№ з/п |
Рік, №, том/ year, №, volume |
ПІБ автора |
Last name, first name of the author |
Країна/ country |
Найменування статті |
Name of article |
|
2022 |
|
|
|
|
|
1. |
2022, 2(94), 27 |
Єрмольєва Т. |
Ermolieva T. |
Австрія / Austria |
Штучний інтелект, машинне навчання та інтелектуальні системи підтримки прийняття рішень: ітераційне «навчання» процедур на основі SQG. |
Artificial Intelligence, Machine Learning, and Intelligent Decision Support Systems: Iterative “Learning” Sqg-based Procedures for Distributed Models’ inkage. |
2. |
2022, 2(94), 27 |
Єрмольєв Ю. |
Ermoliev Yu.. |
Австрія / Austria |
Штучний інтелект, машинне навчання та інтелектуальні системи підтримки прийняття рішень: ітераційне «навчання» процедур на основі SQG. |
Artificial Intelligence, Machine Learning, and Intelligent Decision Support Systems: Iterative “Learning” Sqg-based Procedures for Distributed Models’ inkage. |
3. |
2022, 2(94), 27 |
Хавлік П. |
Havlik P. |
Австрія / Austria |
Штучний інтелект, машинне навчання та інтелектуальні системи підтримки прийняття рішень: ітераційне «навчання» процедур на основі SQG. |
Artificial Intelligence, Machine Learning, and Intelligent Decision Support Systems: Iterative “Learning” Sqg-based Procedures for Distributed Models’ inkage. |
4. |
2022, 2(94), 27 |
Комендантова Н. |
Komendantova N. |
Австрія / Austria |
Штучний інтелект, машинне навчання та інтелектуальні системи підтримки прийняття рішень: ітераційне «навчання» процедур на основі SQG. |
Artificial Intelligence, Machine Learning, and Intelligent Decision Support Systems: Iterative “Learning” Sqg-based Procedures for Distributed Models’ inkage. |
5. |
2023, 3(97), 28 |
Корнєєв С. |
Kornieiev S. |
Польща / Poland |
Когнітивна архітектура AGI-агента agica - аксіоматичний підхід. |
AGI-agent cognitive architecture agica - axiomatic approach. |
6. |
2023, 3(97), 28 | Страшной Л. | Strashnoy L. | США / USA | Формування сценаріїв діяльності на базі сервісів генеративного штучного інтелекту. | Formation of activity scenarios based on generative artificial intelligence services. |
7. | 2023, 3(97), 28 | Дрямов О. | Driamov O. | Польща / Poland | Формування сценаріїв діяльності на базі сервісів генеративного штучного інтелекту. | Formation of activity scenarios based on generative artificial intelligence services. |
№ з/п |
Year, №, volume |
Last name, first name of the author |
Country |
Name of article |
|
2013 |
http://jai.in.ua/index.php/en/issues?journal_num=59 |
||
1. |
2013, 1(59), 18 |
Prakapovich R. |
Belarus |
Bionic Architecture of the Hierarchical Distributed Control System for Autonomous Mobile Robots |
2. |
2013, 3(61), 18 |
Nechaev Y. |
Russia |
Philosophical Aspects of Realization of Problems of the Modern Theory of Accidents in Integrated Dynamic Environment (Wednesday) |
3. |
2013, 3(61), 18 |
Bouza M. |
Belarus |
Efficient Protocol for Distributed Systems |
4. |
2013, 3(61), 18 |
Novoselova N. |
Belarus |
Algorithm of Feature Ranking for Biomarker Discovery in Gene Expression Data |
5. |
2013, 3(61), 18 |
Tom I. |
Belarus |
Algorithm of Feature Ranking for Biomarker Discovery in Gene Expression Data |
6. |
2013, 3(61), 18 |
Kotyra A. |
Poland |
Biomass Co-Combustion Process Assessment Using Series of Flame Images. |
7. |
2013, 3(61), 18 |
Wójcik W. |
Poland |
Biomass Co-Combustion Process Assessment Using Series of Flame Images. |
8. |
2013, 3(61), 18 |
Gromaszek K. |
Poland |
Biomass Co-Combustion Process Assessment Using Series of Flame Images. |
9. |
2013, 3(61), 18 |
Belozersky L. |
Belarus |
Discretization of Ground Control Areas to Automate the Deterministic Thematic Satellite Monitoring System |
10. |
2013, 3(61), 18 |
Аreshkina L. |
Belarus |
Discretization of Ground Control Areas to Automate the Deterministic Thematic Satellite Monitoring System |
11. |
2013, 3(61), 18 |
Murashko N. |
Belarus |
Discretization of Ground Control Areas to Automate the Deterministic Thematic Satellite Monitoring System |
