- January 2020 – Now
Departamento de Teoría do Sinal e Comunicacións, Universidade de Vigo
Investigador Distinguido Beatriz Galindo
- November 2016-November 2019
Dipartimento D’Ingegneria dell’Informazione, Universitá degli Studi di Padova
Marie Skłodowska-Curie Fellow
WINDASH: Wireless with Increased Network Density, Antennas, Spectrum and Heterogeneity is a MSCA-IF-GF project that aims at designing wireless communications and network architectures that maximize the benefits of increased resources and develop resource allocation schemes to optimize performance wireless systems with high Density, Antenna array dimensions, Spectrum resources and Heterogeneity (D.A.S.H. wireless systems).
- November 2016-November 2018
Department of Electrical Engineering, Stanford University
Postdoctoral Researcher
- April 2013-September 2016
Grupo de Tecnologías de Información, Universidad de Vigo
FPU Grant Researcher
PHD thesis focused on Network Information Theory, Cooperative Diversity, Distributed Multi-antenna Transmissions, Space-Time Coding, Network Coding, MAC Protocols, Cognitive Radio and Spectrum Leasing.
- September 2013-March 2014
Department of Electric and Computer Engineering,
Polytechnic Institute of New York UniversityVisiting J-1 Short Term Scholar
Research on mmWave cellular systems, relaying, information-theoretic scaling laws of wireless networks and optimization of cellular duplexing systems.
- April 2011-March 2013
Gradiant
Researcher
MEFISTO project for Smart Grid communication solutions. Cognitive radio networks applied to Machine to Machine communications. Research in Wireless Networks and Information Theory.
- September 2010-March 2011
Grupo de Tecnologías de Información, Universidad de Vigo
Researcher
Research in cooperative diversity for wireless networks, MAC protocols, and cognitive radio based on cooperative transmissions
- 2009-2010
Xatcobeo, Universidad de Vigo
Telecommunication Engineering degree Final Project
DESIGN OF ACCEPTATION AND PERFORMANCE TESTS FOR THE TRACKING TELEMETRY AND COMMAND ENGINEERING MODEL OF THE XATCOBEO PICOSATELLITE