Mateusz Juda
Mateusz Juda
Verified email at ii.uj.edu.pl
Title
Cited by
Cited by
Year
Distributed computation of coverage in sensor networks by homological methods
P Dłotko, R Ghrist, M Juda, M Mrozek
Applicable Algebra in Engineering, Communication and Computing 23 (1-2), 29-58, 2012
542012
The efficiency of a homology algorithm based on discrete Morse theory and coreductions
S Harker, K Mischaikow, M Mrozek, V Nanda, H Wagner, M Juda, ...
Image-A: Applicable Mathematics in Image Engineering, 1 (1), 41-48, 2010
352010
Computing fundamental groups from point clouds
P Brendel, P Dłotko, G Ellis, M Juda, M Mrozek
Applicable Algebra in Engineering, Communication and Computing 26 (1-2), 27-48, 2015
152015
Topological descriptors for 3d surface analysis
M Zeppelzauer, B Zieliński, M Juda, M Seidl
International Workshop on Computational Topology in Image Context, 77-87, 2016
102016
Persistent homology of Morse decompositions in combinatorial dynamics
TK Dey, M Juda, T Kapela, J Kubica, M Lipiński, M Mrozek
SIAM Journal on Applied Dynamical Systems 18 (1), 510-530, 2019
82019
A study on topological descriptors for the analysis of 3d surface texture
M Zeppelzauer, B Zieliński, M Juda, M Seidl
Computer Vision and Image Understanding 167, 74-88, 2018
72018
Capd:: Redhom v2-homology software based on reduction algorithms
M Juda, M Mrozek
International Congress on Mathematical Software, 160-166, 2014
72014
-homology of weak -faceless -pseudomanifolds may be computed in time
M Juda, M Mrozek
Topological Methods in Nonlinear Analysis 40 (1), 137-159, 2012
5*2012
Persistence codebooks for topological data analysis
B Zielinski, M Lipinski, M Juda, M Zeppelzauer, P Dlotko
arXiv preprint arXiv:1802.04852, 2018
42018
Persistence bag-of-words for topological data analysis
B Zieliński, M Lipiński, M Juda, M Zeppelzauer, P Dłotko
arXiv preprint arXiv:1812.09245, 2018
32018
Fast, simple and separable computation of Betti numbers on three-dimensional cubical complexes
A Gonzalez-Lorenzo, M Juda, A Bac, JL Mari, P Real
International Workshop on Computational Topology in Image Context, 130-139, 2016
22016
Fundamental Group Algorithm for low dimensional tessellated CW complexes
P Brendel, G Ellis, M Juda, M Mrozek
arXiv preprint arXiv:1507.03396, 2015
12015
Computing fundamental groups from point clouds ii: Applications
P Brendel, G Ellis, M Juda, M Mrozek
arXiv preprint arXiv:1507.03396, 2015
12015
Can auto-encoders help with filling missing data?
M Śmieja, M Kołomycki, Ł Struski, M Juda, MAT Figueiredo
ICLR 2020 Workshop on Integration of Deep Neural Models and Differential …, 2020
2020
Unsupervised Features Learning for Sampled Vector Fields
M Juda
arXiv preprint arXiv:1911.10023, 2019
2019
COMPUTING FUNDAMENTAL GROUP VIA FORMAN’S DISCRETE MORSE THEORY
P Brendel, PLD LOTKO, G Ellis, M Juda, M Mrozek
IMAGE-A 4 (7), 1-4, 2015
2015
CAPD:: RedHom-Reduction heuristics for homology algorithms
M Juda, M Mrozek
Image-A: Applicable Mathematics in Image Engineering, 4 (7), 2015
2015
Computing Fundamental Group via Forman’s Discrete Morse Theory Extended abstract
P Brendel, P Dlotko, G Ellis, M Juda, M Mrozek
Image-A: Applicable Mathematics in Image Engineering, 4 (7), 2015
2015
Z2-Homology of 2-manifolds may be computed in O (n log (n)) time
M Juda
2009
An algorithm for the generation of all possible combinatorial multivector fields on cubical complexes
M Ferri, S Pisciella, M Juda, G Casciola
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Articles 1–20