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BICA*AI 2020 Posters on Display in VCC and Mozilla Hubs |
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Title and column headers are clickable. Updated on
Nov 14, 2020. |
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# |
Room |
Authors |
Title |
Bot |
Laser |
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3 |
E |
Victor
A. Rusakov |
On the Regularity of the Bias of Throughput
Estimates on Traffic Averaging |
✔ |
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4 |
A |
Lucas
J. J. Fijen, Julio J. López González and Jan Treur |
An Adaptive Temporal-Causal Network Model to Analyse Extinction of Communication over
Time |
✔ |
✔ |
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7 |
A |
Howard
Schneider |
Causal Cognitive Architecture 1: Integration of
Connectionist Elements into a Navigation-Based Framework |
✔ |
✔ |
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9 |
J |
Jagna
Nieuwazny, Karol Nowakowski, Michał Ptaszyński, Rafał Rzepka, Fumito Masui
and Kenji Araki |
Does change in ethical education influence core
moral values? Towards culture-aware
morality model |
✔ |
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12 |
I |
Alexander
Shtanko and Sergey Kulik |
Preliminary Experiment on Emotion Detection in
Illustrations Using Convolutional Neural Network |
✔ |
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16 |
E |
Pavel
Piskunov and Igor Prokhorov |
Applying of artificial intelligence in the tasks of
separation the university’s IT landscape into functional modules for
microservices and microkernels |
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19 |
B |
Olga
Chernavskaya and Yaroslav Rozhylo |
On Modeling the Creativity and the Concept of
Chef-D'oeuvre |
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22 |
J |
Igor
A. Kuznetsov, Matvey V. Koptelov, Dmitriy A. Kovtun and Anna I. Guseva |
A method for reducing the impact of information
risks on a megaproject life cycle based on a semantic information field |
✔ |
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24 |
F |
Zalimkhan
Nagoev and Irina Gurtueva |
Multiagent model of the process of mastering
linguistic competence based on perceptual space formation |
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26 |
F |
Zalimhan
Nagoev, Inna Pshenokova, Olga Nagoeva and Zaurbek Sundukov |
Learning algorithm for an intelligent decision
making system based on multi-agent neurocognitive architectures |
✔ |
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29 |
G |
Alexey
Artamonov, Mikhail Ulizko, Rufina Tukumbetova and Larisa Pronicheva |
Complex Objects Identification and Analysis
Mechanisms |
✔ |
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30 |
D |
Natalia
Miloslavskaya and Alexander Tolstoy |
Cyber Polygon Site Project in the Framework of the
MEPhI Network Security Intelligence Center |
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31 |
D |
Natalia
Miloslavskaya and Steven Furnell |
Network Security Intelligence Centres for
Information Security Incident Management |
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32 |
C |
Elena
Matrosova, Anna Tikhomirova, Nikolay Matrosov and Dmitriy Kovtun |
Visualization of T. Saati hierarchy analysis method |
✔ |
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33 |
F |
Elena
Matrosova, Anna Tikhomirova, Anna Guseva and Nikolay Matrosov |
“Loyalty Program” tool application in megaprojects |
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34 |
D |
Natalia
Miloslavskaya, Andrey Nikiforov and Kirill Plaksiy |
Block Formation for Storing Data on Information
Security Incidents for Digital Investigations |
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35 |
H |
Salvador
Cervantes, Sonia López and José-Antonio Cervantes |
Toward ethical cognitive architectures for the
development of artificial moral agents |
✔ |
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36 |
G |
Michael
Rudy, Eugene Chepin and Alexander Gridnev |
Extending the intelligence of the Pioneer 2AT
mobile robot |
✔ |
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39 |
G |
Oleg
Sychev and Yaroslav Kamennov |
Eligibility of English hypernymy resources for
extracting knowledge from natural-language texts |
✔ |
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40 |
C |
Sergey
Kulik and Evgeny Levin |
Specialized software tool for pattern recognition
of biological objects |
✔ |
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41 |
F |
Dmitrii
Litovkin, Dmitrii Dontsov, Anton Anikin and Oleg Sychev |
Suitability of Object-Role Modeling diagrams as an
intermediate model for ontology engineering: testing the rules for mapping |
✔ |
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42 |
C |
Viacheslav
Wolfengagen, Larisa Ismailova and Sergey V. Kosikov |
Combinator-as-a-process for representing the
information structure of deep computing |
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43 |
B |
Evgeny
Chepin |
Robotics: from cybernetics first to third order |
