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Ruslan Kirichek
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2020 – today
- 2024
- [c74]Phuc Hao Do
, Duc Tran Le
A Horizontal Federated Learning Approach to IoT Malware Traffic Detection: An Empirical Evaluation with N-BaIoT Dataset. ICACT 2024: 1494-1506 - 2023
- [c73]Phuc Hao Do
A Horizontal Federated-Learning Model for Detecting Abnormal Traffic Generated by Malware in IoT Networks. ICACT 2023: 28-36 - 2022
- [c72]Van-Dai Pham, Victor Kisel, Ruslan Kirichek, Andrey Koucheryavy, Alexander Shestakov:
Evaluation of A Mesh Network based on LoRa Technology. ICACT 2022: 1280-1285 - [c71]Truong Duy Dinh, Vladimir M. Vishnevsky, Van-Dai Pham, Duc Tran Le
Determination of Subscribers Coordinates using Flying Network for Emergencies. ICACT 2022: 1309-1318 - [c70]Truong Duy Dinh
Blockchain-Driven Hybrid Model for IoT Authentication. NEW2AN 2022: 557-573 - [c69]Van-Dai Pham
LoRa Mesh Network for Image Transmission: An Experimental Study. NEW2AN 2022: 606-617 - 2021
- [j7]Ali R. Abdellah
Machine Learning Algorithm for Delay Prediction in IoT and Tactile Internet. Future Internet 13(12): 304 (2021) - [c68]Van-Dai Pham, Phuc Hao Do
LoRa Link Quality Estimation Based on Support Vector Machine. DCCN 2021: 92-102 - [c67]Albina Pomogalova
Identification Method for Endpoint Devices on Low-Power Wide-Area Networks Using Digital Object Architecture with Blockchain Technology Integration. DCCN 2021: 103-114 - [c66]Van-Dai Pham, Victor Kisel, Ruslan Kirichek, Andrey Koucheryavy, Alexander Shestakov:
Evaluation of A Mesh Network based on LoRa Technology. ICACT 2021: 1280-1285 - [c65]Truong Duy Dinh, Vladimir M. Vishnevsky
Determination of Subscribers Coordinates using Flying Network for Emergencies. ICACT 2021: 1309-1318 - [c64]Aleksandr Berezkin
Data compression methods based on Neural Networks. ICFNDS 2021: 511-515 - [c63]Dmitry Kukunin, Alexander Berezkin
Phasing in Asynchronous Data Transmission System using M-sequences. ICFNDS 2021: 516-521 - [c62]Ivan Tumanov, Ivan Vnukov, Evgenii Karelin, Alexey Slepnev, Danila Matveev, Ruslan Kirichek, Igor Kandakov:
Investigation of solutions to reduce latency in industrial IoT networks. ICFNDS 2021: 522-526 - [c61]Mona Mahmoud, Abdelhamied Ashraf Ateya, Ammar Muthanna, Adel Zaghloul, Ruslan Kirichek, Andrey Koucheryavy:
Distributed Edge Computing to Assist LPWAN: Fog-MEC Model. ICFNDS 2021: 587-594 - [c60]Ivan Luksha, Truong Duy Dinh, Evgenii Karelin, Ruslan Glushakov, Ruslan Kirichek:
Method for filtering encrypted traffic using a neural network between an Industrial Internet of things system and Digital Twin. ICFNDS 2021: 595-601 - [c59]Ivan Luksha, Van-Dai Pham, Alina Zadorozhnyaya, Igor Kandakov, Ruslan Kirichek:
Method for reducing traffic in backbone networks for non-critical IoT systems based on a predictive interaction mechanism. ICFNDS 2021: 602-605 - [c58]Alexey Slepnev, Danila Matveev, Evgenii Karelin, Ivan Tumanov, Ivan Vnukov, Ruslan Kirichek, Igor Kandakov:
Reducing network latency in industrial IoT systems using hardware-software complex based on injection. ICFNDS 2021: 812-815 - [c57]Duc Tran Le
A Combined Attack Scenario to Exploit the Join Procedure of LoRaWAN. ICUMT 2021: 188-193 - [c56]Phuc Hao Do
An Efficient Feature Extraction Method for Attack Classification in IoT Networks. ICUMT 2021: 194-199 - [c55]Vadim Bobrovsky, Anatoly Sartakov, Ruslan Kirichek, Van-Dai Pham, Leonid Semakov, Evgeny Zhuravel:
Improving the SNBWAN Efficiency based on the Improvement of Signal-Code Constructions. ICUMT 2021: 206-213 - [c54]Aleksey Slepnev, Evgenii Karelin, Ivan Luksha, Ruslan Kirichek, Alina Zadorozhnyaya, Eugene Makarov:
Virtualization of Control Systems in IoT using Neural Networks. ICUMT 2021: 236-240 - 2020
- [c53]Truong Duy Dinh, Vladimir M. Vishnevsky, Andrey A. Larionov, Anastasia Vybornova
Structures and Deployments of a Flying Network Using Tethered Multicopters for Emergencies. DCCN 2020: 28-38 - [c52]Viacheslav Kulik
Methods and Models for Using Heterogeneous Gateways in the Mesh LPWANs. DCCN 2020: 137-148 - [c51]Van-Dai Pham, Duc Tran Le
Research on Using the AODV Protocol for a LoRa Mesh Network. DCCN 2020: 149-160 - [c50]Sergey S. Vladimirov
The Model of WBAN Data Acquisition Network Based on UFP. DCCN 2020: 220-231 - [c49]Ruslan Kirichek, Truong Duy Dinh
Positioning Methods Based on Flying Network for Emergencies. ICACT 2020: 245-250 - [c48]Ruslan Kirichek, Vladimir M. Vishnevsky
Analytic Model of a Mesh Topology based on LoRa Technology. ICACT 2020: 251-255 - [c47]Maxim Zakharov
Real-time Molecular Analysis Methods Based on Cloud Computing. ICACT 2020: 620-623 - [c46]Nikita Shustov, Vasiliy Zelenov, Ruslan Kirichek:
Development of System for Measuring Internet Speed and Network Parameters on Fixed and Mobile Communication Networks Based on Recommendation ITU-T Q.3961 and Recommendation ITU-T Q.3056 Using Probes. ICFNDS 2020: 17:1-17:7 - [c45]Vladimir M. Vishnevsky, Andrey A. Larionov, Maxim Zvyagin, Truong Duy Dinh, Anton Ovchinnikov, Ruslan Kirichek:
Software development for controlling a group of UAVs. ICFNDS 2020: 21:1-21:6 - [c44]Vladimir Fomin, Igor Aleksandrov, Denis Gallyamov, Ruslan Kirichek:
Modified Indexing Algorithm based on Priority Queue in Metric Space for MVP Tree. ICFNDS 2020: 24:1-24:8 - [c43]Sergey S. Vladimirov
Network Coding for the Interaction of Unmanned Flying Platforms in Data Acquisition Networks. ICFNDS 2020: 28:1-28:7 - [c42]Yulia Avakyan, Ekaterina S. Kuznetsova, Ruslan Kirichek:
Methodology for testing LPWAN networks with mesh topology. ICFNDS 2020: 29:1-29:6 - [c41]Van-Dai Pham, Anton Ovchinnikov, Alina Zadorozhnaya, Ruslan Kirichek, Lyudmila Myrova:
A Hybrid Wireless Mesh Network for Sensor and Actuator Management in Smart Sustainable Cities. ICFNDS 2020: 30:1-30:4 - [c40]Ilya Grishin, Van-Dai Pham, Darina Okuneva, Ruslan Kirichek, Lyudmila Myrova:
Applying Multidimensional Scaling Method to Determine Spatial Coordinates of WSN Nodes. ICFNDS 2020: 39:1-39:5 - [c39]Mehdhar Al-gaashani