12. |
2013, 3(61), 18 |
Sergushin G. |
Russia |
Information Modeling of Complex Automated Process Control Systems, Based on Mivar Technology |
13. |
2013, 3(61), 18 |
Varlamov O. |
Russia |
Information Modeling of Complex Automated Process Control Systems, Based on Mivar Technology |
14. |
2013, 3(61), 18 |
Chibirova M. |
Russia |
Information Modeling of Complex Automated Process Control Systems, Based on Mivar Technology |
15. |
2013, 3(61), 18 |
Eliseev D. |
Russia |
Information Modeling of Complex Automated Process Control Systems, Based on Mivar Technology |
16. |
2013, 3(61), 18 |
Muravyova E. |
Russia |
Information Modeling of Complex Automated Process Control Systems, Based on Mivar Technology |
17. |
2013, 3(61), 18 |
Zhiznyakov A. |
Russia |
The calculation of the fractal sings of self-similarity of the digital image |
18. |
2013, 3(61), 18 |
Privezentsev D. |
Russia |
The calculation of the fractal sings of self-similarity of the digital image |
19. |
2013, 3(61), 18 |
Pazhin D. |
Russia |
The calculation of the fractal sings of self-similarity of the digital image |
20. |
2013, 3(61), 18 |
Nedzved A. |
Belarus |
A Flexible Image Processing System Based on a Script-Kernel Using an Intelligent Agent |
21. |
2013, 3(61), 18 |
Lukashevich P. |
Belarus |
A Flexible Image Processing System Based on a Script-Kernel Using an Intelligent Agent |
22. |
2013, 3(61), 18 |
Belotserkovsky А. |
Belarus |
A Flexible Image Processing System Based on a Script-Kernel Using an Intelligent Agent |
23. |
2013, 3(61), 18 |
Orlov A. |
Russia |
Algorithm for Localization of Production Mark Image with the Use of Analysis of the Color Data |
24. |
2013, 3(61), 18 |
Astafiev A. |
Russia |
Algorithm for Localization of Production Mark Image with the Use of Analysis of the Color Data |
25. |
2013, 3(61), 18 |
Provotorov A. |
Russia |
Algorithm for Localization of Production Mark Image with the Use of Analysis of the Color Data |
26. |
2013, 3(61), 18 |
Salnikov I. |
Russia |
Recognition Method of Complex Binary Images Based on Progressive and Tracking Analysis |
27. |
2013, 3(61), 18 |
Plechawska- Wojcik M. |
Poland |
The Model of Quality Assessment of Automatically Adjusted Responsive Web Pages and Applications. |
28. |
2013, 3(61), 18 |
Anishchanka U. |
Belarus |
The Method of Rapid Prototyping Fuzzy Inference Systems for Unknown Number of Classes |
29. |
2013, 3(61), 18 |
Viattchenin D. |
Belarus |
The Method of Rapid Prototyping Fuzzy Inference Systems for Unknown Number of Classes |
30. |
2013, 3(61), 18 |
Damaratski A. |
Belarus |
The Method of Rapid Prototyping Fuzzy Inference Systems for Unknown Number of Classes |
31. |
2013, 3(61), 18 |
Tati R. |
Belarus |
The Method of Rapid Prototyping Fuzzy Inference Systems for Unknown Number of Classes |
32. |
2013, 3(61), 18 |
Fisenko V. |
Belarus |
The Method of Rapid Prototyping Fuzzy Inference Systems for Unknown Number of Classes |
33. |
2013, 3(61), 18 |
Antsyferov S. |
Russia |
Estimation of Quality Level of Intellectual Systems |
34. |
2013, 3(61), 18 |
Borgest N. |
Russia |
The analysis of difficult systems parameters at creation of databases |
35. |
2013, 3(61), 18 |
Sergeeva T. |
Russia |
The analysis of difficult systems parameters at creation of databases |
36. |
2013, 3(61), 18 |
Boukhanovsky A. |
Russia |
Functioning of virtual laboratory of emergency calculations in intellectual environment of «cloudy» model |
37. |
2013, 3(61), 18 |
Ivanov S. |
Russia |
Functioning of virtual laboratory of emergency calculations in intellectual environment of «cloudy» model |
38. |
2013, 3(61), 18 |
Nechaev Y. |
Russia |
Functioning of virtual laboratory of emergency calculations in intellectual environment of «cloudy» model |
39. |
2013, 3(61), 18 |
Sloot P |
Russia |
Functioning of virtual laboratory of emergency calculations in intellectual environment of «cloudy» model |
40. |
2013, 3(61), 18 |
Gabidulin M. |
Russia |
