Main topics

[1]	High capacity cellular systems
	Wireless mobile systems, usually referred as fifth and sixth generation (5G/6G) are characterized by innovative techniques for increasing the available capacity: multiple antennas, smart resource management, heterogeneous networks, cooperation among base stations, innovative radio access networks, self-organization capabilities, multiple performance requirements (capacity, latency, connectivity, reliability). Among the several subjects, we mention the following ones.
	a Design of physical and access layer system elements in next generation mobile systems. b Multi-layer wireless systems: space, time, frequency. c Transport networks. Back-hauling and front-hauling. d Models for interference and capacity. e Algorithms for resource management, with emphasis on energy efficiency and latency for IoT technologies. e Non terrestrial networks, with emphasis on UAVs applications. g Full Duplex Radio h Public Safety Networks
[2]	Wireless sensor networks
	Wireless sensor networks (WSN) are characterized by sets of radio devices with capabilities of auto-organization, data gathering and short range transmission. In these networks, one of the crucial issues is the optimization of the energy consumption, as the sensor life usually coincides with the battery life. In this context, the theses are focused on the localization application and integration with 5G use cases.
	a Low latency localization. b Low energy localization. c Networks for indoor access management. d Models for the context awareness. e Applications to space encoding
[3]	Digital transmission
	In this area we study systems for reduced complexity or fast channel and/or code detection, particularly in presence of noise with different characteristics w.r.t standard AWGN.