Intelligent System Architecture for Smart City and its Applications Based Edge Computing. ICUMT 2020: 269-274 - [c38]Ilya Grishin, Van-Dai Pham, Darina Okuneva, Ruslan Kirichek:
Search for Coordinates of WSN Nodes using Multidimensional Scaling Method. ICUMT 2020: 280-284 - [c37]Ilya Grishin, Vladimir M. Vishnevsky, Truong Duy Dinh, Anastasia Vybornova
Methods for correcting positions of tethered UAVs in adverse weather conditions. ICUMT 2020: 308-312 - [c36]Vladimir M. Vishnevsky
SDN-assisted Unmanned Aerial System for Monitoring Sensor Data. ICUMT 2020: 313-317 - [c35]Van-Dai Pham
Method of Constructing Node Map in Wireless Mesh Sensor Network. NEW2AN/ruSMART (2) 2020: 16-27 - [c34]Ekaterina S. Kuznetsova, Yulia Avakyan, Van-Dai Pham
Applying the Concept of Software-Defined Networking in Wireless Mesh Network. NEW2AN/ruSMART (2) 2020: 28-38 - [c33]Van-Dai Pham
Evaluation of Routing Protocols for Multi-hop Communication in LPWAN. NEW2AN/ruSMART 2020: 255-266
2010 – 2019
- 2019
- [j6]Abdelhamied A. Ateya
Energy- and Latency-Aware Hybrid Offloading Algorithm for UAVs. IEEE Access 7: 37587-37600 (2019) - [j5]Sergey S. Vladimirov
Unique Degradation of Flash Memory as an Identifier of ICT Device. IEEE Access 7: 107626-107634 (2019) - [j4]Rustam Pirmagomedov
UAV-based gateways for wireless nanosensor networks deployed over large areas. Comput. Commun. 146: 55-62 (2019) - [j3]Truong Duy Dinh
Unmanned aerial system-assisted wilderness search and rescue mission. Int. J. Distributed Sens. Networks 15(6) (2019) - [c32]Truong Duy Dinh
Flying Ad-Hoc Network for Emergency Based on IEEE 802.11p Multichannel MAC Protocol. DCCN 2019: 479-494 - [c31]Van-Dai Pham
Minimizing the IoT System Delay with the Edge Gateways. DCCN 2019: 495-507 - [c30]Dmitriy Sazonov, Ruslan Kirichek, Alexey Borodin:
Implementation of Authentication and Authorization System based on Digital Object Architecture. ICUMT 2019: 1-4 - [c29]Anastasia Yastrebova
Airborne-terrestrial integrated architecture for self-driving vehicles realization. ICUMT 2019: 1-6 - [c28]Maxim Zakharov
Signal Transmitting in Pheromone Networks. NEW2AN 2019: 534-539 - [c27]Mahmood Al-Bahri
Integrating Internet of Things with the Digital Object Architecture. NEW2AN 2019: 540-547 - [c26]Viacheslav Kulik
Industrial Internet of Things Classification and Analysis Performed on a Model Network. NEW2AN 2019: 548-561 - 2018
- [c25]Mahmood Al-Bahri
Combating Counterfeit for IoT System Based on DOA. ICUMT 2018: 1-5 - [c24]Viacheslav Kulik
The Heterogeneous Gateways in the Industrial Internet of Things. ICUMT 2018: 1-5 - [c23]Ammar Muthanna
Framework of QoS Management for Time Constraint Services with Requested Network Parameters based on SDN/NFV Infrastructure. ICUMT 2018: 1-6 - [c22]Van-Dai Pham
Method for Organizing Mesh Topology based on LoRa Technology. ICUMT 2018: 1-6 - [c21]Anastasia Yastrebova, Ruslan Kirichek, Yevgeni Koucheryavy
Future Networks 2030: Architecture & Requirements. ICUMT 2018: 1-8 - [c20]Mahmood Al-Bahri
