Raúl Parada

Ico_CTTC
Raúl Parada | CTTC

Sustainable Artificial Intelligence (SAI)

Phd , Researcher

Phone: +34 93 645 29 00

Raul Parada Medina received the bachelor’s degree in Telecommunication Engineering (networking speciality) at Escola d’Enginyeria de Telecomunicació i Aeroespacial de Castelldefels (EETAC) from the Universitat Politècnica de Catalunya (UPC) in 2008. He performed the diploma thesis, simulating spanning tree protocols on OPNET, at Technische Universität Wien between 2007 and 2008. He received the M. Sc. degree in Telecommunications at Danmarks Tekniske Universitet (DTU) in 2012 with master thesis about MBMS scheduling in LTE. He received the Ph.D. degree in information and communications technologies at Universitat Pompeu Fabra (UPF) in 2016 with doctoral thesis about RFID and AI. He finished, in Italy, a two-year post-doctoral fellowship at Università degli Studi di Padova (UNIPD) in 2018 about mm-wave 5G/WSN applying AI.

He supervised more than 40 TFG/TFM projects since 2012 and 2015, respectively. He supervises projects in communication systems and data science. He taught Radiocommunications and Principles of Telecommunication at UPF and currently, Communication Electronics at Universitat Oberta de Catalunya (UOC). He earned the lecturer accreditation by AQU in 2017.

He started at the industry in 2008 gathering experience on problem-solving technological issues, WiMAX and satellite communication, solid-state electronics, industry 4.0 system development and vehicular to everything communication (connected car). He is the technological director of the social project ParkinSons, winner of the OpenEhealth Parkinson Challenge 2017.

He joined CTTC in July 2020 and he is currently Researcher. At CTTC, he participates in industrial projects and in projects funded by the European Commission, Spanish and Catalan Governments. He has been reviewer of international conferences and journals. His current research interests include RFID, 5G, wireless sensor networks and mmWave communications. Moreover, he has interest in long-range communications and, machine and deep learning.

Google Scholar: https://scholar.google.es/citations?user=4EZ5RMoAAAAJ&hl=es&oi=sra

ORCID ID: http://orcid.org/0000-0002-1899-5881

An Approach for Social-Distance Preserving Location-Aware Recommender Systems: A Use Case in a Hospital Environment
Lecture Notes in Computer Science. Vol. 14910 LNCS. pp. 267-273 January 2024.
Caballero M., Rodríguez-Hernández M.D.C., Parada R., Ilarri S., Trillo-Lado R., Hermoso R., Rubio Ó.J.
10.1007/978-3-031-68309-1_23 Google Scholar
Spiking neural networks for autonomous driving: A review
ENGINEERING APPLICATIONS OF ARTIFICIAL INTELLIGENCE. Vol. 138. January 2024.
Martínez, FS, Casas-Roma, J, Subirats, L, Parada, R
10.1016/j.engappai.2024.109415 Google Scholar
Leveraging Urban Water Distribution Systems with Smart Sensors for Sustainable Cities
SENSORS. Vol. 24. No. 22. January 2024.
Baigorri, AG, Parada, R, Baeza, VM, Monzo, C
10.3390/s24227223 Google Scholar
LoRa-Based Low-Cost Nanosatellite for Emerging Communication Networks in Complex Scenarios
Aerospace. Vol. 10. No. 9. September 2023.
Parada R., Monzon Baeza V., Barraca-Ibort D.N., Monzo C.
10.3390/aerospace10090754 Google Scholar
CO2 impact on convolutional network model training for autonomous driving through behavioral cloning
ADVANCED ENGINEERING INFORMATICS. Vol. 56. April 2023.
Martínez F.S., Parada R., Casas-Roma J.
10.1016/j.aei.2023.101968 Google Scholar
Guidelines for Renewal and Securitization of a Critical Infrastructure Based on IoT Networks
Smart Cities. Vol. 6. No. 2. pp. 728-743 April 2023.
Villar Miguelez C., Monzon Baeza V., Parada R., Monzo C.
10.3390/smartcities6020035 Google Scholar
A DL-based estimation probability approach for VRU collision avoidance
2023 Ieee Conference On Artificial Intelligence, Cai. pp. 23-25 January 2023.
Parada, R, Corvillo, R, Dini, P
10.1109/CAI54212.2023.00018 Google Scholar
An Inter-operable and Multi-protocol V2X Collision Avoidance Service based on Edge Computing
IEEE Vehicular Technology Conference Proceedings. Vol. 2022-June. January 2022.
Parada R., Vazquez-Gallego F., Sedar R., Vilalta R.
10.1109/VTC2022-Spring54318.2022.9860970 Google Scholar
Global Emergency System Based on WPAN and LPWAN Hybrid Networks
SENSORS. Vol. 22. No. 20. January 2022.
Perez, E, Parada, R, Monzo, C
10.3390/s22207921 Google Scholar
Evaluation of AI-based Smart-Sensor Deployment at the Extreme Edge of a Software-Defined Network
2022 Ieee Conference On Network Function Virtualization And Software Defined Networks, Nfv-Sdn 2022 - Proceedings. pp. 1-5 January 2022.
Aguilar-Rivera, A, Vilalta, R, Parada, R, Perez, FM, Vazquez-Gallego, F
10.1109/NFV-SDN56302.2022.9974729 Google Scholar
5GMED Architecture for Advanced Automotive and Railway Communication Services in Cross-Border Scenarios
Proceedings - 2022 Ieee Future Networks World Forum, Fnwf 2022. pp. 36-42 January 2022.
Nasreddine J., Carmona-Cejudo E., Vilalta R., Parada R., Veyssiere P., Antonopoulos A., Luque J.L., Bastida J., Gonzalez R., Triantafyllou G.N., Quijada N.T., Hospital J.G., Garbiso J., Vazquez-Gallego F.
10.1109/FNWF55208.2022.00015 Google Scholar
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