2024
F. Postepski, G. M. Wojcik, K. Wrobel, A. Kawiak, K. Zemla, and G. Sedek, “Recurrent and convolutional neural networks in classification of eeg signal for guided imagery and mental workload detection,” arXiv preprint arXiv:2405.16901v2, 2024.
E. Benedykciuk, M. Denkowski, and G. M. Wojcik, “Implantable adaptive cells: differentiable architecture search to improve the performance of any trained u-shaped network,” arXiv preprint arXiv:2405.03420v1.
2023
A. Gajos-Balińska, G. M. Wójcik, and P. Stpiczyński, “Hybrid implementation of the fastica algorithm for high-density eeg using the capabilities of the intel architecture and cuda programming,” Computer Science, vol. 24, no. 4, pp. 455–472, 2023.
A. Kawala-Sterniuk, G. M. Wójcik, and W. Bauer, “Biomedical data in human–machine interaction,” Sensors, vol. 23, no. 18, p. 7983, 2023.
K. Zemla, G. Sedek, K. Wróbel, F. Postepski, and G. M. Wojcik, “Investigating the impact of guided imagery on stress, brain functions, and attention: A randomized trial,” Sensors, vol. 23, no. 16, p. 6210, 2023.
B. Bartosik, G. M. Wojcik, A. Kawiak, and A. Brzezicka, “How are the people in the photos judged analysis of brain activity when assessing levels of trust and attractiveness,” arXiv preprint arXiv:2306.09171, 2023.
K. Zemla, G. M. Wojcik, F. Postepski, K. Wróbel, A. Kawiak, and G. Sedek, “Modeling of brain cortical activity during relaxation and mental workload tasks based on eeg signal collection,” Applied Sciences, vol. 13, no. 7, p. 4472, 2023.
K. Chlasta, P. Sochaczewski, G. M. Wojcik, I. Krejtz “Neural Simulation Pipeline for Brain Networks: Enabling Container-based Simulations On-Premise and in Public Clouds.” Front. Neuroinform. Volume 17 – 2023 | doi: 10.3389/fninf.2023.1122470.
G. M. Wojcik, O. Shriki, L. Kwasniewicz, A. Kawiak, K. Wróbel, B. Bartosik, Y. ben-Horin, S. Furman, E. Panas, “Investigating brain cortical activity in patients with post-COVID-19 brain fog.” Front. Neurosci. Sec. Brain Imaging Methods, Volume 17 – 2023 |doi: 10.3389/fnins.2023.1019778.
K. Zemła, G. M. Wójcik, F. Postępski, Łukasz Kwaśniewicz, and A. Kawiak, Selected Topics in Applied Computer Science, Jarosław Bylina, ed., vol. 2, ch. Investigating the Influence of Guided Imagery Relaxation on the Selected Electrophysiological Parameters of Human Body, pp. 21–37. Maria Curie-Skłodowska University Press, 2023.
2022
E. Mikołajewska, P. Prokopowicz, Y. Chow, J. Masiak, D. Mikołajewski, G. M. Wójcik, B. Wallace, A. R. Eugene, and M. Olajossy, “From neuroimaging to computational modeling of burnout: The traditional versus the fuzzy approach – a review,” Applied Sciences, vol. 12, no. 22, p. 11524, 2022.
A. Kawala-Sterniuk, M. Pelc, R. Martinek, and G. M. Wójcik, “Currents in biomedical signals processing – methods and applications,” Frontiers in Neuroscience, vol. 16, 2022.
P. Schneider, G. M. Wójcik, A. Kawiak, L. Kwasniewicz, and A. Wierzbicki, “Modeling and comparing brain processes in message and earned source credibility evaluation,” Frontiers in Human Neuroscience, vol. 16, 2022.
2021
B. Bartosik and G. M. W.jcik, Selected Topics in Applied Computer Science, Jarosław Bylina, ed., vol. 1, ch. Assessment of Attractiveness and Trust in Relation to Personality Traits – Literature Review and Research Proposal, pp. 223–232. Maria Curie-Skłodowska University Press, 2021.
