.com/robot Robotics MATLAB Toolbox]; [http://www.chai3d.org Chai3D] (haptics); [http://www.kineocam.com/kitelab KiteLab]; [http://petercorke.com/Home.html Peter Corke\'s tool boxes]; [http://gatmo.org/ GATMO (moving object SLAM)]; [https://www.cs.drexel.edu/~kon/3DGSS/ 3D scale space];
 
* [http://slam6d.sourceforge.net 6D Slam@sourceforge]; [http://www.robots.ox.ac.uk/~mobile Fast Appearance Based mapping]; [http://www.petercorke.com/robot Robotics MATLAB Toolbox]; [http://www.chai3d.org Chai3D] (haptics); [http://www.kineocam.com/kitelab KiteLab]; [http://petercorke.com/Home.html Peter Corke\'s tool boxes]; [http://gatmo.org/ GATMO (moving object SLAM)]; [https://www.cs.drexel.edu/~kon/3DGSS/ 3D scale space];
 
* [http://openrave.programmingvision.com/index.php/Main_Page OpenRave] (main); [http://openrave.programmingvision.com/ordocs/en/html/index.html OpenRAVE]; [http://sourceforge.net/projects/opengrasp/ OpenGrasp];
 
* [http://openrave.programmingvision.com/index.php/Main_Page OpenRave] (main); [http://openrave.programmingvision.com/ordocs/en/html/index.html OpenRAVE]; [http://sourceforge.net/projects/opengrasp/ OpenGrasp];
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* [https://theclassytim.medium.com/robotic-path-planning-rrt-and-rrt-212319121378 Tutorial on RRT, RRT*];
 
* [http://www.ersdac.or.jp/GDEM/E/4.html ASTER high-res digital earth maps];
 
* [http://www.ersdac.or.jp/GDEM/E/4.html ASTER high-res digital earth maps];
 
* '''LaValle Book:''' [http://planning.cs.uiuc.edu/node821.html Dubins Curves]; [http://planning.cs.uiuc.edu/node822.html Reeds-Shepp]; [http://planning.cs.uiuc.edu/node823.html Balkcom-Mason Curves];
 
* '''LaValle Book:''' [http://planning.cs.uiuc.edu/node821.html Dubins Curves]; [http://planning.cs.uiuc.edu/node822.html Reeds-Shepp]; [http://planning.cs.uiuc.edu/node823.html Balkcom-Mason Curves];
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** [https://www.youtube.com/watch?v=Hox26aaWOBU Kawasaki Stainless Steel Arm]; [https://www.youtube.com/watch?v=KBrR6tr_b_4 ReThink Sawyer];
 
** [https://www.youtube.com/watch?v=Hox26aaWOBU Kawasaki Stainless Steel Arm]; [https://www.youtube.com/watch?v=KBrR6tr_b_4 ReThink Sawyer];
  
* '''Fractal Vise:''' [https://www.youtube.com/watch?v=eCfw9fd0mHg 3D printed vise]; [https://www.thingiverse.com/thing:4904044 ThingiVerse model]; [https://hackaday.com/2021/07/10/fractal-vise-holds-odd-shaped-objects-tight/ Hackaday version]; [https://grabcad.com/library/fractal-vice-version-2-1 GrabCad files]; [https://www.prusaprinters.org/prints/70859-fractal-bench-dogclamp-for-workmate Bench Dog VErsion]; [https://grabcad.com/library/fractal-vise-1 More GrabCad]; [https://3dmixers.com/m/98144-fractal-vise-concept-study 3D Mixers Version]
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* '''Fractal Vise:''' [https://www.youtube.com/watch?v=eCfw9fd0mHg 3D printed vise]; [https://www.thingiverse.com/thing:4904044 ThingiVerse model]; [https://hackaday.com/2021/07/10/fractal-vise-holds-odd-shaped-objects-tight/ Hackaday version]; [https://grabcad.com/library/fractal-vice-version-2-1 GrabCad files]; [https://www.prusaprinters.org/prints/70859-fractal-bench-dogclamp-for-workmate Bench Dog VErsion]; [https://grabcad.com/library/fractal-vise-1 More GrabCad]; [https://3dmixers.com/m/98144-fractal-vise-concept-study 3D Mixers Version]; [https://youtu.be/blFg4t3MObM Prototype Version]
  
 
==== Parallel Mechanisms ====
 
==== Parallel Mechanisms ====
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==== Tutorial Stuff ====
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* [https://github.com/Nyandwi/machine_learning_complete GitHub repository on ML examples]
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==== Deep Learning ====
 
==== Deep Learning ====
 
* [https://en.wikipedia.org/wiki/Torch_(machine_learning) Torch Learning Software];
 
