The Distributed Artificial Intelligence (DAI) research group conducts research and innovation activities in explainable and distributed AI, multimodal AI perception, and cognitive cloud. The group has a long track record of participation in EU R&D projects, Catalan and Spanish-funded research and innovation projects, and bilateral collaborations with private industry and the public sector. The research group develops and continuously updates a research roadmap to steer its activities and identify new fields to explore. One of the key added values of the DAI research group is its mission to boost the overall capabilities of i2CAT in AI, fostering synergies with the centre’s other research groups.
The “Trustworthy AI” research line focuses on developing AI systems that are reliable, ethical, and sustainable. This includes Human-Centric AI, emphasizing Explainable AI and responsible Generative AI . We also explore Decentralized AI for secure and scalable distributed systems. Furthermore, we delve into Quantum AI, investigating how quantum computing can enable high-dimensional and efficient AI algorithms.
In this research line we focus on complementing our AI technologies with cutting edge research on Distributed Data Architectures and optimizations. We specifically work on novel AI-centric data efficiency and privacy optimizations, such as data anonymization, aggregation and compression. We also delve into AI-based data optimizations, particularly for distributed data lake and edge-cloud management systems.
Group leader
Miguel Angel Veganzones
Areas
Distributed AI
M. Groshev, L. Zanzi, C. Delgado, X. Li, A. d. l. Oliva and X. Costa-Pérez, “Energy-Aware Joint Orchestration of 5G and Robots: Experimental Testbed and Field Validation,” in IEEE Transactions on Network and Service Management, vol. 22, no. 4, pp. 3046-3059, Aug. 2025, doi: 10.1109/TNSM.2025.3555126. keywords: {Robots;Robot kinematics;5G mobile communication;Robot sensing systems;Sensors;Resource management;Real-time systems;Energy consumption;Testing;Peer-to-peer computing;5G;orchestration;robotics;optimization;offloading;energy efficient},
Nikolaos Apostolakis, Marta Sierra-Obea, Marco Gramaglia, Jose A. Ayala-Romero, Andres Garcia-Saavedra, Marco Fiore, Albert Banchs, and Xavier Costa-Perez. 2025. Quantum Computing in the RAN with Qu4Fec: Closing Gaps Towards Quantum-based FEC processors. Proc. ACM Meas. Anal. Comput. Syst. 9, 2, Article 36 (June 2025), 25 pages. https://doi.org/10.1145/3727128
J. M. Canals, F. Devoti, V. Sciancalepore, M. D. Renzo and X. Costa-Pérez, “Curved Apertures for Customized Wave Trajectories: Beyond Flat Aperture Limitations,” in IEEE Wireless Communications Letters (2025).
May 10, 2023
March 3, 2023
June 13, 2022
February 28, 2022
December 5, 2018