Error Analysis of Transformation and Synthesis of Precision Digital Tachometers on Raster Resolver Movements |
41. |
2013, 3(61), 18 |
Timofeev A. |
Russia |
Ontological Basis of the Project «Artificial Intellectual Hand» |
42. |
2013, 3(61), 18 |
Dmitrieva V. |
Russia |
Ontological Basis of the Project «Artificial Intellectual Hand» |
43. |
2013, 3(61), 18 |
Shuts V. |
Belarus |
The Organization of Adaptive Motor Traffic in the Road Network of the City |
44. |
2013, 3(61), 18 |
Sogoyan A. |
Belarus |
The Organization of Adaptive Motor Traffic in the Road Network of the City |
45. |
2013, 3(61), 18 |
Darintsev O. |
Russia |
Use of technologies of augmented and virtual realities at realization of control algorithms for robotics collective |
46. |
2013, 3(61), 18 |
Chibirova M. |
Russia |
The implementation of the universal solver based on adaptive logical conclusion with linear complexity and cloud technologies |
47. |
2013, 3(61), 18 |
Sergushin G. |
Russia |
The implementation of the universal solver based on adaptive logical conclusion with linear complexity and cloud technologies |
48. |
2013, 3(61), 18 |
Varlamov O. |
Russia |
The implementation of the universal solver based on adaptive logical conclusion with linear complexity and cloud technologies |
49. |
2013, 3(61), 18 |
Eliseev D. |
Russia |
The implementation of the universal solver based on adaptive logical conclusion with linear complexity and cloud technologies |
50. |
2013, 3(61), 18 |
Hadiev A. |
Russia |
The implementation of the universal solver based on adaptive logical conclusion with linear complexity and cloud technologies |
51. |
2013, 3(61), 18 |
Koziel G. |
Poland |
Neural Nets Usage for Problems of Hiding Data in Audio Signal. |
52. |
2013, 3(61), 18 |
Dzmitryiev U. |
Belarus |
Control of Protection of Confidental Information for Input from the PС Keyboard |
53. |
2013, 3(61), 18 |
Stepanyan A. |
Belarus |
Control of Protection of Confidental Information for Input from the PС Keyboard |
54. |
2013, 3(61), 18 |
Fisenko U. |
Belarus |
Control of Protection of Confidental Information for Input from the PС Keyboard |
55. |
2013, 4(62), 18 |
Varlamov O. |
Russia |
Comprehensive Computer Modeling of Understanding of Texts, Images and Speech Based on Mivar |
56. |
2013, 4(62), 18 |
Adamova L. |
Russia |
Comprehensive Computer Modeling of Understanding of Texts, Images and Speech Based on Mivar |
57. |
2013, 4(62), 18 |
Eliseev D. |
Russia |
Comprehensive Computer Modeling of Understanding of Texts, Images and Speech Based on Mivar |
58. |
2013, 4(62), 18 |
Maiboroda Y. |
Russia |
Comprehensive Computer Modeling of Understanding of Texts, Images and Speech Based on Mivar |
59. |
2013, 4(62), 18 |
Antonov Y. |
Russia |
Comprehensive Computer Modeling of Understanding of Texts, Images and Speech Based on Mivar |
60. |
2013, 4(62), 18 |
Sergushin G. |
Russia |
Comprehensive Computer Modeling of Understanding of Texts, Images and Speech Based on Mivar |
61. |
2013, 4(62), 18 |
Chibirova M. |
Russia |
Comprehensive Computer Modeling of Understanding of Texts, Images and Speech Based on Mivar |
62. |
2013, 4(62), 18 |
Shalfeeva A. |
Russia |
The Method of Construction of Intelligent Problem Solver’s Design Representations from the Models of Life Cycle Initial Stages |
63. |
2013, 4(62), 18 |
Verenik N. |
Belarus |
Simulation Model of Vector Processor Solving the Problem of Path Finding in Graph |
64. |
2013, 4(62), 18 |
Girel A. |
Belarus |
Simulation Model of Vector Processor Solving the Problem of Path Finding in Graph |
65. |
2013, 4(62), 18 |
Seitkulov Y. |
Belarus |
Simulation Model of Vector Processor Solving the Problem of Path Finding in Graph |
66. |
2013, 4(62), 18 |
Tatur M. |
Belarus |
Simulation Model of Vector Processor Solving the Problem of Path Finding in Graph |
67. |
2013, 4(62), 18 |
Inyutin A. |
Belarus |
Soft Mathematical Morphology for Filtering of Binary Images |
68. |
2013, 4(62), 18 |
Krapivin Y. |
Belarus |