K. Chlasta and G. M. Wójcik, Selected Topics in Applied Computer Science, Jarosław Bylina, ed., vol. 1, ch. Liquid state machines for real-time neural simulations, pp. 233–246. Maria Curie-Skłodowska University Press, 2021.
A. Kobus, I. Codello, W. Kuniszyk-Jóźkowiak, and G. M. Wójcik, Se- lected Topics in Applied Computer Science, Jarosław Bylina, ed., vol. 1, ch. Automatic Syllable Repetition Detection Methods in Continuous Speech, pp. 43–58. Maria Curie-Skłodowska University Press, 2021.
D. Mikołajewski, J. Masiak, E. Mikołajewska, and G. M. Wójcik, “Modelowanie obliczeniowe występowania objawów wypalenia zawodowego u informatyków i fizjoterapeutów – wyniki wstępne,” Studia i Materiały Informatyki Stosowanej, vol. 13, no. 3, pp. 29–35, 2021.
D. Mikołajewski, J. Masiak, E. Mikołajewska, and G. M. Wójcik, “Objawy wypalenia zawodowego jako podstawa modelu obliczeniowego,” Studia i Materiały Informatyki Stosowanej, vol. 13, no. 3, pp. 22–28, 2021.
D. Mikołajewski, J. Masiak, E. Mikołajewska, G. M. Wójcik, and J. Kopowski, “Związane z pracą niekorzystne zmiany zdrowotne w grupie zawodowej informatyków – narracyjny przegląd literatury,” Studia i Materiały Informatyki Stosowanej, vol. 13, no. 3, pp. 13–21, 2021.
L. Kwasniewicz, G. M. Wojcik, P. Schneider, A. Kawiak, and A. Wierzbicki, “What to believe? impact of knowledge and message length on neural activity in message credibility evaluation,” Frontiers in Human Neuroscience, vol. 15, p. 659243, 2021.
B. Bartosik, G. M. Wojcik, A. Brzezicka, and A. Kawiak, “Are you able to trust me? analysis of the relationships between personality traits and the assessment of attractiveness and trust,” Frontiers in Human Neuroscience, p. 389, 2021.
G. M. Wójcik, A. Kobus, J. Rogala, and U. Malinowska, “Influence of artefact removal on machine learning classification results in memory task eeg signal processing,” Bio-Algorithms and Med-Systems, vol. 17, no. 2, p. eA30, 2021.
K. Chlasta, G. M. Wójcik, and K. Wołk, “Liquid state machines in parallel simulations of mammalian visual system on raspberry pi.,” Bio-Algorithms and Med-Systems, vol. 17, no. 2, p. aA36, 2021.
2020
A. Kawiak, G. M. Wojcik, P. Schneider, L. Kwasniewicz, and A. Wierzbicki, “Whom to believe? understanding and modeling brain activity in source credibility evaluation,” Frontiers in neuroinformatics, vol. 14, p. 607853, 2020.
A. Krajka, I. Panasiuk, A. Misiura, and G. M. Wójcik, “On the mutation model used in the fingerprinting dna,” Bio-Algorithms and Med-Systems, vol. 16, no. 4, 2020.
T. Krajka, A. Misiura, and G. M. Wojcik, “Simulation of the south-eastern polish subpopulations behaviour,” in 2020 IEEE Conference on Computational Intelligence in Bioinformatics and Computational Biology (CIBCB), pp. 1–8, IEEE, 2020.
P. Schneider, G. M. Wojcik, A. Kawiak, L. Kwasniewicz, and A. Wierzbicki, “True or false: How does our brain decide about truth?,” in 2020 IEEE Conference on Computational Intelligence in Bioinformatics and Computational Biology (CIBCB), pp. 1–9, IEEE, 2020.
A. Gajos-Balińska, G. M. Wójcik, and P. Stpiczyński, “Cooperation of cuda and intel multi-core architecture in the independent component analysis algorithm for eeg data,” Bio-Algorithms and Med-Systems, vol. 16, no. 3, 2020.
A. Kawiak, G. M. Wójcik, L. Kwasniewicz, P. Schneider, and A. Wierzbicki, “Look who’s talking: Modeling decision making based on source credibility,” in International Conference on Computational Science, pp. 327– 341, Springer, 2020.
