Creation of Laboratory for Advanced Research in 5G Internet of Things wireless networks
Used 18 pieces of equipment
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.
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 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 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.
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.
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.
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.
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.
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.
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..
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.
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.
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.
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.
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.