Cross-language Functionality in the Problem of the Automatic Identification of the Semantically Equivalent Fragments of the Text Documents |
69. |
2013, 4(62), 18 |
Nedzved A. |
Belarus |
Object Tracing with Interactive Method Based оn Pseudo-Distance Maps оf Grey-Scale Image |
70. |
2013, 4(62), 18 |
Belotserkovsky A. |
Belarus |
Object Tracing with Interactive Method Based оn Pseudo-Distance Maps оf Grey-Scale Image |
71. |
2013, 4(62), 18 |
Lukashevich P. |
Belarus |
Object Tracing with Interactive Method Based оn Pseudo-Distance Maps оf Grey-Scale Image |
72. |
2013, 4(62), 18 |
Antsyferov S. |
Russia |
Processing Speed of Intellectual Systems |
73. |
2013, 4(62), 18 |
Rusanov K. |
Russia |
Processing Speed of Intellectual Systems |
74. |
2013, 4(62), 18 |
Borgest N. |
Russia |
Design Data Synthesis of Complicated Systems on Basis of Prototypes |
75. |
2013, 4(62), 18 |
Kancher G. |
Russia |
Design Data Synthesis of Complicated Systems on Basis of Prototypes |
76. |
2013, 4(62), 18 |
Boukhanovsky A. |
Russia |
Functional Model of the Competence Centres in Intelligence Environment of «Cloudy» Computin |
77. |
2013, 4(62), 18 |
Vasilev V. |
Russia |
Functional Model of the Competence Centres in Intelligence Environment of «Cloudy» Computin |
78. |
2013, 4(62), 18 |
Nechaev Y. |
Russia |
Functional Model of the Competence Centres in Intelligence Environment of «Cloudy» Computin |
79. |
2013, 4(62), 18 |
Iskra V. |
Belarus |
The Influence of the Statistical Characteristics of the Training Sample on its Representativeness |
80. |
2013, 4(62), 18 |
Iskra N. |
Belarus |
The Influence of the Statistical Characteristics of the Training Sample on its Representativeness |
81. |
2013, 4(62), 18 |
Tatur M. |
Belarus |
The Influence of the Statistical Characteristics of the Training Sample on its Representativeness |
82. |
2013, 4(62), 18 |
Litvinskaya O. |
Russia |
Decision-Making in the Hierarchical System of Elections Using the Trust in Design Functional Devices Digital Information Processing |
83. |
2013, 4(62), 18 |
Salnikov I. |
Russia |
Decision-Making in the Hierarchical System of Elections Using the Trust in Design Functional Devices Digital Information Processing |
84. |
2013, 4(62), 18 |
Paklin N. |
Russia |
Optimal Quantization to Improve the Quality of Binary Classifiers |
85. |
2013, 4(62), 18 |
Afanasiev V. |
Russia |
Optimal Quantization to Improve the Quality of Binary Classifiers |
86. |
2013, 4(62), 18 |
Savin L. |
Russia |
Adaptive control of hydro-mechanical couplings on the basis of methods of intellectual systems |
87. |
2013, 4(62), 18 |
Borodina M. |
Russia |
Adaptive control of hydro-mechanical couplings on the basis of methods of intellectual systems |
88. |
2013, 4(62), 18 |
Mironenko S. |
Russia |
Adaptive control of hydro-mechanical couplings on the basis of methods of intellectual systems |
89. |
2013, 4(62), 18 |
Darincev O. |
Russia |
Use of Methods of Artificial Intelligence in Control Systems of Technical Processes of Manufacturing Nanostructured Materials |
90. |
2013, 4(62), 18 |
Migranov A. |
Russia |
Use of Methods of Artificial Intelligence in Control Systems of Technical Processes of Manufacturing Nanostructured Materials |
91. |
2013, 4(62), 18 |
Ganchenko V. |
Belarus |
The Software Neural Network System for Monitoring Space Telemetry |
92. |
2013, 4(62), 18 |
Doudkin A. |
Belarus |
The Software Neural Network System for Monitoring Space Telemetry |
93. |
2013, 4(62), 18 |
Inyutin A. |
Belarus |
The Software Neural Network System for Monitoring Space Telemetry |
94. |
2013, 4(62), 18 |
Marushko Y. |
Belarus |
The Software Neural Network System for Monitoring Space Telemetry |
95. |
2013, 4(62), 18 |
Podenok L. |
Belarus |
The Software Neural Network System for Monitoring Space Telemetry |
96. |
2013, 4(62), 18 |
Gladun G. |
Russia |
Development of products using the training that forms their «intelligence» in the form of concepts of situations |
97. |
2013, 4(62), 18 |
Zakharikov B. |
Russia |