Ł. Kwaśniewicz, G. M. Wójcik, A. Kawiak, P. Schneider, and A. Wierzbicki, “How you say or what you say? neural activity in message credibility evaluation,” in International Conference on Computational Science, pp. 312–326, Springer, 2020.
G. M. Wojcik, Simulations in Medicine, Irena Roterman-Konieczna, ed., ch. 3 Selected methods of quantitative analysis in electroencephalography, pp. 35–54. de Gruyter, 2020.
2019
G. M. Wójcik, J. Masiak, A. T. Kawiak, L. K. Kwasniewicz, P. Schneider, F. Postepski, and A. Gajos-Balinska, “Analysis of decision-making process using methods of quantitative electroencephalography and machine learning tools,” Frontiers in Neuroinformatics, vol. 13, p. 73, 2019.
G. M. Wójcik, A. Kawiak, L. Kwasniewicz, P. Schneider, and J. Masiak, “Azure machine learning tools efficiency in the electroencephalographic signal p300 standard and target responses classification,” Bio-Algorithms and Med-Systems, vol. 15, no. 3, 2019.
2018
W. K. Ozga, D. Zapała, P. Wierzgała, P. Augustynowicz, R. Porzak, and G. M. Wójcik, “Acoustic neurofeedback increases beta erd during mental rotation task,” Applied Psychophysiology and Biofeedback, pp. 1–13, 2018.
P. Wierzgała, D. Zapala, G. M. Wójcik, and J. Masiak, “Most popular signal processing methods in motor-imagery bci: A review and meta-analysis,” Frontiers in Neuroinformatics, vol. 12, p. 78, 2018.
Ł. Kwaśniewicz, P. Schneider, A. Kawiak, and G. M. Wójcik, “Comparison of mne selected functions parallelisation performance in source localisation algorithms for brain cortex activity quantitative analysis,” in Proceedings of Cracow Grid Workshop 2018, pp. 49–51, 2018.
G. M. Wojcik, J. Masiak, A. Kawiak, L. Kwasniewicz, P. Schneider, N. Polak, and A. Gajos-Balinska, “Mapping the human brain in frequency band analysis of brain cortex electroencephalographic activity for selected psychiatric disorders,” Frontiers in Neuroinformatics, vol. 12, p. 73, 2018.
A. Gajos-Balinska, G. M. Wojcik, and P. Stpiczynski, “Performance comparison of parallel fastica algorithm in the plgrid structures,” in ITM Web of Conferences, vol. 21, p. 00026, EDP Sciences, 2018.
G. M. Wójcik, J. Masiak, A. Kawiak, P. Schneider, L. Kwasniewicz, N. Polak, and A. Gajos-Balinska, “New protocol for quantitative analysis of brain cortex electroencephalographic activity in patients with psychiatric disorders,” Frontiers in Neuroinformatics, vol. 12, p. 27, 2018.
D. Kufel and G. M. Wojcik, “Analytical modelling of temperature effects on an ampa-type synapse,” Journal of Computational Neuroscience, pp. 1– 13, 2018.
A. Gajos-Balinska, G. M. Wojcik, and P. Stpiczynski, “High performance optimization of independent component analysis algorithm for eeg data,” Lecture Notes in Computer Science, vol. 10777, pp. 495–504, 2018.
Y. Chow, J. Masiak, E. Mikołajewska, D. Mikołajewski, G. M. Wójcik, B. Wallace, A. Eugene, and M. Olajossy, “Limbic brain structures and burnout – a systematic review,” Advances in Medical Sciences, vol. 63, pp. 192–198, 2018.
S. Kotyra and G. M. Wojcik, “The station for neurofeedback phenomenon research,” in Recent Developments and Achievements in Biocybernetics and Biomedical Engineering: Proceedings of the 20th Polish Conference on Biocybernetics and Biomedical Engineering, Krak.w, Poland, September 20-22, 2017 20, pp. 32–43, Springer, 2018.
