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ITU Journal on Future and Evolving Technologies, Volume 2 (2021), Issue 6
[77] N. Chi, Y. Zhou, Y. Wei, and F. Hu, “Visible Light [90] T . Werthmann, H. Grob‐Lipski, S. Scholz, and B.
Communication in 6G: Advances, Challenges, and Haberland, “Task assignment strategies for pools
Prospects,” IEEE Vehicular Technology Magazine, of baseband computation units in 4G cellular net‐
vol. 15, no. 4, pp. 93–102, 2020. DOI: 10.1109/ works,” in 2015 IEEE International Conference
MVT.2020.3017153. on Communication Workshop (ICCW), Jun. 2015,
pp. 2714–2720. DOI: 10 . 1109 / ICCW . 2015 .
[78] C. E. Shannon, “A mathematical theory of commu‐
nication,” The Bell system technical journal, vol. 27, 7247589.
no. 3, pp. 379–423, 1948. [91] M. Bennis, M. Debbah, and H. V . Poor, “Ultra‐
[79] E. Calvanese Strinati and S. Barbarossa, “6G in the reliable and Low‐Latency Wireless Communica‐
sky: On‐demand intelligence at the edge of 3D tion: Tail, Risk, and Scale,” Proceedings of the IEEE,
networks,” Computer Networks Journal, 2022. vol. 106, no. 10, pp. 1834–1853, 2018.
[92] X. Jiang, H. Shokri‐Ghadikolaei, G. Fodor, E. Modi‐
[80] E. Basar, M. Di Renzo, J. De Rosny, M. Debbah, M.‐S.
Alouini, and R. Zhang, “Wireless communications ano, Z. Pang, M. Zorzi, and C. Fischione, “Low‐
through recon igurable intelligent surfaces,” IEEE Latency Networking: Where Latency Lurks and
Access, vol. 7, pp. 116 753–116 773, 2019. How to Tame It,” Proceedings of the IEEE, vol. 107,
no. 2, pp. 280–306, 2019.
[81] S. V. Hum and J. Perruisseau‐Carrier, Recon ig‑
urable re lectarrays and array lenses for dynamic [93] F . Granelli and R. Bassoli, “Autonomic mobile vir‐
antenna beam control: A review, 2013. arXiv: tual network operators for future generation net‐
1308.4593 [physics.optics]. works,” IEEE Network, vol. 32, no. 5, pp. 76–84,
2018. DOI: 10.1109/MNET.2018.1700455.
[82] L. Di Palma, A. Clemente, L. Dussopt, R. Sauleau, P.
Potier, and P. Pouliguen, “Circularly‐polarized re‐ [94] K. Chen, T . Zhang, R. D. Gitlin, and G. Fettweis,
con igurable transmitarray in ka‐band with beam “Ultra‐low latency mobile networking,” IEEE Net‑
scanning and polarization switching capabilities,” work, vol. 33, no. 2, pp. 181–187, 2019. DOI: 10.
IEEE Transactions on Antennas and Propagation, 1109/MNET.2018.1800011.
vol. 65, no. 2, pp. 529–540, 2016. [95] P . Seeling and F . H. P . Fitzek, “Anticipatory Net‐
[83] J. R. Reis, M. Vala, and R. F. Caldeirinha, “Review working: Negative Latency for Ubiquitous Com‐
paper on transmitarray antennas,” IEEE Access, puting,” in 2021 IEEE 18th Annual Consumer
vol. 7, pp. 94 171–94 188, 2019. Communications Networking Conference (CCNC),
2021, pp. 1–4. DOI: 10.1109/CCNC49032.2021.
[84] B. Atorf, H. Mühlenbernd, T. Zentgraf, and H. 9369624.
Kitzerow, “All‐optical switching of a dye‐doped
liquid crystal plasmonic metasurface,” Optics Ex‑ [96] N. Bui, M. Cesana, S. A. Hosseini, Q. Liao, I. Malan‐
press, vol. 28, no. 6, pp. 8898–8908, 2020. chini, and J. Widmer, “A Survey of Anticipa‐
tory Mobile Networking: Context‐Based Classi i‐
[85] M. R. Hashemi, S. Cakmakyapan, and M. Jar‐ cation, Prediction Methodologies, and Optimiza‐
rahi, “Recon igurable metamaterials for tera‐ tion Techniques,” IEEE Communications Surveys &
hertz wave manipulation,” Reports on Progress in Tutorials, vol. 19, no. 3, pp. 1790–1821, 2017. DOI:
Physics, vol. 80, no. 9, p. 094 501, 2017.
10.1109/COMST.2017.2694140.
[86] K. David and H. Berndt, “6G Vision and Require‐ [97] Z. Xiang, F . Gabriel, E. U. Pérez, G. T . Nguyen, M.
ments: Is There Any Need for Beyond 5G?” IEEE Reisslein, and F . H. P . Fitzek, “Reducing latency
Vehicular Technology Magazine, vol. 13, no. 3, in virtual machines: Enabling Tactile Internet for
pp. 72–80, 2018. DOI: 10 . 1109 / MVT . 2018 . human–machine co‐working,” IEEE Journal on Se‑
2848498.
lected Areas in Communications, vol. 37, no. 5,
[87] F. H. P. Fitzek and P. Seeling, Why We Should NOT pp. 1098–1116, May 2019.
Talk about 6G, 2020. arXiv: 2003.02079 [cs.NI].
[98] C. X. Wang, F . Haider, X. Gao, X. H. You, Y . Yang,
[88] E. Calvanese Strinati and S. Barbarossa, “6G D. Yuan, H. M. Aggoune, H. Haas, S. Fletcher,
networks: Beyond Shannon towards semantic and E. Hepsaydir, “Cellular architecture and key
and goal‐oriented communications,” Computer technologies for 5G wireless communication net‐
Netwrks Journal, vol. 190, no. 107930, 2021. DOI: works,” IEEE Communications Magazine, vol. 52,
DOI:10.1016/j.comnet.2021.107930. no. 2, pp. 122–130, 2014, ISSN: 01636804. DOI:
[89] J. Oueis and E. C. Strinati, “Uplink Traf ic in Future 10.1109/MCOM.2014.6736752.
Mobile Networks: Pulling the Alarm,” in Cognitive [99] R. Raheem, A. Lasebae, M. Aiash, and J. Loo, “Per‐
Radio Oriented Wireless Networks, D. Noguet, K. formance Evaluation of Mobile Users Served by
Moessner, and J. Palicot, Eds., Springer Interna‐ Fixed and Mobile Femtocells in L TE Networks,”
tional Publishing, 2016, pp. 583–593, ISBN: 978‐ Journal of Networking Technology, vol. 7,
3‐319‐40352‐6. pp. 16–33, Mar. 2016.
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