Development of products using the training that forms their «intelligence» in the form of concepts of situations |
98. |
2013, 4(62), 18 |
Subbotin V. |
Russia |
Development of products using the training that forms their «intelligence» in the form of concepts of situations |
99. |
2013, 4(62), 18 |
Zarubin M. |
Kazakhstan |
The use of Artificial Neural Networks for Process Control Hardware and Processing Complex |
100. |
2013, 4(62), 18 |
Zarubin V. |
Kazakhstan |
Класифікація загроз інформаційної безпеки автоматизованої системи |
101. |
2013, 4(62), 18 |
Stepanyan A. |
Belarus |
Classification of Information Security Threats of Automated System |
102. |
2013, 4(62), 18 |
Dzmitryieu U. |
Belarus |
Classification of Information Security Threats of Automated System |
103. |
2013, 4(62), 18 |
Fisenka U. |
Belarus |
Classification of Information Security Threats of Automated System |
|
2014 |
http://jai.in.ua/index.php/en/issues?journal_num=63 |
||
1. |
2014, 1(63), 19 |
Sychyou U. |
Belarus |
Search Motion Algorithm of Mobile Robots for Realization of Effective and Protected Relaying Information Packages |
2. |
2014, 1(63), 19 |
Shevchuk B. |
Belarus |
Search Motion Algorithm of Mobile Robots for Realization of Effective and Protected Relaying Information Packages |
3. |
2014, 1(63), 19 |
Pigus V. |
Belarus |
Search Motion Algorithm of Mobile Robots for Realization of Effective and Protected Relaying Information Packages |
4. |
2014, 2(64), 19 |
Antsyferov S. |
Russia |
Estimation of Processing Speed of Intellectual Systems in the Conditions of Multivariance and Uncertainty. |
5. |
2014, 2(64), 19 |
Rusanov K. |
Russia |
Estimation of Processing Speed of Intellectual Systems in the Conditions of Multivariance and Uncertainty. |
9. |
2014, 2(64), 19 |
Golovko V. |
Belarus |
Neural Network System for Transient Ischemic Attacks Diagnostics |
10. |
2014, 2(64), 19 |
Drivotinov B. |
Belarus |
Neural Network System for Transient Ischemic Attacks Diagnostics |
11. |
2014, 2(64), 19 |
Apanel E. |
Belarus |
Neural Network System for Transient Ischemic Attacks Diagnostics |
12. |
2014, 2(64), 19 |
Vaitsekhovich H. |
Belarus |
Neural Network System for Transient Ischemic Attacks Diagnostics |
13. |
2014, 2(64), 19 |
Mastykin A. |
Belarus |
Neural Network System for Transient Ischemic Attacks Diagnostics |
14. |
2014, 3(65), 19 |
Bouza M. |
Belarus |
Environment Design of Distributed Data Processing |
15. |
2014, 3(65), 19 |
Belozersky L. |
Belarus |
Automation Principles Discrete Presentation of the Satellite Monitoring Field of the Earth Surface |
16. |
2014, 3(65), 19 |
Аreshkina L. |
Belarus |
Automation Principles Discrete Presentation of the Satellite Monitoring Field of the Earth Surface |
17. |
2014, 3(65), 19 |
Murashko N. |
Belarus |
Automation Principles Discrete Presentation of the Satellite Monitoring Field of the Earth Surface |
18. |
2014, 3(65), 19 |
Antsyferov S. |
Russia |
Standardisation of Indicators of Quality of Products Cognitive Technologies. |
19. |
2014, 3(65), 19 |
Nesenchuk A. |
Belarus |
Dynamics Simulation and Calculation of Robust Parameters for the Electric Drive Control System on the Basis of the Root Locus Portraits |
20. |
2014, 3(65), 19 |
Opeiko O. |
Belarus |
Dynamics Simulation and Calculation of Robust Parameters for the Electric Drive Control System on the Basis of the Root Locus Portraits |
21. |
2014, 3(65), 19 |
Odnolko D. |
Belarus |
Dynamics Simulation and Calculation of Robust Parameters for the Electric Drive Control System on the Basis of the Root Locus Portraits |
22. |
2014, 4(66), 19 |
Timofeev A. |
Russia |
Thinking System and Problems of Our Civilization |
23. |
2014, 4(66), 19 |
Dmitrieva V. |
Russia |
Thinking System and Problems of Our Civilization |
24. |
2014, 4(66), 19 |
Shuts V. |
Belarus |
Multiagent Motion Control Vehicles in the Road Network of the City |
25. |
2014, 4(66), 19 |
Shalfeeva O. |
Russia |
Conceptual Model of Integrated Complex of Intelligent Services and its Control Tools |