Testbed for Identify IoT-Devices Based on Digital Object Architecture. NEW2AN 2018: 129-137 - [c19]Maria Makolkina
Transmission of Augmented Reality Contents Based on BLE 5.0 Mesh Network. NEW2AN 2018: 394-404 - [c18]Rustam Pirmagomedov
IoT Based Earthquake Prediction Technology. NEW2AN 2018: 535-546 - [c17]Maria Makolkina
Interaction of AR and IoT Applications on the Basis of Hierarchical Cloud Services. NEW2AN 2018: 547-559 - [c16]Rustam Pirmagomedov
Wireless Nanosensor Network with Flying Gateway. WWIC 2018: 258-268 - 2017
- [j2]Alexander Paramonov
Clustering Optimization for Out-of-Band D2D Communications. Wirel. Commun. Mob. Comput. 2017 (2017) - [c15]Ammar Muthanna
OpenFlow switch buffer configuration method. ICFNDS 2017: 23:1-23:5 - [c14]Trung Hoang, Ruslan Kirichek, Alexander Paramonov
Adaptive routing in wireless sensor networks under electromagnetic interference. ICOIN 2017: 76-79 - [c13]Sergey S. Vladimirov
The IoT Identification Procedure Based on the Degraded Flash Memory Sector. NEW2AN 2017: 66-74 - [c12]Rustam Pirmagomedov
Dynamic Data Packaging Protocol for Real-Time Medical Applications of Nanonetworks. NEW2AN 2017: 196-205 - [c11]Ruslan Kirichek, Van-Dai Pham
Transfer of Multimedia Data via LoRa. NEW2AN 2017: 708-720 - [c10]Samuel Muhizi, Gregory Shamshin, Ammar Muthanna
Analysis and Performance Evaluation of SDN Queue Model. WWIC 2017: 26-37 - [c9]Artem Volkov
Interaction of the IoT Traffic Generated by a Smart City Segment with SDN Core Network. WWIC 2017: 115-126 - [c8]Maria Makolkina
Research of Interaction Between Applications of Augmented Reality and Control Methods of UAVs. WWIC 2017: 186-193 - 2016
- [j1]Ruslan Kirichek, Alexander Paramonov
Implementation of the Communication Network for the Multi-Agent Robotic Systems. Int. J. Embed. Real Time Commun. Syst. 7(1): 48-63 (2016) - [c7]Ruslan Kirichek:
The Model Of Data Delivery From The Wireless Body Area Network To The Cloud Server With The Use Of Unmanned Aerial Vehicles. ECMS 2016: 603-606 - [c6]Rustam Pirmagomedov
Analysis of delays in medical applications of nanonetworks. ICUMT 2016: 49-55 - [c5]Trung Hoang, Ruslan Kirichek, Alexander Paramonov
Supernodes-Based Solution for Terrestrial Segment of Flying Ubiquitous Sensor Network Under Intentional Electromagnetic Interference. NEW2AN 2016: 351-359 - [c4]Pavel Shilin, Ruslan Kirichek, Alexander Paramonov
Connectivity of VANET Segments Using UAVs. NEW2AN 2016: 492-500 - [c3]Andrei Vladyko
Comprehensive SDN Testing Based on Model Network. NEW2AN 2016: 539-549 - 2015
- [c2]Andrey Koucheryavy
State of the Art and Research Challenges for Public Flying Ubiquitous Sensor Networks. NEW2AN 2015: 299-308 - [c1]Ruslan Kirichek
Optimization of the UAV-P's Motion Trajectory in Public Flying Ubiquitous Sensor Networks (FUSN-P). NEW2AN 2015: 352-366
Coauthor Index
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last updated on 2024-08-05 21:13 CEST by the dblp team
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