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46 |
J |
Pavel
G. Gudkov and Anna I. Guseva |
Accuracy of Expert Assessments in Evaluating
Innovative Projects |
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47 |
K |
Liudmila
Zaidelman, Zakhar Nosovets, Artemiy Kotov, Vadim Ushakov, Vera Zabotkina and
Boris M. Velichkovsky |
Russian-language Neurosemantics: Clustering of Word
Meaning and Sense from the Oral Narratives |
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48 |
G |
Larisa
Lyutikova and Elena Shmatova |
Algorithm for constructing logical operations to
identify patterns in data |
✔ |
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49 |
D |
Victor
Alyushin |
Correlation of a Face Vibroimage Informative
Parameters with Characteristics of a
Person’s Functional State When Using VR and AR Technical Means |
✔ |
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50 |
E |
Dmitriy
Dimitrichenko |
Algorithm for constructing logical neural networks
based on logical various-valued functions |
✔ |
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51 |
D |
Alexander
Alyushin and Sergey Dvoryankin |
Acoustic Pattern Recognition Technology Based on
the Viola-Jones Approach for VR and AR Systems |
✔ |
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54 |
H |
Kholodny
Yuri, Sergey Kartashov, Denis Malakhov and Vyacheslav Orlov |
Improvement of the technology of fMRI-experiments in the concealed information paradigm |
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55 |
D |
Lyubov
Kolobashkina, Mikhail Alyushin and Kirill Nikishov |
Expandable Digital Functional State Model of
Operator for Intelligent Human Factor Reliability Management Systems |
✔ |
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56 |
H |
Alexey
Poyda, Maksim Sharaev, Vyacheslav Orlov, Stas Kozlov, Irina Enyagina and
Vadim Ushakov |
Comparative analysis of methods for calculating the
interactions between the human brain regions based on resting-state fMRI data
to build long-term cognitive architectures |
✔ |
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57 |
A |
Leendert
Remmelzwaal, Amit Mishra and George Ellis |
Brain-inspired Distributed Cognitive Architecture |
✔ |
✔ |
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59 |
K |
Sergey
Kartashov, Vyacheslav Orlov, Aleksandra Maslennikova and Vadim Ushakov |
Neurophysiological features of neutral and
threatening visual stimuli perception in patients with schizophrenia |
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61 |
G |
Timofei
Voznenko, Alexander Gridnev, Eugene Chepin and Konstantin Kudryavtsev |
Comparison between Coordinated Control and
Interpretation Methods for Multi-Channel Control of a Mobile Robotic Device |
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63 |
E |
Irina
Malanchuk |
Cognitive Architectures of Effective
Speech-Language Communication and Prospective Challenges for
Neurophysiological Speech Studies |
✔ |
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66 |
K |
Maksim
Sharaev, Tatiana Melnikova-Pitskhelauri, Alexander Smirnov, Arseniy Bozhenko,
Vyacheslav Yarkin, Alexander Bernstein, Evgeny Burnaev, Plamen
Petrov, David Pitskhelauri, Vyacheslav Orlov and Igor Pronin |
Brain cognitive architectures mapping for
neurosurgery: resting-state fMRI and intraoperative validation |
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67 |
A |
Jan
Treur |
Modeling the Emergence of Informational Content by
Adaptive Networks for Temporal Factorisation
and Criterial Causation |
✔ |
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68 |
E |
Anna
Lebedeva and Anna Guseva |
Designing software for risk assessment using a
Neural Network |
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70 |
D |
Vasilii
Volodin and Andrej Tolokonskij |
Analysis of using of neural networks for real-time
process control |
✔ |
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72 |
H |
Kazuteru
Miyazaki |
Application of Deep Reinforcement Learning to
Decision-Making System based on Consciousnes |
✔ |
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73 |
C |
Viacheslav
Wolfengagen, Larisa Ismailova and Sergey V. Kosikov |
Applicative model to bring-in conceptual envelope
for computational thinking with information processes |
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76 |
K |
Sergey
Misyurin, German Kreinin, Natalia Nosova and Andrey Nelubin |
Selection of a Friction Model to Take into Account
the Impact on the Dynamics and Positioning Accuracy of Drive Systems |
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80 |
H |
David
Kelley |
Applying Independent Core Observer Model Cognitive
Architecture to a Collective Intelligence System |
✔ |
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83 |
K |
Alexey
Matronchik, Elena Khangulyan and Nikolay Klyachin |
Remote laboratory-based classes at the department
of general physics of NRNU MEPhI under the condition of the COVID-19
pandemic. |
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84 |
H |
Z.
