Research Center for Wireless 5G Networks Simulation
Head:
Ph.D. in Engineering Science, Ph.D. (Doctor of Technology) from Tampere University of Technology, Finland Director of the Research Center of 5G Wireless Networks Simulation at the Institute of Applied Mathematics and Telecommunications
Structural unit: Applied Mathematics & Communications Technology Institute.
The Center aims to:
- solve practical problems in the development of the scientific foundations and a set of stohastic models for evaluating the effectiveness and reliability of device interaction in the Internet of Things wireless networks;
- develop a set of mathematical theories of teletraffic models for researching control diagrams for managing resource access to the next generation wireless networks.
Main scientific directions
- Creation of information technology (IT solutions) in the form of mathematical models for radio resource control mechanisms of fifth-generation wireless heterogeneous networks (5G) that support direct interaction with D2D devices, the Internet of Things (IoT) and the Internet of Reliable Things (IoRT), methods of analysis for models, and calculating stochastic and time response characteristics such as connection reliability, connection availability, etc.
- Study of model classes of motion that consider interaction features of moving devices in 5G wireless networks, the creation of fundamentally new analytical and simulation models, and computational methods for implementing information technology.
- Development of new queuing system models with a random number of non-uniform sources of limited availability and having limited resources for data processing. New characteristics will be studied and introduced such as availability and reliability of connection, sensitivity of the considered characteristics to the initial parameters of the studied models.
Achievements
project design of wireless mechanisms and machines involved in industrial production or in the provision of services;
equipment design for organizing traffic with autopilot functions in cars;
equipment design to ensure and organize logistic supplies.
Used equipment See all
Demonstrator of 5G unmanned aerial vehicle
• Study of traffic classes related to the interaction of moving devices in 5G wireless networks.
• Study of queuing systems with a random number of non-homogeneous sources of limited availability and limited resources for data processing.
• Automated processing of experimental data.
• Management of radio resources of 5G wireless networks with support of Internet Things technologies.
Server based on Intel Xeon processor (4 pieces), 8 cores per processor, 512 GB RAM
• Study of traffic classes related to the interaction of moving devices in 5G wireless networks.
• Study of queuing systems with a random number of non-homogeneous sources of limited availability and limited resources for data processing.
• Automated processing of experimental data.
• Management of radio resources of 5G wireless networks with support of Internet Things technologies.
Touch Sensitive Actuator for 5G Tactile Internet demonstrator
• Study of traffic classes related to the interaction of moving devices in 5G wireless networks.
• Study of queuing systems with a random number of non-homogeneous sources of limited availability and limited resources for data processing.
• Automated processing of experimental data.
• Management of radio resources of 5G wireless networks with support of Internet Things technologies.
Network adapter for 5G Tactile Internet demonstrator
• Study of traffic classes related to the interaction of moving devices in 5G wireless networks.
• Study of queuing systems with a random number of non-homogeneous sources of limited availability and limited resources for data processing.
• Automated processing of experimental data.
• Management of radio resources of 5G wireless networks with support of Internet Things technologies.
Switching circuits for 5G Tactile Internet demonstrator
• Study of traffic classes related to the interaction of moving devices in 5G wireless networks.
• Study of queuing systems with a random number of non-homogeneous sources of limited availability and limited resources for data processing.
• Automated processing of experimental data.
• Management of radio resources of 5G wireless networks with support of Internet Things technologies.
Touch Sensitive Sensor for 5G Tactile Internet demonstrator
• Study of traffic classes related to the interaction of moving devices in 5G wireless networks.
• Study of queuing systems with a random number of non-homogeneous sources of limited availability and limited resources for data processing.
• Automated processing of experimental data.
• Management of radio resources of 5G wireless networks with support of Internet Things technologies.
Robotic arm for 5G Tactile Internet demonstrator
• Study of traffic classes related to the interaction of moving devices in 5G wireless networks.
• Study of queuing systems with a random number of non-homogeneous sources of limited availability and limited resources for data processing.
• Automated processing of experimental data.
• Management of radio resources of 5G wireless networks with support of Internet Things technologies.
Gloves for scanning hand motions for 5G Tactile Internet demonstrator
• Study of traffic classes related to the interaction of moving devices in 5G wireless networks.