|
2015 |
http://jai.in.ua/index.php/en/issues?journal_num=67 |
||
1. |
2015, 1-2(67-68), 20 |
Bouza M. |
Belarus |
Analysis of the effectiveness of parallel technologies |
2. |
2015, 1-2(67-68), 20 |
Doudkin A. |
Belarus |
Fuzzy neural network for integrated circuit layout analysis |
3. |
2015, 1-2(67-68), 20 |
Shuts V. |
Belarus |
Information transportation system mass conveyor carriage of passengers |
4. |
2015, 1-2(67-68), 20 |
Persia L. |
Italy |
Information transportation system mass conveyor carriage of passengers |
5. |
2015, 1-2(67-68), 20 |
Giustiniani G. |
Italy |
Information transportation system mass conveyor carriage of passengers |
6. |
2015, 3-4(69-70), 20 |
Nesenchuk А. |
Belarus |
Dynamics of the interval control system root locus portrait at the stability boundary |
7. |
2015, 3-4(69-70), 20 |
Verenik N. |
Belarus |
Graph-dynamic machine implementation on computing cluster and its integration in intelligent system |
8. |
2015, 3-4(69-70), 20 |
Tatur M. |
Belarus |
Graph-dynamic machine implementation on computing cluster and its integration in intelligent system |
9. |
2015, 3-4(69-70), 20 |
Seitkulov Y. |
Kazakhstan |
Graph-dynamic machine implementation on computing cluster and its integration in intelligent system |
|
2016 |
http://jai.in.ua/index.php/en/issues?journal_num=69 |
||
1. |
2016, 1(71), 21 |
Tatur M. |
Belarus |
Technical vision system for seeds sorting in a laboratory |
2. |
2016, 1(71), 21 |
Ostroukhova S. |
Belarus |
Technical vision system for seeds sorting in a laboratory |
3. |
2016, 2(72), 21 |
Bouza M. |
Belarus |
The mechanism of increasing the efficiency of data compression |
4. |
2016, 2(72), 21 |
Shuts V. |
Belarus |
Alternate transportation metro-based mobile robots |
5. |
2016, 2(72), 21 |
Prolisko E. |
Belarus |
Alternate transportation metro-based mobile robots |
6. |
2016, 3(73), 21 |
Inyutin A. |
Belarus |
Method for increasing the accuracy of pcb image segmentation |
7. |
2016, 3(73), 21 |
Marushko Y. |
Belarus |
Constructuin of ensemble of neural network for spacecraft telemetry multivariate time series forecasting |
8. |
2016, 3(73), 21 |
Doudkin A. |
Belarus |
Constructuin of ensemble of neural network for spacecraft telemetry multivariate time series forecasting |
9. |
2016, 4(74), 21 |
Kornieiev S. |
Poland |
Operational system of artificial intelligence: the basic definitions |
10. |
2016, 4(74), 21 |
Krautsou S. |
Belarus |
Remote monitoring system of the crops condition on the scale of separate farm |
11. |
2016, 4(74), 21 |
Golubtsov D. |
Belarus |
Remote monitoring system of the crops condition on the scale of separate farm |
12. |
2016, 4(74), 21 |
Lepiasevich K. |
Belarus |
Remote monitoring system of the crops condition on the scale of separate farm |
13. |
2016, 4(74), 21 |
Lapanik S. |
Belarus |
Remote monitoring system of the crops condition on the scale of separate farm |
|
2017 |
http://jai.in.ua/index.php/en/issues?journal_num=73 |
||
1. |
2017, 1(75), 22 |
Shuts V. |
Belarus |
Robotic metro-slit type “molehills” |
2. |
2017, 2(76), 22 |
Kotyra A. |
Poland |
Determination of biomass co-combustion process state based on flame image series analysis. |
3. |
2017, 2(76), 22 |
Wójcik W. |
Poland |
Determination of biomass co-combustion process state based on flame image series analysis. |
4. |
2017, 2(76), 22 |
Gromaszek K. |
Poland |
Determination of biomass co-combustion process state based on flame image series analysis. |
5. |
2017, 3-4(77-78), 22 |
Kornieiev S. |
Poland |
The basic definitions of artificial intelligence operating system: "ai-thought” and "ai-emotion” concepts. |
6. |
2017, 3-4(77-78), 22 |
Diblik J. |
Czech Republic |
The convergence of neurodynamics processes in the hopfield model |
7. |
2017, 3-4(77-78), 22 |
Bashtinec J. |
Czech Republic |
The convergence of neurodynamics processes in the hopfield model |
8. |
2017, 3-4(77-78), 22 |
Smolarz A. |
Poland |
