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2020 – today
- 2023
[j21]Tomasz Sluzalec
, Rafal Wojciech Grzeszczuk, Sergio Rojas, Witold Dzwinel, Maciej Paszynski:
Quasi-optimal hp-finite element refinements towards singularities via deep neural network prediction. Comput. Math. Appl. 142: 157-174 (2023)- [c42]Bartosz Minch, Radoslaw Lazarz, Witold Dzwinel:
What Will Happen When We Radically Simplify t-SNE and UMAP Visualization Algorithms? Is It Worth Doing So? ICCS (2) 2023: 238-246 - [i5]Pawel Maczuga, Maciej Skoczen, Przemyslaw Roznawski, Filip Tluszcz, Marcin Szubert, Marcin Los, Witold Dzwinel, Keshav Pingali, Maciej Paszynski:
Physics Informed Neural Network Code for 2D Transient Problems (PINN-2DT) Compatible with Google Colab. CoRR abs/2310.03755 (2023) - 2022
- [j20]Maciej Paszynski, Leszek Siwik, Witold Dzwinel, Keshav Pingali:
Supermodeling, a convergent data assimilation meta-procedure used in simulation of tumor progression. Comput. Math. Appl. 113: 214-224 (2022) - [j19]Leszek Siwik, Marcin Los, Adrian Klusek, Anna Paszynska, Keshav Pingali, Witold Dzwinel, Maciej Paszynski:
Tuning three-dimensional tumor progression simulations on a cluster of GPGPUs. J. Comput. Appl. Math. 412: 114308 (2022) - [i4]Tomasz Sluzalec, Rafal Wojciech Grzeszczuk, Sergio Rojas, Witold Dzwinel, Maciej Paszynski:
Quasi-optimal hp-finite element refinements towards singularities via deep neural network prediction. CoRR abs/2209.05844 (2022) - 2021
- [j18]Jacek Dajda, Michal Idzik, Jakub Sroka, Mikolaj Sikora, Wiktor Pawlowski, Maciej Smolka, Przemyslaw Jablecki, Filip Slazyk, Maciej Malawski, Emilia Majerz, Aleksandra Pasternak, Witold Dzwinel, Wojciech Kania, Bogumila Hnatkowska, Wojciech Thomas, Joanna Swiebocka-Wiek, Andrzej Paszkiewicz:
Current Trends in Software Engineering Bachelor Theses. Comput. Informatics 40(4) (2021) - [j17]Witold Dzwinel, Adrian Klusek, Leszek Siwik:
Supermodeling in predictive diagnostics of cancer under treatment. Comput. Biol. Medicine 137: 104797 (2021) - [c41]Konrad Zuchniak, Witold Dzwinel, Emilia Majerz, Aleksandra Pasternak, Krzysztof Dragan:
Corrosion Detection on Aircraft Fuselage with Multi-teacher Knowledge Distillation. ICCS (6) 2021: 318-332 - [c40]Leszek Siwik, Marcin Los, Witold Dzwinel:
Supermodeling - A Meta-procedure for Data Assimilation and Parameters Estimation. ICCS (2) 2021: 358-372 - 2020
- [c39]Marcin Sendera, Gregory S. Duane, Witold Dzwinel:
Supermodeling: The Next Level of Abstraction in the Use of Data Assimilation. ICCS (6) 2020: 133-147 - [c38]Bartosz Minch, Mateusz Nowak, Rafal Wcislo, Witold Dzwinel:
GPU-Embedding of kNN-Graph Representing Large and High-Dimensional Data. ICCS (2) 2020: 322-336 - [c37]Mikolaj Kromka, Wojciech W. Czech, Witold Dzwinel:
Community Aware Models of Meme Spreading in Micro-blog Social Networks. ICCS (1) 2020: 623-637 - [i3]Ludwik Bukowski, Witold Dzwinel:
SuperNet - An efficient method of neural networks ensembling. CoRR abs/2003.13021 (2020)
2010 – 2019
- 2019
- [j16]Adrian Klusek, Marcin Los, Maciej Paszynski, Witold Dzwinel:
