Activity Recognition with Reduced Basis Decomposition

Version 1.1.1 (7.07 MB) by arun
This Matlab Source code is based on the paper Titled, "Online action recognition from RGB-D cameras based on reduced basis decomposition"
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Updated 27 Jul 2018
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This Matlab Source code is based on the paper Titled,
"Online action recognition from RGB-D cameras based on reduced basis decomposition"
written by Muniandi Arunraj, Andy Srinivasan, A. Vimala Juliet
Paper Link: https://link.springer.com/article/10.1007/s11554-018-0778-8
Read only Link: https://rdcu.be/NyqK
Note: The Matlab codes will only work after downloading MSR-ACTION3D, unable to upload the entire dataset. Please Download the MSR-ACTION3D DATASET FROM THE LINK BELOW https://www.uow.edu.au/~jz960/datasets/MSRAction3D.html (requires password to open the file)

# 1.AS_Imagereconstruction.m,

AS_Imagereconstruction.m - used for reproducing the image results in the paper,
particularly reconstructing the images under various proportions
(10%, 20%, 30%, 40%, 50% upto 100%)
using
Reduced Basis Decomposition(RBD),
Principal Component Analysis(PCA),
Singular Value Decomposition(SVD)


# 2. ASFlopcounts.m

Note: FLOPS require function variables(RBD,Pro-CRC,Pro-Max,Eigenface_f,L2CRC)
to be stored in the workspace(results folder), time won't give you the correct
evaluation due to optimization problems and memory management issues within
MATLAB. However the time difference between RBD and PCA can be noticed when run on
either MAC(As per RBD Author)/Linux(As per the current paper).

ASFlopcounts.m - used for comparing the FLOPS between
1.RBD vs PCA
2.Pro-CRC vs L2-CRC


# 3."AS1_crossfixedbicubic","AS2_crossfixedbicubic","AS3_crossfixedbicubic",
# "AS1_crossfixedlanczos","AS2_crossfixedlanczos","AS3_crossfixedlanczos",
(Note:- Although these tests were followed in most RGB-D related papers, its not
a good test to compare classification effectiveness with previous papers)

# 4."AS1_LOSObicubic","AS2_LOSObicubic","AS3_LOSObicubic",
# "AS1_LOSOlanczos","AS2_LOSOlanczos","AS3_LOSOlanczos",
(Note:- Second best method, however each actionsets will have different settings
for resizing images(front,side and top))

# 5."ASFullLOSO_bicubic","ASfull252combo_bicubic"
# "ASFullLOSO_lanczos","ASfull252combo_lanczos"
(Note1:- Best methods for producing close to real-time performance and all
the actions involved in (AS1,AS2 and AS3) it follow the same settings
for resizing images(front,side and top))
(Note2:- It contains exhaustive 252 Combinations of all subjects and LeaveOneSubjectOut
LOSO Tests) - Takes sometime to run

# II. Major Functions used
# RBD.m
(For computing reduced basis decomposition)
# Eigenface_f.m
(For computing PCA)
# ProCRC
(For finding the alpha coefficients of probabilistic Classification )
# ProMax
(For finding the classified final label based on residual errors)
# L2CRC
(Collaborative Representation classifier with Tikhonov Weighted Regularization)

# III. Supportive Functions used
# FLOPS
(for computing the FLOPS, this may change based on hardware architecture and
Operating systems)

Cite As

arun (2024). Activity Recognition with Reduced Basis Decomposition (https://github.com/arunrajeie/ResearchPaper1), GitHub. Retrieved .

MATLAB Release Compatibility
Created with R2016a
Compatible with R2014a to R2018a
Platform Compatibility
Windows macOS Linux

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Versions that use the GitHub default branch cannot be downloaded

Version Published Release Notes
1.1.1

Edited Readme
1.1.0

New updated code added along with acknowledgements for the author of Reduced Basis Decomposition and FLOPS
1.0.0

To view or report issues in this GitHub add-on, visit the GitHub Repository.
To view or report issues in this GitHub add-on, visit the GitHub Repository.