• Study of queuing systems with a random number of non-homogeneous sources of limited availability and limited resources for data processing.
• Automated processing of experimental data.
• Management of radio resources of 5G wireless networks with support of Internet Things technologies.
Switching circuits for 5G millimeter range demonstrator
• Study of traffic classes related to the interaction of moving devices in 5G wireless networks.
• Study of queuing systems with a random number of non-homogeneous sources of limited availability and limited resources for data processing; .
• Automated processing of experimental data..
• Management of radio resources of 5G wireless networks with support of Internet Things technologies..
Access points (hotspots) for 5G millimeter range demonstrator
• Study of traffic classes related to the interaction of moving devices in 5G wireless networks.
• Study of queuing systems with a random number of non-homogeneous sources of limited availability and limited resources for data processing.
• Automated processing of experimental data.
• Management of radio resources of 5G wireless networks with support of Internet Things technologies.
SIM card programming devices
• Study of traffic classes related to the interaction of moving devices in 5G wireless networks.
• Study of queuing systems with a random number of non-homogeneous sources of limited availability and limited resources for data processing.
• Automated processing of experimental data.
• Management of radio resources of 5G wireless networks with support of Internet Things technologies.
Modems for test stations
• Study of traffic classes related to the interaction of moving devices in 5G wireless networks.
• Study of queuing systems with a random number of non-homogeneous sources of limited availability and limited resources for data processing.
• Automated processing of experimental data.
• Management of radio resources of 5G wireless networks with support of Internet Things technologies.
Test stations for modeling high network loading
• Study of traffic classes related to the interaction of moving devices in 5G wireless networks.
• Study of queuing systems with a random number of non-homogeneous sources of limited availability and limited resources for data processing.
• Automated processing of experimental data.
• Management of radio resources of 5G wireless networks with support of Internet Things technologies.
Antennas for LTE network equipment
• Study of traffic classes related to the interaction of moving devices in 5G wireless networks.
• Study of queuing systems with a random number of non-homogeneous sources of limited availability and limited resources for data processing.
• Automated processing of experimental data.
• Management of radio resources of 5G wireless networks with support of Internet Things technologies.
LTE Network Analyzers
• Study of traffic classes related to the interaction of moving devices in 5G wireless networks.
• Study of queuing systems with a random number of non-homogeneous sources of limited availability and limited resources for data processing.
• Automated processing of experimental data.
• Management of radio resources of 5G wireless networks with support of Internet Things technologies.
LTE network routers
• Study of traffic classes related to the interaction of moving devices in 5G wireless networks.
• Study of queuing systems with a random number of non-homogeneous sources of limited availability and limited resources for data processing.
• Automated processing of experimental data.
• Management of radio resources of 5G wireless networks with support of Internet Things technologies.
LTE Radio access network
• Study of traffic classes related to the interaction of moving devices in 5G wireless networks.
• Study of queuing systems with a random number of non-homogeneous sources of limited availability and limited resources for data processing.
• Automated processing of experimental data.
• Management of radio resources of 5G wireless networks with support of Internet Things technologies.
LTE network base stations
• Study of traffic classes related to the interaction of moving devices in 5G wireless networks.
• Study of queuing systems with a random number of non-homogeneous sources of limited availability and limited resources for data processing.
• Automated processing of experimental data.
• Management of radio resources of 5G wireless networks with support of Internet Things technologies.
Partners
City
Tampere, Finland
Subject of cooperation:
Development of mechanisms for managing radio resources in the 5G wireless heterogeneous networks that support direct interaction of D2D devices, Internet of Things (IoT) and Internet of Reliable Things (IoRT) together with YL-Verkot Oy’s representatives.
Result of cooperation:
implementation of complex mathematical models for managing radio resources of 5G wireless heterogeneous networks that support direct interaction of D2D devices, Internet of Things (IoT) and Internet of Reliable Things (IoRT).
About partner:
Start of collaboration: November 2016
YL-Verkot Oy focuses on research in 5G telecommunication networks. The main research topics include wireless data transmission systems, heterogeneous communication systems, cooperative data transmission, stand-alone cellular applications.