S. Kotyra and G. M. Wojcik, “Steady state visually evoked potentials and their analysis with graphical and acoustic transformation,” in Recent Developments and Achievements in Biocybernetics and Biomedical Engineering: Proceedings of the 20th Polish Conference on Biocybernetics and Biomedical Engineering, Krak.w, Poland, September 20-22, 2017 20, pp. 22–31, Springer, 2018.
2017
D. Mikołajewski, P. Prokopowicz, E. Mikołajewska, G. M. Wójcik, and J. Masiak, “Traditional versus mechatronic toys in children with autism spectrum disorders,” Acta Mechatronica – International Scientific Journal about Mechatronics, vol. 2, no. 1, pp. 11–17, 2017.
E. Mikołajewska, J. Masiak, D. Mikołajewski, G. M. Wójcik, and B. Augustyńska, “Neurorehabilitacja oparta na dowodach naukowych – wyzwania i zagrożenia,” Niepełnosprawność i Rehabilitacja, no. 4, pp. 227–241, 2017.
A. Gajos, G. M. Wojcik, and P. Stpiczyński, “Parallel independent component analysis algorithm – performance comparison for eeg signal,” in Proceedings of Cracow Grid Workshop 2017, pp. 33–34, 2017.
S. Kotyra and G. M. Wojcik, 20-th Polish Conference on Biocybernetics and Biomedical Engineering, ch. The Station for Neurofeedback Phenomenon Research, p. 29. Kraków, 2017.
S. Kotyra and G. M. Wojcik, 20-th Polish Conference on Biocybernetics and Biomedical Engineering, ch. Steady State Visually Evoked Potentials and their analysis with graphical and acoustic transformation, p. 28. Kraków, 2017.
G. M. Wojcik, Proceedings of the International Scientific Conference Humboldt-Kolleg of Societas Humboldtiana Polonorum, ch. Artificial Brain – An Non-Biological Intelligence Evolution Hypothesis, pp. 50–51. Kraków, 2017.
E. Mikołajewska, D. Mikołajewski, G. M. Wójcik, B. Augustyńska, and J. Masiak, “Analiza wielkich zbiorów danych w rehabilitacji osób niepełnosprawnych,” Niepełnosprawność i Rehabilitacja, no. 3, pp. 180–188, 2017.
2016
G. M. Wójcik, E. Mikołajewska, D. Mikołajewski, P. Wierzgała, A. Gajos, and M. Smolira, “Wykorzystanie egi’s geodesic eeg system jako narzędzia do badań możliwości interfejsów mózg-komputer – doniesienie wstępne,” Niepełnosprawność i Rehabilitacja, no. 2, pp. 166–181, 2016.
Ł. Kwaśniewicz, W. Kuniszyk-Jóźkowiak, G. M. Wójcik, and J. Masiak, “Adaptation of the humanoid robot to speech disfluency therapy,” Bio-Algorithms and Med-Systems, vol. 12, no. 4, pp. 169–177, 2016.
D. Kufel and G. M. Wójcik, “Parallel computing of local field potentials in biological neural networks using lfpy,” in Proceedings of Cracow Grid Workshop 2016, pp. 79–80, 2016.
D. S. Kufel and G. M. Wojcik, “Analytical modelling of temperature effects on synapses,” arXiv preprint arXiv:1610.00611, 2016.
J. Masiak, G. M. Wójcik, A. Gajos, A. Kawiak, N. Polak, S. Kotyra, and Łukasz Kwaśniewicz, Światowe innowacje łączące medycynę, inżynierię oraz technologię w diagnozowaniu i terapii autyzmu – Książka abstraktów, ch. Zastosowanie elektroencefalografów gęstej matrycy do oceny podejmowania decyzji u młodzieży z diagnozą autyzmu i zespołu Aspergera, pp. 49–50. Rzeszów, 2016.
A. Gajos and G. M. Wójcik, “Independent component analysis of eeg data for egi system,” Bio-Algorithms and Med-Systems, vol. 12, no. 2, pp. 67– 72, 2016.
2015
G. M. Wójcik, Osnovy nejrokibernetiki. Pod Pod redakciej professora Ryszarda Tadeusewicha, ch. Zhidokostnye vychislenija v modelovanii mozga, pp. 196–211. Goriachaja linija – Telekom. Moskwa, 2015.