Artificial intelligence methods in diagnostics of coal-biomass blends co-combustion in pulverised coal burners. |
9. |
2017, 3-4(77-78), 22 |
Wójcik W. |
Poland |
Artificial intelligence methods in diagnostics of coal-biomass blends co-combustion in pulverised coal burners. |
10. |
2017, 3-4(77-78), 22 |
Gromaszek K. |
Poland |
Artificial intelligence methods in diagnostics of coal-biomass blends co-combustion in pulverised coal burners. |
|
2018 |
http://jai.in.ua/index.php/en/issues?journal_num=75 |
||
1. |
2018, 1(79), 23 |
Dzierżak R. |
Poland |
Application of neural networks in the classification of medical images textures. |
2. |
2018, 1(79), 23 |
Wójcik W. |
Poland |
Application of neural networks in the classification of medical images textures. |
3. |
2018, 2(80), 23 |
Kornieiev S. |
Poland |
The basic definitions of Artificial Intelligence operating system: "AI-Consciousness”, "AI-Time”, "AI-Know/not_know” and "AI-Memory” concepts. |
4. |
2018, 2(80), 23 |
Karkanitsa H. |
Belarus |
Subject domains modeling for adaptive decision support systems |
5. |
2018, 2(80), 23 |
Krasnoproshin V. |
Belarus |
Subject domains modeling for adaptive decision support systems |
6. |
2018, 2(80), 23 |
Martsenyuk V. |
Belarus |
About approaches on mathematical simulation of biosensor and immunosensor dynamic systems |
7. |
2018, 2(80), 23 |
Bouza M. |
Belarus |
Software and hardware support for computational acceleration |
8. |
2018, 3(81), 23 |
Voranau A. |
Belarus |
Machine Learning approach for malware detection using executable files features extraction. |
9. |
2018, 3(81), 23 |
Harakhavik Y. |
Belarus/ |
Machine Learning approach for malware detection using executable files features extraction. |
10. |
2018, 3(81), 23 |
Shuts V. |
Belarus |
Intellectual system of city public transport |
11. |
2018, 3(81), 23 |
Kasyanik V. |
Belarus |
Intellectual system of city public transport |
12. |
2018, 4(82), 23 |
Muslimova A. |
Kazakhstan |
Automation of sign language through the system of recognition of the gesture of the deaf |
13. |
2018, 4(82), 23 |
Galymzhan G. |
Kazakhstan |
Automation of sign language through the system of recognition of the gesture of the deaf |
14. |
2018, 4(82), 23 |
Kudubayeva S. |
Kazakhstan |
Automation of sign language through the system of recognition of the gesture of the deaf |
15. |
2018, 4(82), 23 |
Аvakaw S. |
Belarus |
Methods of artificial intelligence in the software management system for critical sizes control equipment on the basis of computer vision |
16. |
2018, 4(82), 23 |
Voranau A. |
Belarus |
Methods of artificial intelligence in the software management system for critical sizes control equipment on the basis of computer vision |
17. |
2018, 4(82), 23 |
Ganchenko V. |
Belarus |
Methods of artificial intelligence in the software management system for critical sizes control equipment on the basis of computer vision |
18. |
2018, 4(82), 23 |
Doudkin A. |
Belarus |
Methods of artificial intelligence in the software management system for critical sizes control equipment on the basis of computer vision |
19. |
2018, 4(82), 23 |
Dedkov A. |
Belarus |
Methods of artificial intelligence in the software management system for critical sizes control equipment on the basis of computer vision |
20. |
2018, 4(82), 23 |
Sholomicki V. |
Belarus |
Methods of artificial intelligence in the software management system for critical sizes control equipment on the basis of computer vision |
21. |
2018, 4(82), 23 |
Marushko Y. |
Belarus |
Using an ensemble of convolutional neural networks to process remote sensing data. |
22. |
2018, 4(82), 23 |
Doudkin A. |
Belarus |
Using an ensemble of convolutional neural networks to process remote sensing data. |
|
2019 |
http://jai.in.ua/index.php/en/issues?journal_num=79 |
||
1. |
2019, 1-2(83-84), 24 |
Bouza M. |
Belarus |
Cloud technology is the foundation for designing efficient application. |
2. |
2019, 1-2(83-84), 24 |
Nesenchuk А. |
Belarus |
