Smart Communications
Smart communication is a gateway to the organization's knowledge. Its strategic management generates human value.
These are the services that our research groups can develop. For customized information on the services, please contact us.
Areas of service | Applications of the service | Scientific infrastructure |
Monitoring and management of core, edge and access networks | Design of the application of monitoring and management. Analysis of protocols and algorithms. | |
Control and dynamic management of connectivity services in optical data centre networks and metro/core networks | ||
Maintenance of the end-to-end quality of 5G services, 6G in optical data centre networks and metro networks | ||
Time-sensitive networks. | Prototypes for data transmission on an Ethernet network with guarantees of delivery with limited delay and very high reliability, which includes coexistence with non-synchronous traffic. | BAMPLA Laboratory |
Network for synchronous and deterministic control of machinery in plants (e.g. robots) and deterministic transport of alarms in plants. | BAMPLA Laboratory | |
Machine learning | Research of machine learning tools for planning of optoelectronic networks and devices. | |
Development of machine learning tools for optical networks and optoelectronic devices | ||
Data transfer in aerial vehicles | LTE and 5G communications for control applications and air-land data transfer for unmanned aerial systems. | DRONELAB |
Smart communication services integrated into the cloud to facilitate aerial vehicle networks. | DRONELAB | |
Integration of static IoT and IoT systems onboard aerial vehicles | DRONELAB | |
5G terrestrial networks and through the use of drones Drones as a RRU or BBU 5G/6G, interoperability with terrestrial stations, applications in special environments (congestion, construction, large industrial warehouses, catastrophes) | WiComTec Laboratory | |
AI techniques applied to cellular networks | Optimisation of deployment, monitoring, control and management of 5G/6G network resources | WiComTec Laboratory |
Planning of LTE and LTE-A applications | Energy efficiency in the mobile network for industry 4.0, mobility and cooperative networks | WiComTec Laboratory |
IoT devices | Test banks to test any IoT device to determine its features. Characterisation and test banks. Comparison | WiComTec Laboratory |
Design of massive IoT applications (for agriculture, transport, factories, etc.) | WiComTec Laboratory | |
For agriculture, transport, factories, races, mountain sports, health | WiComTec Laboratory | |
Wireless communication systems | Low energy consumption and low cost wireless communication systems. CMOS integration of communications receivers and transceivers Advanced signal modulation techniques (spread spectrum, ultra-wideband, OFDM). | |
Design of techniques and algorithms to improve wireless networks, with and without infrastructure. Ad hoc networks, mesh networks, vehicular networks. | ||
Artificial intelligence to improve communication networks. Application examples: vehicular networks, mesh networks, ad hoc networks. | ||
Specific training, practical workshops, demonstration units and prototyping of communications solutions: IoT, wireless networks (BLE, Wifi, 3GPP), IP protocol architecture, IoT platforms | ||
Satellite communications systems for IoT (coverage in remote areas with IoT devices) | ||
Optimisation of cellular systems and adaptation of protocol architectures for customised systems. 5G | ||
Discovery of mobile IoT systems based on training of movement patterns | Advanced Network Architectures Lab | |
Creation and management of satellite communication systems for IoT, very low-energy consumption wireless networks (LPWAN), geolocation and industrial monitoring systems | ||
Systems engineering and system integration. | Embedded systems. Low-consumption processing techniques and programmable devices. Sensor networks. Internet of things (IoT). Wearable systems for monitoring human activity. E-health monitoring systems. Monitoring of human gait. Smart sensors for industry 4.0. Drone technology. | |
Antennas | Design, construction and measurement of antennas | Antennalab - Anechoic chamber |
Electromagnetic measurements of materials and devices | Antennalab - Anechoic chamber | |
Routing protocols | Design of routing protocols to ensure the quality of service required to support smart services. | |
Services for smart communities | Efficient management of electric vehicles, smart grid, health sector, smart mobility. | |
Wake-up radio systems | Low energy systems that can wake up radios of higher consumption to achieve low energy devices. | |
AI-based techniques for detecting objects and sounds | System to detect obstacles at crossings and generate alarms, speech recognition systems and actuation of IoT systems | |
Indoor location systems | Automatic guidance of vehicles, asset location | |
Adaptation of communication protocols in different environments | Homogeneity of communications systems and compatibility of standards in fixed and wireless cellular networks | |
Optimisation of cloud edge systems | AI-based solutions to optimise clustering of cloud edge systems to minimise the energy consumed and increase computing power | Advanced Network Architectures Lab |
Yang model, NetConf, RestConf, gNMI, network programming, OPC, DCOM, time-sensitive networking, industry 4.0, in-plant industrial communications, optical networks, metro-core networks, 5G, 6G, optoelectronic devices, photonics, LTE, 5G, air-land data transfer, smart communication integrated into the cloud, IoT systems for aerial vehicles, drones, dronelab, wireless communications, cellular mobile networks, 5G, 6G, IoT, artificial intelligence, communication networks with drones, CAD techniques, analysis and design of electronic circuits, switched circuits, variant circuits, stability and bifurcation of circuits, wireless communication systems, low energy consumption, CMO, spread spectrum, ultra-wideband, OFDM, integration systems, wearables, e-health monitoring, antennas, electromagnetic measurement, anechoic chamber, wireless networks, ad hoc networks, mesh networks, vehicular networks, router protocols, smart communication management, router protocols, service quality, wake-up radio systems, low-consumption devices, satellite communications, detection of objects and sounds, artificial intelligence, cellular networks, fixed networks, wireless networks, cellular systems, adaptation of protocol architectures for customised systems, communications in remote areas, IoT devices, cybersecurity, data management, predictive maintenance, mobile IoT systems, patterns of movement, optimisation clustering, cloud-edge, low consumption, IoT, LPWAN, satellite, communications, sensors, networks, monitoring, marine, underwater, instrumentation, data acquisition, data processing, marine observation.
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