G. M. Wójcik, P. Wierzgala, and A. Gajos, “Evaluation of emotiv eeg neuroheadset,” Bio-Algorithms and Med-Systems, vol. 11, no. 4, pp. 211– 215, 2015.
A. Gajos, G. M. Wojcik, and P. Stpiczyński, “Concept of independent component analysis algorithm parallelisation,” in Proceedings of Cracow Grid Workshop 2015, pp. 55–56, 2015.
G. M. Wójcik, XLIII Zjazd Fizyków Polskich – Program i streszczenia, ch. Badania złożoności mózgu homo sapiens: aspekty funkcjonalne i morfologiczne, p. 179. Oddział Kielecki Polskiego Towarzystwa Fizycznego, 2015.
G. M. Wojcik and M. Ważny, “Bray-curtis metrics as measure of liquid state machine separation ability in function of connections density,” Procedia Computer Science, vol. 51, pp. 2979–2983, 2015.
A. Gajos and G. M. Wójcik, “Independent component analysis of eeg data for egi system,” Bio-Algorithms and Med-Systems, vol. 11, no. 2, p. eA23, 2015.
P. H. Wójcik and G. M. Wójcik, “Application of levenberg–marquardt algorithm for engagement detection in electroencephalographic time-series,” Bio-Algorithms and Med-Systems, vol. 11, no. 2, p. eA23, 2015.
2014
A. Gajos and G. M. Wojcik, “Electroencephalographic detection of synesthesia,” Annales Universitatis Mariae Curie-Sklodowska, Sectio AI: Informatica, vol. 14, no. 3, pp. 43–52, 2014.
R. Cebryk and G. M. Wojcik, “Liquid computing and analysis of sound signals,” Annales Universitatis Mariae Curie-Sklodowska, Sectio AI: Informatica, vol. 14, no. 3, pp. 33–42, 2014.
S. Kotyra, G. M. Wojcik, and M. Smolira, “Synchronous ssvep data acquisition system,” Annales Universitatis Mariae Curie-Sklodowska, Sectio AI: Informatica, vol. 14, no. 3, pp. 15–20, 2014.
G. M. Wojcik and M. Ważny, “Bray-curtis dissimilarity in liquid simulations of cortical hyper-column,” in Proceedings of Cracow Grid Workshop 2014, pp. 127–128, 2014.
M. Ważny and G. M. Wojcik, “Shifting spatial attention – numerical model of posner experiment,” Neurocomputing, vol. 135C, pp. 139–144, 2014.
2013
G. M. Wójcik, E. Mikołajewska, D. Mikołajewski, P. Wierzgała, A. Gajos, and M. Smolira, “Usefulness of egi eeg system in brain computer interfaces research,” Bio-Algorithms and Med-Systems, vol. 9, no. 2, pp. 73–79, 2013.
K. Dobosz, D. Mikołajewski, G. M. Wójcik, and W. Duch, “Simple cyclic movements as a distinct autism feature – computational approach,” Computer Science, vol. 14, no. 3, pp. 475–489, 2013.
E. Mikołajewska, G. M. Wójcik, D. Mikołajewski, P. Wierzgała, and A. Gajos, “Interfejsy mózg-komputer oparte na p300 w neurorehabilitacji,” Praktyczna Fizjoterapia i Rehabilitacja, vol. 35, pp. 30–34, 2013.
2012
P. Wierzgala, G. M. Wojcik, and M. Smolira, “Finding the best efficiency in actionscript based web applications on example of fft algorithm,” Bio-Algorithms and Med-Systems, vol. 8, no. 4, pp. 373–385, 2012.
G. M. Wójcik, Modelowanie i eksploracja sieci neuronów biologicznych w GENESIS. Lublin: Instytut Informatyki UMCS, 2012.
W. Duch, W. Nowak, J. Meller, G. Osinski, K. Dobosz, D. Mikolajewski, and G. M. Wójcik, “Computational approach to understanding autism spectrum disorders,” Computer Science, vol. 13, no. 2, pp. 47–61, 2012.