Investigation and robust synthesis of polynomials under perturbations based on the root locus parameter distribution diagram. |
3. |
2019, 1-2(83-84), 24 |
Shatyrko A. |
Czech Republic |
Investigation of the dynamics of the some class of neuronet represented by weeknonlinear difference systems. |
4. |
2019, 1-2(83-84), 24 |
Puzha B. |
Czech Republic |
Investigation of the dynamics of the some class of neuronet represented by weeknonlinear difference systems. |
5. |
2019, 1-2(83-84), 24 |
Novotna V. |
Czech Republic |
Investigation of the dynamics of the some class of neuronet represented by weeknonlinear difference systems. |
6. |
2019, 1-2(83-84), 24 |
Pylypenko V. |
Czech Republic |
Investigation of the dynamics of the some class of neuronet represented by weeknonlinear difference systems. |
7. |
2019, 1-2(83-84), 24 |
Kalimoldaev M. |
Kazakhstan |
Computer model of control of a flat solar collector with a thermosifon circulation. |
8. |
2019, 1-2(83-84), 24 |
Amirgaliyev Y. |
Kazakhstan |
Computer model of control of a flat solar collector with a thermosifon circulation. |
9. |
2019, 1-2(83-84), 24 |
Kunelbyaev M. |
Kazakhstan |
Computer model of control of a flat solar collector with a thermosifon circulation. |
10. |
2019, 1-2(83-84), 24 |
Merembaev T. |
Kazakhstan |
Computer model of control of a flat solar collector with a thermosifon circulation. |
11. |
2019, 1-2(83-84), 24 |
Sundetov T. |
Kazakhstan |
Computer model of control of a flat solar collector with a thermosifon circulation. |
12. |
2019, 1-2(83-84), 24 |
Karymsakova I. |
Kazakhstan |
Development of a robotic plasma spraying system for biocompatible coatings. |
13. |
2019, 1-2(83-84), 24 |
Denissova N. |
Kazakhstan |
Development of a robotic plasma spraying system for biocompatible coatings. |
14. |
2019, 3-4(85-86), 24 |
Shviatsova A. |
Belarus |
The smart urban transport system basedon robotic vechicles. |
15. |
2019, 3-4(85-86), 24 |
Shuts V. |
Belarus |
The smart urban transport system basedon robotic vechicles. |
|
2020 |
http://jai.in.ua/index.php/en/issues?journal_num=81 |
||
1. |
2020, 1(87), 25 |
Shviatsova A. |
Belarus |
The cassette method principles of passengers transportation through the intelligent transportation system. |
2. |
2020, 1(87), 25 |
Shuts V. |
Belarus |
The cassette method principles of passengers transportation through the intelligent transportation system. |
3. |
2020, 3(89), 25 |
Novoselova N. |
Belarus |
Intelligent analytical system as a tool to ensure the reproducibility of biomedical calculations. |
4. |
2020, 3(89), 25 |
Skobtsov V. |
Belarus |
Intelligent analytical system as a tool to ensure the reproducibility of biomedical calculations. |
5. |
2020, 3(89), 25 |
Shviatsova O. |
Belarus |
The criterion of arising motion conflict of unmanned vehicles during implementing transportation plan in intelligent urban passenger transportation system. |
6. |
2020, 3(89), 25 |
Shuts V. |
Belarus |
The criterion of arising motion conflict of unmanned vehicles during implementing transportation plan in intelligent urban passenger transportation system. |
7. |
2020, 4(90), 25 |
Bouza K. |
Belarus |
Analysis and modification of graphic data compression algorithms. |
|
2021 |
http://jai.in.ua/index.php/en/issues?journal_num=86 |
||
1. |
2021, 2(92), 26 |
Sprindzuk M. |
Belarus |
Data processing algorithms for the in silico sars-cov-2 epitope prediction and vaccine development |
2. |
2021, 2(92), 26 |
Vladyko A. |
Belarus |
Data processing algorithms for the in silico sars-cov-2 epitope prediction and vaccine development |
3. |
2021, 2(92), 26 |
Titov L. |
Belarus |
Data processing algorithms for the in silico sars-cov-2 epitope prediction and vaccine development |
4. |
2021, 2(92), 26 |
Shuts V. |
Belarus |
The drawing up of the motion schedule in the intelligent urban passenger transport system. |
5. |
2021, 2(92), 26 |
Shviatsova A. |
Belarus |
The drawing up of the motion schedule in the intelligent urban passenger transport system. |