* [https://en.wikipedia.org/wiki/Torch_(machine_learning) Torch Learning Software];
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* '''Convolution:''' [http://timdettmers.com/2015/03/26/convolution-deep-learning/ Understanding Convolution In Deep Learning]; [https://www.cs.unc.edu/~wliu/papers/GoogLeNet.pdf Going Deeper with Convolutions/GoogLeNet]; [https://medium.com/@ageitgey/machine-learning-is-fun-part-3-deep-learning-and-convolutional-neural-networks-f40359318721#.k8qzvrmzv Deep Learning and Convolutional Nets]; [https://brohrer.github.io/how_convolutional_neural_networks_work.html How Do Convolutional Nets Work?]; [https://ujjwalkarn.me/2016/08/11/intuitive-explanation-convnets/ Intuitive Explanation of Convolutional Neural Networks];
 
* '''Convolution:''' [http://timdettmers.com/2015/03/26/convolution-deep-learning/ Understanding Convolution In Deep Learning]; [https://www.cs.unc.edu/~wliu/papers/GoogLeNet.pdf Going Deeper with Convolutions/GoogLeNet]; [https://medium.com/@ageitgey/machine-learning-is-fun-part-3-deep-learning-and-convolutional-neural-networks-f40359318721#.k8qzvrmzv Deep Learning and Convolutional Nets]; [https://brohrer.github.io/how_convolutional_neural_networks_work.html How Do Convolutional Nets Work?]; [https://ujjwalkarn.me/2016/08/11/intuitive-explanation-convnets/ Intuitive Explanation of Convolutional Neural Networks];
 
* [https://deepmind.com/blog/article/building-architectures-that-can-handle-the-worlds-data Deep Mind Perceiver IO]; [https://cloud.google.com/vertex-ai Google Vertex AI];
 
* [https://deepmind.com/blog/article/building-architectures-that-can-handle-the-worlds-data Deep Mind Perceiver IO]; [https://cloud.google.com/vertex-ai Google Vertex AI];
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* [https://manasraza.medium.com/resources-for-learning-graph-neural-networks-52961790ce7 Resources for Graph neural Networks]
  
 
==== Reinforcement Learning ====
 
==== Reinforcement Learning ====
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==== Depth Estimation ====
 
==== Depth Estimation ====
 
* [https://medium.com/toyotaresearch/self-supervised-learning-in-depth-part-1-of-2-74825baaaa04 TRI Depth Estimation Story/Code]
 
* [https://medium.com/toyotaresearch/self-supervised-learning-in-depth-part-1-of-2-74825baaaa04 TRI Depth Estimation Story/Code]
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==== Explainable AI ====
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* [https://christophm.github.io/interpretable-ml-book/ Explainable Machine Learning] (on-line book)
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* [https://hci.stanford.edu/courses/cs335/2020/sp/lec3.pdf On-line Lecture Fair AI]
 
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* [https://www.robotshop.com/en/open-rover-robot-tracked-bundle.html Rover Robotics Open Source Tracked VEhicle];
 
* [https://www.robotshop.com/en/open-rover-robot-tracked-bundle.html Rover Robotics Open Source Tracked VEhicle];
  
* ''' RC Scale Tracks:''' [https://www.ebay.com/p/Xtra-Speed-TANKY-All-Terrain-Tracks-Blue-Axial-Scx10-Wraith-RC-Car-xs-59606bu/1544816496?iid=132236611053&chn=ps Tanky Tracks]; [https://store.rc4wd.com/Predator-Tracks_c_176.html Predator Tracks]; [https://www.integy.com/st_prod.html?p_prodid=15671&p_catid=257&ratesortby=New#.UzDDe2e9Kc1 RC Snowmobile Track Conversion]; [https://www.amainhobbies.com/team-integy-traxxas-snowmobile-sandmobile-conversion-kit-blue-intt4122bl/p227293 Integy Traxxas Snowmobile Conversion]; [https://www.amainhobbies.com/team-integy-traxxas-front-snowmobile-sandmobile-conversion-kit-blue-intt8632bl/p274377?gclid=CJ6ToIuxtsoCFYdgfgod2ysPTA Integy Traxxas Snowmobile Conversion (1/10)];  
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* ''' RC Scale Tracks:''' [https://www.ebay.com/p/Xtra-Speed-TANKY-All-Terrain-Tracks-Blue-Axial-Scx10-Wraith-RC-Car-xs-59606bu/1544816496?iid=132236611053&chn=ps Tanky Tracks]; [https://www.integy.com/st_prod.html?p_prodid=15671&p_catid=257&ratesortby=New#.UzDDe2e9Kc1 RC Snowmobile Track Conversion]; [https://www.amainhobbies.com/team-integy-traxxas-snowmobile-sandmobile-conversion-kit-blue-intt4122bl/p227293 Integy Traxxas Snowmobile Conversion]; [https://www.amainhobbies.com/team-integy-traxxas-front-snowmobile-sandmobile-conversion-kit-blue-intt8632bl/p274377?gclid=CJ6ToIuxtsoCFYdgfgod2ysPTA Integy Traxxas Snowmobile Conversion (1/10)];  
  