G. M. Wojcik, “Electrical parameters influence on the dynamics of the hodgkin-huxley liquid state machine,” Neurocomputing, vol. 79, pp. 68– 78, 2012.
G. M. Wojcik, “Self-organising criticality in the simulated models of the rat cortical microcircuits,” Neurocomputing, vol. 79, pp. 61–67, 2012.
2011
G. M. Wójcik, “Obserwacja samolotów na wysokościach przelotowych,” Zeszyty Naukowe WSEI – Transport i Informatyka, vol. 1, no. 1, pp. 23– 28, 2011.
G. M. Wójcik and S. Kotyra, Środowisko programisty. Lublin: Instytut Informatyki UMCS, 2011.
G. M. Wójcik, Obliczenia płynowe w modelowaniu mózgu. Warszawa: Akademicka Oficyna Wydawnicza Exit, 2011.
W. Duch, W. Nowak, J. Meller, G. Osinski, K. Dobosz, D. Mikolajewski, and G. M. Wójcik, “Consciousness and attention in autism spectrum disorders,” in Proceedings of Cracow Grid Workshop 2010, pp. 202–211, 2011.
P. Wierzgala and G. M. Wojcik, “Signal visualisation software for mindset ms-1000 electroencephalograph,” Bio-Algorithms and Med-Systems, vol. 7, no. 13, pp. 83–88, 2011.
S. Kotyra and G. M. Wojcik, “Test signal generators for mindset ms-1000 electroencephalograph with data acquisition system for linux os,” Bio-Algorithms and Med-Systems, vol. 7, no. 13, pp. 77–82, 2011.
S. Kotyra and G. M. Wojcik, “Developing brain electric activity acquisition software for linux,” Annales Universitatis Mariae Curie-Sklodowska, Sectio AI: Informatica, vol. 10, no. 1, pp. 7–14, 2011.
2010
G. M. Wojcik and J. A. Garcia-Lazaro, “Analysis of the neural hypercolumn in parallel pcsim simulations,” Procedia Computer Science, vol. 1, no. 1, pp. 845–854, 2010.
G. M. Wójcik, Neurocybernetyka teoretyczna pod redakcją naukową Ryszarda Tadeusiewicza, ch. Obliczenia płynowe w modelowaniu mózgu, pp. 173–187. Wydawnictwo Uniwersytetu Warszawskiego, 2010.
M. Zukowski, W. A. Kaminski, D. Stanislawek, J. J. Ruthe, G. M. Wojcik, and M. Falski, “Modelling eutheria’s visual cortex using snnml language,” Bio-Algorithms and Med-Systems, Suplement, vol. 10, no. 6, p. 233, 2010.
S. Kotyra and G. M. Wojcik, “Test signal generators for mindset ms-1000 electroencephalograph with data acquisition system for linux os,” Bio-Algorithms and Med-Systems, Suplement, vol. 10, no. 6, pp. 93–94, 2010.
K. Dmitruk and G. M. Wojcik, “Modelling simple 3d scene based on rapid face tracking and objects recognition,” Annales Universitatis Mariae Curie-Sklodowska, Sectio AI: Informatica, vol. 10, no. 2, pp. 63–68, 2010.
G. M. Wojcik and J. A. Garcia-Lazaro, “Investigating dynamics of mammalian cortical hypercolumn in parallel pcsim simulations,” in Proceedings of Cracow Grid Workshop 2009, pp. 246–254, 2010.
2009
B. J. Grzyb, E. Chinellato, G. M. Wojcik, and W. A. Kaminski, “Facial expression recognition based on liquid state machines built of alternative neuron models,” in 2009 International joint conference on neural networks, pp. 1011–1017, IEEE, 2009.
B. J. Grzyb, E. Chinellato, G. M. Wojcik, and W. A. Kaminski, “Which model to use for the liquid state machine?,” in 2009 International Joint Conference on Neural Networks, pp. 1018–1024, IEEE, 2009.
2008
S. Kotyra and G. M. Wojcik, “The system of electric brain activity acquisition from eeg equipment for linux os,” Annales Universitatis Mariae Curie-Sklodowska, Sectio AI: Informatica, vol. 8, no. 1, pp. 151–155, 2008.
