Semantic communications in networked systems: a data significance perspective
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Date
2022-07-01Author
Uysal, ElifKaya, Onur
Ephremides, Anthony
Gross, James
Codreanu, Marian
Popovski, Petar
Assaad, Mohamad
Liva, Gianluigi
Munari, Andrea
Soleymani, Touraj
Soret, Beatriz
Johansson, Karl Henrik
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Uysal, E., Kaya, O., Ephremides, A., Gross, J., Codreanu, M., Popovski, P., Assaad, M., Liva, G., Munari, A., Soleymani, T., Soret, B. & Johansson, K. H. (2022). Semantic Communications in Networked Systems: A Data Significance Perspective, IEEE Network, 36(4), 233-240. doi:10.1109/MNET.106.2100636Abstract
We present our vision for a departure from the established way of architecting and assessing communication networks, by incorporating the semantics of information for communications and control in networked systems. We define semantics of information, not as the meaning of the messages, but as their significance, possibly within a real time constraint, relative to the purpose of the data exchange. We argue that research efforts must focus on laying the theoretical foundations of a redesign of the entire process of information generation, transmission and usage in unison by developing: advanced semantic metrics for communications and control systems; an optimal sampling theory combining signal sparsity and semantics, for real-time prediction, reconstruction and control under communication constraints and delays; semantic compressed sensing techniques for decision making and inference directly in the compressed domain; semantic-aware data generation, channel coding, feedback, multiple and random access schemes that reduce the volume of data and the energy consumption, increasing the number of supportable devices. This paradigm shift targets jointly optimal information gathering, information dissemination, and decision making policies in networked systems.