cfaed Publications
6G network design and operations
Reference
Fidan Mehmeti, Franz Biersack, Marco Liess, Matthias Nickel, Tung V. Doan, Robert Khasanov, Jeronimo Castrillon, Osel Lhamo, Thomas Wild, Andreas Herkersdorf, Wolfgang Kellerer, Frank H.P. Fitzek, Giang T. Nguyen, Diana Göhringer, "6G network design and operations", Chapter in 6G-life (Frank H.P. Fitzek and Holger Boche and Wolfgang Kellerer and Patrick Seeling), Academic Press, pp. 135–149, Feb 2026. [doi]
Abstract
This chapter presents various enhancements for 6G networks, focusing on critical challenges, such as low latency, high throughput, and resource efficiency. Achieving these objectives relies on emerging networking technologies, encompassing network function virtualization, software-defined network, and in-network computing. The chapter begins by reviewing contributions related to the placement of existing components in mobile core networks. The flexibility of 6G networks enables the introduction of in-network computing, facilitating computation within mobile networks. Subsequently, the chapter examines key contributions to in-network computing in mobile networks, covering topics such as adaptive compute platforms, application mapping, and mobile edge cloud.
Bibtex
author = {Fidan Mehmeti and Franz Biersack and Marco Liess and Matthias Nickel and Tung V. Doan and Robert Khasanov and Jeronimo Castrillon and Osel Lhamo and Thomas Wild and Andreas Herkersdorf and Wolfgang Kellerer and Frank H.P. Fitzek and Giang T. Nguyen and Diana Göhringer},
booktitle = {6G-life},
title = {6G network design and operations},
doi = {https://doi.org/10.1016/B978-0-44-327410-7.00020-X},
editor = {Frank H.P. Fitzek and Holger Boche and Wolfgang Kellerer and Patrick Seeling},
isbn = {978-0-443-27410-7},
pages = {135--149},
publisher = {Academic Press},
url = {https://www.sciencedirect.com/science/article/pii/B978044327410700020X},
abstract = {This chapter presents various enhancements for 6G networks, focusing on critical challenges, such as low latency, high throughput, and resource efficiency. Achieving these objectives relies on emerging networking technologies, encompassing network function virtualization, software-defined network, and in-network computing. The chapter begins by reviewing contributions related to the placement of existing components in mobile core networks. The flexibility of 6G networks enables the introduction of in-network computing, facilitating computation within mobile networks. Subsequently, the chapter examines key contributions to in-network computing in mobile networks, covering topics such as adaptive compute platforms, application mapping, and mobile edge cloud.},
month = feb,
year = {2026},
}
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