Efficient model of tumor dynamics simulated in multi-GPU environment. Int. J. High Perform. Comput. Appl. 33(3) (2019) - [i2]Witold Dzwinel, Rafal Wcislo, Stan Matwin:
2-D Embedding of Large and High-dimensional Data with Minimal Memory and Computational Time Requirements. CoRR abs/1902.01108 (2019) - [i1]Leszek Siwik, Marcin Los, Adrian Klusek, Keshav Pingali, Witold Dzwinel, Maciej Paszynski:
Supermodeling of tumor dynamics with parallel isogeometric analysis solver. CoRR abs/1912.12836 (2019) - 2018
- [c36]Marta Panuszewska, Bartosz Minch, Rafal Wcislo, Witold Dzwinel:
PAM: Discrete 3-D Model of Tumor Dynamics in the Presence of Anti-tumor Treatment. ACRI 2018: 42-54 - [c35]Leszek Siwik, Marcin Los, Adrian Klusek, Witold Dzwinel, Maciej Paszynski:
Tuning two-dimensional tumor growth simulations. SummerSim 2018: 9:1-9:12 - 2017
- [j15]Wojciech W. Czech, Wojciech Mielczarek, Witold Dzwinel:
Distributed computing of distance-based graph invariants for analysis and visualization of complex networks. Concurr. Comput. Pract. Exp. 29(9) (2017) - [j14]Witold Dzwinel, Rafal Wcislo, Wojciech W. Czech:
ivga: A fast force-directed method for interactive visualization of complex networks. J. Comput. Sci. 21: 448-459 (2017) - [c34]Witold Dzwinel, Adrian Klusek, Maciej Paszynski:
A concept of a prognostic system for personalized anti-tumor therapy based on supermodeling. ICCS 2017: 1832-1841 - [c33]Witold Dzwinel, Rafal Wcislo, Magdalena Strzoda:
ivga: visualization of the network of historical events. IML 2017: 38:1-38:7 - [c32]Witold Dzwinel, Rafal Wcislo:
ivhd: A Robust Linear-Time and Memory Efficient Method for Visual Exploratory Data Analysis. MLDM 2017: 345-360 - [c31]Adrian Klusek, Witold Dzwinel:
Multi-GPU k-Nearest Neighbor Search in the Context of Data Embedding. PARCO 2017: 359-368 - [c30]Witold Dzwinel, Adrian Klusek, Rafal Wcislo, Marta Panuszewska, Pawel Topa:
Continuous and Discrete Models of Melanoma Progression Simulated in Multi-GPU Environment. PPAM (1) 2017: 505-518 - 2016
- [j13]Witold Dzwinel, Rafal Wcislo, David A. Yuen, Shea Miller:
PAM: Particle Automata in Modeling of Multiscale Biological Systems. ACM Trans. Model. Comput. Simul. 26(3): 20:1-20:21 (2016) - [c29]Witold Dzwinel, Adrian Klusek, Oleg V. Vasilyev:
Supermodeling in Simulation of Melanoma Progression. ICCS 2016: 999-1010 - [c28]Adrian Klusek, Witold Dzwinel, Arkadiusz Z. Dudek:
Simulation of tumor necrosis in primary melanoma. SummerSim 2016: 8 - 2015
- [j12]Piotr Iwo Wójcik, Thérèse Ouellet, Margaret Balcerzak, Witold Dzwinel:
Identification of biomarker genes for resistance to a pathogen by a novel method for meta-analysis of single-channel microarray datasets. J. Bioinform. Comput. Biol. 13(4): 1550013:1-1550013:19 (2015) - [j11]Witold Dzwinel, Krzysztof Magiera:
Irreducible elementary cellular automata found. J. Comput. Sci. 11: 300-308 (2015) - [c27]Piotr Pawliczek, Witold Dzwinel, David A. Yuen:
Visual Exploration of Data with Multithread MIC Computer Architectures. ICAISC 2015: 25-35 - [c26]Witold Dzwinel, Rafal Wcislo:
Very Fast Interactive Visualization of Large Sets of High-dimensional Data. ICCS 2015: 572-581 - [c25]Wojciech W. Czech, Wojciech Mielczarek, Witold Dzwinel:
Comparison of Large Graphs Using Distance Information. PPAM (1) 2015: 195-206 - 2014
- [j10]Piotr Pawliczek, Witold Dzwinel, David A. Yuen:
Visual exploration of data by using multidimensional scaling on multicore CPU, GPU, and MPI cluster. Concurr. Comput. Pract. Exp. 26(3): 662-682 (2014) - [c24]Krzysztof Magiera, Witold Dzwinel:
A Novel Algorithm for Coarse-Graining of Cellular Automata. ACRI 2014: 258-267 - 2013
- [c23]Piotr Pawliczek, Witold Dzwinel:
Interactive Data Mining by Using Multidimensional Scaling. ICCS 2013: 40-49 - [c22]Tomir Kryza, Witold Dzwinel:
Coupling Lattice Boltzmann Gas and Level Set Method for Simulating Free Surface Flow in GPU/CUDA Environment. PPAM (2) 2013: 731-740 - 2012
- [c21]Rafal Wcislo, Witold Dzwinel:
A Metaphor of Complex Automata in Modeling Biological Phenomena. ACRI 2012: 845-855 - [p2]Witold Dzwinel:
Complex Automata as a Novel Conceptual Framework for Modeling Biomedical Phenomena. Advances in Intelligent Modelling and Simulation 2012: 269-298 - [p1]Wojciech W. Czech, Witold Dzwinel:
Review of Graph Invariants for Quantitative Analysis of Structure Dynamics. Advances in Intelligent Modelling and Simulation 2012: 325-343 - 2011
- [j9]Wojciech W. Czech, Witold Dzwinel, Slawomir Goryczka, Tomasz Arodz, Arkadiusz Z. Dudek:
Exploring Complex Networks with Graph Investigator Research Application. Comput. Informatics 30(2): 381-410 (2011) - [c20]Dat T. Nguyen, Witold Dzwinel, Krzysztof J. Cios:
Visualization of highly-dimensional data in 3D space. ISDA 2011: 225-230 - [c19]Pawel Topa, Maciej Kuzniar, Witold Dzwinel:
Graph of Cellular Automata as a Metaphor of Fusarium Graminearum Growth Implemented in GPGPU CUDA Computational Environment. PPAM (2) 2011: 578-587 - 2010
- [c18]Rafal Wcislo, Pawel Gosztyla, Witold Dzwinel:
N-body parallel model of tumor proliferation. SummerSim 2010: 160-167
2000 – 2009
- 2009
- [c17]Piotr Pawliczek, Witold Dzwinel:
Parallel Implementation of Multidimensional Scaling Algorithm Based on Particle Dynamics. PPAM (1) 2009: 312-321 - [c16]Rafal Wcislo, Witold Dzwinel:
Particle Model of Tumor Growth and Its Parallel Implementation. PPAM (1) 2009: 322-331 - [r1]David A. Yuen, Witold Dzwinel, Yehuda Ben-Zion, Benjamin J. Kadlec:
Earthquake Clusters over Multi-dimensional Space, Visualization of. Encyclopedia of Complexity and Systems Science 2009: 2347-2371 - 2008
- [c15]Rafal Wcislo, Witold Dzwinel:
Particle Based Model of Tumor Progression Stimulated by the Process of Angiogenesis. ICCS (2) 2008: 177-186 - 2006
- [j8]Witold Dzwinel, Krzysztof Boryczko, Tomasz Arodz, Marcin Kurdziel:
Computer-based methods for breast cancer detection in mammograms. Bio Algorithms Med Syst. 1(1-2): 287-290 (2006) - [c14]Witold Dzwinel:
In Search of Cellular Automata Reproducing Chaotic Dynamics Described by Logistic Formula. ACRI 2006: 657-666 - 2005
- [c13]Tomasz Arodz, Krzysztof Boryczko, Witold Dzwinel, Marcin Kurdziel, David A. Yuen:
Visual Exploration of Multidimensional Feature Space of Biological Data. IEEE Visualization 2005: 90 - 2004