Nosovets, B.M. Velichkovsky, L. Zaidelman, V. Orlov, S. Kartashov, A. Kotov,
V. Ushakov, V. Zabotkina |
Lateralization in Neurosemantics: Are Some Lexical
Clusters More Equal Than Others? |
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87 |
J |
Vladimir
Ivlev, Sergey Misyurin and Andrey Nelyubin |
Friction model identification for dynamic modeling
of pneumatic cylinder |
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88 |
H |
Yuri
Kholodny, Sergey Kartashov, Denis Malakhov and Vyacheslav Orlov |
Study of neurocognitive mechanisms in the concealed information paradigm |
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89 |
G |
Larisa
Lyutikova |
Applying a logical derivative to identify hidden
patterns in the data structure |
✔ |
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91 |
B |
Yulia
Neroznikova and Alexander Vartanov |
The Role of Gender in the Prosocial Behavior
Mechanisms |
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92 |
A |
Jan
Treur and Gerrit Glas |
A Multi-Level Cognitive Architecture for
Self-Referencing, Self-Awareness and Self-Interpretation |
✔ |
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93 |
G |
Artem
Sukhobokov and Liubov Lavrinova |
AGI components for enterprise management systems |
✔ |
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95 |
E |
Andrei
Andrianov, Seyed Sahand Mohammadi Ziabari and Charlotte Gerritsen |
A Brain-Inspired Cognitive Support Model for Stress
Reduction based on an Adaptive Network Model |
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96 |
B |
Taisuke
Akimoto |
Cogmic Space for Narrative-Based World
Representation |
✔ |
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97 |
F |
Artur
Petrosyan, Mikhail Lebedev and Alexey Ossadtchi |
Linear systems theoretic approach tointerpretation
of spatial and temporal weights incompact CNNs: Monte-Carlo study |
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98 |
B |
Yulia
Neroznikova and Alexander Vartanov |
Reflection of Empathy Processes in Evoked
Potentials |
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99 |
B |
Yuliya
Gavrilenko, Saada Daniel, Eugene Ilyushin, Alexander Vartanov and Andrey
Shevchenko |
The electroencephalogram based classification of
internally pronounced phonemes |
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100 |
B |
Alisa
Suyuncheva and Alexander Vartanov |
Comparison of brain induced potentials in internal
speech in studied and unknown languages |
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104 |
I |
Mukhamed
Kazakov |
Logical circuits of a ΣΠ-neuron model |
✔ |
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106 |
C |
Larisa
Ismailova, Viacheslav Wolfengagen, Sergey V. Kosikov and Denis Babushkin |
Modeling Spread, Interlace and Interchange of
Information Processes with Variable Domains |
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107 |
A |
Joey
van den Heuvel and Jan Treur |
To Help or Not to Help: A Network Modelling Approach to the
Bystander Effect |
✔ |
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109 |
K |
Julia
Bobrysheva and Sergey Zapechnikov |
Post-quantum group key agreement scheme |
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110 |
F |
Alexander
Naumov, Alexander Sboev and Roman Rybka |
Data-Driven Model for Emotion Detection in Russian
Texts |
✔ |
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113 |
F |
Alexander
Sboev, Alexey Serenko, Roman Rybka and Danila Vlasov |
Ensembling SNNs with STDP learning on base of rate
stabilization for image classification |
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115 |
E |
Evgeniy
Tretyakov, Alexey Artamonov, Kristina Ionkina, Boris Onykij and Rufina
Tukumbetova |
A Methodology for Designing Self-organizing Systems |
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117 |
I |
Vasilii
Davydov, Timofei Liusko and Aleksandr I. Panov |
Self and Other Modelling in CooperativeResource
Gathering with Multi-Agent Reinforcement Learning |
✔ |
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121 |
C |
Viacheslav
Wolfengagen, Larisa Ismailova and Sergey V. Kosikov |
Computational Model for Capturing the
Interdependencies on Information Processes |
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128 |
I |
Valeriia
Demareva and Julia Edeleva |
Eye movement correlates of foreign language
proficiency in Russian-English bilinguals |
✔ |
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134 |
A |
Jan
Treur |
An Adaptive Network Model Covering
Metacognition to Control Adaptation
for Multiple Mental Models |
✔ |
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136 |
C |
Viacheslav
Wolfengagen, Larisa Ismailova and Sergey V. Kosikov |
Imposing and Superposing the Information Processes
over Variable Concepts |
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137 |
K |
Sergey
Misyurin, German Kreinin, Natalia Nosova and Andrey Nelyubin |
Kinematics and dynamics of the spider-robot
mechanism, motion optimization |
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138 |
J |
Yulia
Medvedeva and Rafael Abdulov |
Labor productivity growth based on revolutionary
technologies as a factor for overcoming the economic crisis |
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141 |
J |
Andrey
M. Kanner, Tatiana M. Kanner and Anna V. Epishkina |
Algorithm for Optimal and Complete Testing of
Software and Hardware Data Security Tools |
✔ |
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143 |
K |
Evgenii
Vityaev and Bayar Pak |
PROTOTYPES of the “NATURAL” CONCEPTS DISCOVERY |
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144 |
I |
Alexander
Lebedev and Nikolay Maksimov |
Toward a building an Ontology of artefact |
✔ |
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145 |
I |
Nikolay
Maksimov, Olga Golitsina, Kirill Monankov and Natalia Bal |
Graph-ontology model of cognitive-similar
information retrieval (on the requirements tracing task example) |
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Room |
Total |
Poster Numbers |
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A |
7 |
4, 7, 57, 67, 92, 107, 134 |
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B |
7 |
19, 43, 91, 96, 98, 99, 100 |
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C |
7 |
32, 40, 42, 73, 106, 121, 136 |
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D |
7 |
30, 31, 34, 49, 51, 55, 70 |
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E |
7 |
3, 16, 50, 63, 68, 95, 115 |
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F |
7 |
24, 26, 33, 41, 97, 110, 113 |
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G |
7 |
29, 36, 39, 48, 61, 89, 93 |
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H |
7 |
35, 54, 56, 72, 80, 84, 88 |
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I |
6 |
12, 104, 117, 128, 144, 145 |
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J |
6 |
9, 22, 46, 87, 138, 141 |
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K |
8 |
47, 59, 66, 76, 83, 109, 137, 143 |
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