B. J. Grzyb, G. M. Wojcik, and W. A. Kaminski, “The choice of the model of neuron and its influence on the properties and computational efficiency of liquid state machine,” Polish Journal of Environmental Studies, vol. 17, no. 3B, pp. 548–552, 2008.
G. M. Wojcik and W. A. Kaminski, “Self-organised criticality as a function of connections’ number in the model of the rat somatosensory cortex,” in Computational Science – ICCS 2008, vol. 5101 of Lecture Notes in Computer Science, pp. 620–629, Springer, 2008.
G. M. Wojcik and W. A. Kaminski, “Nonlinear behaviour in mpi-parallelised model of the rat somatosensory cortex,” Informatica, vol. 19, no. 3, pp. 461–470, 2008.
G. M. Wojcik and W. A. Kaminski, “Liquid computing efficiency as a function of neural cell’s electrical parameters,” in Modelling, Identification, and Control, pp. 78–82, ACTA Press, 2008.
J. J. Ruthe, G. M. Wojcik, W. A. Kaminski, D. Stanislawek, M. Zukowski, and M. Falski, “Investigating dynamics of mammalian cortical hypercolumn in parallel pcsim simulations,” in Proceedings of Cracow Grid Workshop 2007, pp. 492–498, 2008.
G. M. Wojcik, W. A. Kaminski, J. J. Ruthe, D. Stanislawek, M. Zukowski, and M. Falski, “Neural activity and new methods of computational analysis in the model of mammalian brain cortex,” Annales Universitatis Mariae Curie-Sklodowska, Sectio AI: Informatica, vol. 6, pp. 49–55, 2008.
2007
G. M. Wojcik, W. A. Kaminski, and P. Matejanka, “Self-organised criticality in a model of the rat somatosensory cortex,” in Parallel Computing Technologies, vol. 4671 of Lecture Notes in Computer Science, pp. 468– 475, Springer, 2007.
G. M. Wojcik and W. A. Kaminski, “Liquid state machine and its separation ability as function of electrical parameters of cell,” Neurocomputing, vol. 70, no. 13–15, pp. 2593–2697, 2007.
2006
G. M. Wojcik and W. A. Kaminski, “Pattern separation in the model of mammalian visual system,” in PARELEC 2006, IEEE Computer Society Press, pp. 309–312, 2006.
G. M. Wojcik and W. A. Kaminski, “Liquid computations and large simulations of the mammalian visual cortex,” in Computational Science – ICCS 2006, vol. 3992 of Lecture Notes in Computer Science, pp. 94–101, Springer, 2006.
G. M. Wojcik and W. A. Kaminski, “Computational ability of lsm ensemble in the model of mammalian visual system,” Annales Universitatis Mariae Curie-Sklodowska, Sectio AI: Informatica, vol. 5, pp. 309–314, 2006.
G. M. Wojcik and W. A. Kaminski, “Grid-based simulations of mammalian visual system,” in Proceedings of Cracow Grid Workshop 2005, pp. 384–389, 2006.
2005
G. M. Wojcik, “Large simulations of mammalian visual system,” in Science and Supercomputing in Europe, pp. 290–295, HPC-Europa Annual Project Directory, 2005.
G. M. Wojcik and W. A. Kaminski, “Large scalable simulations of mammalian visual cortex,” in Parallel Processing and Applied Mathematics, vol. 3911 of Lecture Notes in Computer Science, pp. 399–405, Springer, 2005.
G. M. Wojcik and W. A. Kaminski, “Large parallel simulations of mammalian visual system,” in Varia Informatica, pp. 101–105, Polskie Towarzystwo Informatyczne, 2005.
G. M. Wojcik and W. A. Kaminski, “Neuronal movement detector in the model of simulated mammalian visual system,” Bio-Algorithms and Med-Systems, vol. 1, no. 1, pp. 321–324, 2005.
G. M. Wojcik and W. A. Kaminski, Modelowanie Cybernetyczne Systemów Biologicznych pod redakcją Ireny Roterman-Koniecznej, ch. Neuronal Movement Detector in the Model of Simulated Mammalian Visual System, p. 63. Księgarnia Akademicka, 2005.