- [j7]Krzysztof Boryczko, Witold Dzwinel, David A. Yuen:
Modeling fibrin aggregation in blood flow with discrete-particles. Comput. Methods Programs Biomed. 75(3): 181-194 (2004) - [c12]Witold Dzwinel:
A Cellular Automata Model of Population Infected by Periodic Plague. ACRI 2004: 464-473 - 2003
- [j6]Krzysztof Boryczko, Witold Dzwinel, David A. Yuen:
Clustering revealed in high-resolution simulations and visualization of multi-resolution features in fluid-particle models. Concurr. Comput. Pract. Exp. 15(2): 101-116 (2003) - [c11]Pawel Topa, Witold Dzwinel:
Consuming Environment with Transportation Network Modelled Using Graph of Cellular Automata. PPAM 2003: 513-520 - 2002
- [j5]Krzysztof Boryczko, Witold Dzwinel, David A. Yuen:
Parallel implementation of the fluid particle model for simulating complex fluids in the mesoscale. Concurr. Comput. Pract. Exp. 14(2): 137-161 (2002)
1990 – 1999
- 1999
- [j4]Witold Dzwinel, Jan Blasiak:
Method of particles in visual clustering of multi-dimensional and large data sets. Future Gener. Comput. Syst. 15(3): 365-379 (1999) - 1998
- [c10]Jan Blasiak, Witold Dzwinel:
Visual Clustering of Multidimensional and Large Data Sets Using Parallel Environments. HPCN Europe 1998: 403-410 - [c9]Witold Dzwinel, Witold Alda, Jacek Kitowski, Jacek Moscinski, Marek Pogoda, David A. Yuen:
Large-Scale Molecular Dynamics Experiments on Cray T3E System. HPCN Europe 1998: 881-883 - 1997
- [j3]Witold Dzwinel:
Virtual particles and search for global minimum. Future Gener. Comput. Syst. 12(5): 371-389 (1997) - [c8]Witold Dzwinel, Jan Dzwinel, Krzysztof Dzwinel:
Development of Parallel Applications for MEGA-D - System for Oil and Gas Prospecting. HPCN Europe 1997: 223-231 - [c7]Witold Alda, Witold Dzwinel, Jacek Kitowski, Jacek Moscinski, David A. Yuen:
High Performance Simulation of Thermal Convection Using Quasi-particle Approach. HPCN Europe 1997: 1022-1023 - 1996
- [c6]Witold Dzwinel:
Particles Paradigm and Optimization Problems. HPCN Europe 1996: 447-453 - [c5]Witold Alda, Witold Dzwinel, Jacek Kitowski, Jacek Moscinski, David A. Yuen:
Molecular Simulation of Mixing Fluids and Microhydrodynamic Instabilities. HPCN Europe 1996: 923-926 - [c4]Andrzej Broda, Witold Dzwinel:
Spatial Genetic Algorithm and Its Parallel Implementation. PARA 1996: 97-106 - 1995
- [c3]Witold Dzwinel, Jan Blasiak:
Pattern recognition via molecular dynamics on vector supercomputers and networked workstations. HPCN Europe 1995: 508-513 - [c2]Witold Alda, Witold Dzwinel, Jacek Kitowski, Jacek Moscinski, David A. Yuen:
Convection driven by sedimentation using molecular dynamics approach. HPCN Europe 1995: 678-683 - 1994
- [j2]Witold Dzwinel:
How to make sammon's mapping useful for multidimensional data structures analysis. Pattern Recognit. 27(7): 949-959 (1994) - [c1]Witold Dzwinel:
Mapping on Patterns - The Way of Insight into Multi-Dimensional Data Structures. HPCN 1994: 484-486 - 1991
- [j1]Witold Dzwinel:
The search for an optimal multiprocessor interconnection network. Parallel Comput. 17(1): 95-100 (1991)
Coauthor Index
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