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2. Aguiar, M., Dosi, G., Knopoff, D.A., Virgillito, M.A.: A multiscale network-based model of contagion dynamics: heterogeneity, spatial distancing and vaccination. Math. Models Methods Appl. Sci. 31(1), 2425–2454 (2021). Open Access: https://doi.org/10.1142/S0218202521500524

3. Albi, G., Bertaglia, G., Boscheri, W., Dimarco, G., Pareschi, L., Toscani, G., Zanella, M.: Kinetic modelling of epidemic dynamics: social contacts, control with uncertain data, and multiscale spatial dynamics. Chapter 3 in Predicting Pandemics in a Globally Connected World, vol. 1, pp. 43–108. Modeling and Simulation in Science, Engineering, and Technology. Birkhäuser, New York (2022)

4. Allred, S., Chyba, M., Hyman, J.M., Mileyko, Y., Piccoli, B.: COVID-19 pandemic evolution in Hawai’i and New Jersey: a lesson on infection transmissibility and the role of human behavior. Chapter 4 in Predicting Pandemics in a Globally Connected World, vol. 1, pp. 109–140. Modeling and Simulation in Science, Engineering, and Technology. Birkhäuser, New York (2022)

5. Alrawasa, A., Albeshra, R., Al Zoubib, N., Quzlib, R., Almazroueib, S., Abuzarqab, R., Tridanec, A.: How vaccination helps to relax the population mobility: an agent-based model approach. Chapter 9 in Predicting Pandemics in a Globally Connected World, vol. 2. Modeling and Simulation in Science, Engineering, and Technology. Birkhäuser, New York (2023)