 
* [https://www.techeblog.com/darpas-robotic-suspension-system-adapts-to-rough-terrain-and-glides-over-any-obstacles-this-video-shows-how/  DARPA Adaptive Track program]; [https://www.youtube.com/watch?v=rEn0aH8DRcM  ITU Rover];
 
* [https://www.techeblog.com/darpas-robotic-suspension-system-adapts-to-rough-terrain-and-glides-over-any-obstacles-this-video-shows-how/  DARPA Adaptive Track program]; [https://www.youtube.com/watch?v=rEn0aH8DRcM  ITU Rover];

Latest revision as of 14:03, 29 March 2022

Welcome to my personal research wiki page. I use this wiki to link to sites of research/technical/academic/administrative interest, and to keep files relevant to my research collaborations. This wiki is permanently under construction, as it evolves with my research activiites. Hopefully you can find something of use here.

Quick Facts about Me

Current Research Projects & Interests

My research is divided between traditional robotics research, and collaborations with neuroscientists to develop technology for paralyzed nervous systems. More information can be found at the Burdick Research Group Homepage

Robotics Research

Quick Links

Teaching

On-Line Publications/Catalogs

Handy References

Conferences, Proposals, etc.

Quick Personal Links

Robotics Links

Robotics Projects & Sites

Opensource

Robotics Events, News, Community

Robotics Competitions

Robots in Fiction & Cinema

Robot Hardware/Mechanisms Links

  • Research Bots: HiBot (Hirose lab spin-off);

Mechanisms

Parallel Mechanisms

Servos/Controllers/Electronics

Embedded Computing/Interface Hardware

Force Sensors

Sensing

Vision

Motors/Actuators/Gears

Software Resources

GPU Computing


Motor/Drive Resources

Motor-related Sites

Tutorial

Servo Drive Electronics

Tensor methods


Machine Learning Resources

Tutorial Stuff

Deep Learning

Reinforcement Learning

Semantic Segmentation

Depth Estimation

Explainable AI

Optimization/Active Learning

Bandits

Tensor methods

Public Domain Codes

Computational/Algorithmic Game Theory

FreeWare AI-based graphics/movie tools

Nuts&Bolts Mechanical Engineering/Design Resources

Vibration Isolation

Low Cost/Used/Hobby Machine Tools

CAD/CAM

Auctions:

Other Numerical Machine Tools

Pneumatics/Hydraulics

Fixtures/Clamps/Vises

Basic Mechanical Componenents

Raw Material

Engineering MarketPlaces


Computational Geometry

On-Line Demonstrations

Resources

Origami

TSP

MRI Imaging/Segmentation


Systems Engineering/Signal Processing

General

Vision/Graphics

Kinect 3D Sensor

Spectral Graph Theory

Signal Processing

Wavelets

Frames

Diffusion Wavelets

Tensor Methods

Info Theory

Machine Learning

Probability/Statistics

Control

Graph Theory

Basic Applied Math

UWB Radar Links

BioEngineering/NeuroEngineering Links

Spinal Cord & Rehab

Epidural Stimulation/Simulation

Neural Coding/Processing

NeuroScience

Prosthetics

BioMechanics/BioBehavior

Teaching Aids/Tutorials


Temporary Links

These are links that have not yet been organized, or that are needed only on a temporary basis.

Salt Cell Vendors

Wrought Iron Parts

Wood Items

Misc. Personal

Home Solar

Flora

Local Attractions/Info

Lathes/Rebuild

Misc.

Walking Frame Ideas

DARPA SubT Links

Sensors

X-maxx

RC Car Info

Tracked Vehicles

Off-Road Terrain Vehicles

Suspensions


Treads/Tracks/Tires

Multi-Rotor Platforms


Localization/Mapping Sensors

Localization Packages

Terrain Mapping

Diesel Model Airplane Motors

Parkinsons research

Portable Projectors

Graphics Programming Tools


Wiki, Wiki, Wiki

This wiki is based on WikiMedia software, the same software underlying Wikipedia. Below are intro wiki links, and links related to all things wiki.

Getting Started with Wikis

More Wiki Topics