G. M. Wojcik and W. A. Kaminski, “Investigating mammalian visual system with methods of informational theory,” Annales Universitatis Mariae Curie-Sklodowska, Sectio AI: Informatica, vol. 3, pp. 145–152, 2005.
G. M. Wojcik and W. A. Kaminski, “Liquid state machines and large simulations of mammalian visual system,” in Proceedings of Cracow Grid Workshop 2004, pp. 439–447, 2005.
2004
G. M. Wojcik and W. A. Kaminski, “Informational theory application for the investigation of simulated mammalian visual system,” in Sztuczna Inteligencja w Inżynierii Biomedycznej, 2004.
W. A. Kamiński, G. M. Wójcik, R. Hamwi, Łukasz Marianowicz, and J. Klimkiewicz, “Właściwości sztucznych sieci neuronów biologicznych,” Zamojskie Studia i Materiały, vol. 6, no. 1, pp. 169–188, 2004.
G. M. Wojcik and W. A. Kaminski, “Multidimensional mutual information in biological visual system,” Artificial Intelligence Studies, vol. 19/04, pp. 13–18, 2004.
G. M. Wójcik and W. A. Kamiński, “Informacyjna energia wiązania w modelowanym układzie wzrokowym,” in Algorytmy, metody i programy naukowe, pp. 153–159, Polskie Towarzystwo Informatyczne, 2004.
G. M. Wojcik and W. A. Kaminski, “Hebbian encoding in biological visual system,” Annales Universitatis Mariae Curie-Sklodowska, vol. 2, pp. 309– 314, 2004.
W. A. Kaminski and G. M. Wojcik, “Liquid state machine built of hodgkin-huxley neurons,” Informatica, vol. 15, no. 1, pp. 39–44, 2004.
G. M. Wojcik and W. A. Kaminski, “Liquid state machine built of hodgkin-huxley neurons and pattern recognition,” in Computational Neuroscience – Trends in Research, pp. 245–251, Elsevier, 2004.
G. M. Wojcik and W. A. Kaminski, “Liquid state machine built of hodgkin-huxley neurons and pattern recognition,” Neurocomputing, vol. 58–60, pp. 245–251, 2004.
2003
W. A. Kaminski and G. M. Wojcik, “Liquid state machine built of hodgkin–huxley neurons – pattern recognition and informational entropy,” Annales Universitatis Mariae Curie-Sklodowska, Sectio AI: Informatica, vol. 1, pp. 107–113, 2003.
W. A. Kamiński G. M. Wójcik,“ Informacjawzględna w maszynie neuronalnej hhlsm,” Sztuczna Inteligencja – organizacje wirtualne, vol. 18/03, pp. 29–33, 2003.
G. M. Wójcik and W. A. Kamiński, “Badania maszyn neuronalnych hhlsm metodami fizyki statystycznej,” in Obliczenia naukowe, pp. 9–16, Polskie Towarzystwo Informatyczne, 2003.
2002
W. A. Kaminski and G. M. Wojcik, “Geometrical properties of phase space for the simulated biological-like neural networks,” International Journal of Non-linear Phenomena in Complex Systems, vol. 5, no. 2, pp. 155–160, 2002.
W. A. Kamiński and G. M. Wójcik, “Maszyna neuronalna lsm na sztucznych neuronach biologicznych,” Sztuczna Inteligencja, vol. 17/02, pp. 49– 58, 2002.
W. A. Kamiński and G. M. Wójcik, “Maszyna neuronalna lsm na sztucznych neuronach biologicznych,” Informatyka Stosowana, vol. S2/02, pp. 131–137, 2002.
2001
W. A. Kamiński and G. M. Wójcik, “Geometryczne właściwości przestrzeni fazowej symulowanych układów sztucznych neuronów biologicznych,” Sztuczna Inteligencja, vol. 16/01, pp. 67–75, 2001.
W. A. Kamiński and G. M. Wójcik, “Właściwości geometryczne przestrzeni fazowej symulowanych układów sztucznych neuronów biologicznych,” Informatyka Stosowana, vol. S2/01, pp. 102–108, 2001.