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bachelor-thesis/ref/refs.bib
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@techreport{ericsson_mobility_2025,
author = {Peter Jonsson and Patrik Cerwall and Anette Lundvall and David von Koch and Steven Davis},
title = {Ericsson Mobility Report},
institution = {Ericsson},
month = nov,
year = 2025,
type = {Technical Report},
url = {https://www.ericsson.com/4aca6f/assets/local/reports-papers/mobility-report/documents/2025/ericsson-mobility-report-november-2025.pdf},
urldate = {2026-05-12}
}
@article{kataria2024titan,
title={Saving private WAN: Using internet paths to offload WAN traffic in conferencing services},
author={Kataria, Bhaskar and Lnu, Palak and Bothra, Rahul and Gandhi, Rohan and Bhattacherjee, Debopam and Padmanabhan, Venkata N and Atov, Irena and Ramakrishnan, Sriraam and Chaturmohta, Somesh and Kotipalli, Chakri and others},
journal={Proceedings of the ACM on Networking},
volume={2},
number={CoNEXT4},
pages={1--22},
year={2024},
publisher={ACM New York, NY, USA}
}
@inproceedings{wu2023xron,
title={XRON: A hybrid elastic cloud overlay network for video conferencing at planetary scale},
author={Wu, Bingyang and Qian, Kun and Li, Bo and Ma, Yunfei and Zhang, Qi and Jiang, Zhigang and Zhao, Jiayu and Cai, Dennis and Zhai, Ennan and Liu, Xuanzhe and others},
booktitle={Proceedings of the ACM SIGCOMM 2023 Conference},
pages={696--709},
year={2023}
}
@article{huang2010skypefec,
title={Could Skype be more satisfying? A QoE-centric study of the FEC mechanism in an Internet-scale VoIP system},
author={Huang, Te-Yuan and Huang, Polly and Chen, Kuan-Ta and Wang, Po-Jung},
journal={IEEE Network},
volume={24},
number={2},
pages={42--48},
year={2010},
publisher={IEEE}
}
@inproceedings{holmer2013webrtcfec,
title={Handling packet loss in WebRTC},
author={Holmer, Stefan and Shemer, Mikhal and Paniconi, Marco},
booktitle={2013 IEEE international conference on image processing},
pages={1860--1864},
year={2013},
organization={IEEE}
}
@article{azodolmolky2013cloudnetworking,
title={Cloud computing networking: Challenges and opportunities for innovations},
author={Azodolmolky, Siamak and Wieder, Philipp and Yahyapour, Ramin},
journal={IEEE Communications Magazine},
volume={51},
number={7},
pages={54--62},
year={2013},
publisher={IEEE}
}
@article{luong2017cloudnetworksurvey,
title={Resource management in cloud networking using economic analysis and pricing models: A survey},
author={Luong, Nguyen Cong and Wang, Ping and Niyato, Dusit and Wen, Yonggang and Han, Zhu},
journal={IEEE Communications Surveys \& Tutorials},
volume={19},
number={2},
pages={954--1001},
year={2017},
publisher={IEEE}
}
@article{mogul2012cloudnetworkperf,
title={What we talk about when we talk about cloud network performance},
author={Mogul, Jeffrey C and Popa, Lucian},
journal={ACM SIGCOMM Computer Communication Review},
volume={42},
number={5},
pages={44--48},
year={2012},
publisher={ACM New York, NY, USA}
}
@inproceedings{andersen2001RON,
title={Resilient overlay networks},
author={Andersen, David and Balakrishnan, Hari and Kaashoek, Frans and Morris, Robert},
booktitle={Proceedings of the eighteenth ACM symposium on Operating systems principles},
pages={131--145},
year={2001}
}
@misc{rfc7348vxlan,
series = {Request for Comments},
number = 7348,
howpublished = {RFC 7348},
publisher = {RFC Editor},
doi = {10.17487/RFC7348},
url = {https://www.rfc-editor.org/info/rfc7348},
author = {Mallik Mahalingam and Dinesh Dutt and Kenneth Duda and Puneet Agarwal and Larry Kreeger and T. Sridhar and Mike Bursell and Chris Wright},
title = {{Virtual eXtensible Local Area Network (VXLAN): A Framework for Overlaying Virtualized Layer 2 Networks over Layer 3 Networks}},
pagetotal = 22,
year = 2014,
month = aug,
abstract = {This document describes Virtual eXtensible Local Area Network (VXLAN), which is used to address the need for overlay networks within virtualized data centers accommodating multiple tenants. The scheme and the related protocols can be used in networks for cloud service providers and enterprise data centers. This memo documents the deployed VXLAN protocol for the benefit of the Internet community.},
}
@misc{rfc7637nvgre,
series = {Request for Comments},
number = 7637,
howpublished = {RFC 7637},
publisher = {RFC Editor},
doi = {10.17487/RFC7637},
url = {https://www.rfc-editor.org/info/rfc7637},
author = {Pankaj Garg and Yu-Shun Wang},
title = {{NVGRE: Network Virtualization Using Generic Routing Encapsulation}},
pagetotal = 17,
year = 2015,
month = sep,
abstract = {This document describes the usage of the Generic Routing Encapsulation (GRE) header for Network Virtualization (NVGRE) in multi-tenant data centers. Network Virtualization decouples virtual networks and addresses from physical network infrastructure, providing isolation and concurrency between multiple virtual networks on the same physical network infrastructure. This document also introduces a Network Virtualization framework to illustrate the use cases, but the focus is on specifying the data-plane aspect of NVGRE.},
}
@misc{rfc8926geneve,
series = {Request for Comments},
number = 8926,
howpublished = {RFC 8926},
publisher = {RFC Editor},
doi = {10.17487/RFC8926},
url = {https://www.rfc-editor.org/info/rfc8926},
author = {Jesse Gross and Ilango Ganga and T. Sridhar},
title = {{Geneve: Generic Network Virtualization Encapsulation}},
pagetotal = 34,
year = 2020,
month = nov,
abstract = {Network virtualization involves the cooperation of devices with a wide variety of capabilities such as software and hardware tunnel endpoints, transit fabrics, and centralized control clusters. As a result of their role in tying together different elements of the system, the requirements on tunnels are influenced by all of these components. Therefore, flexibility is the most important aspect of a tunneling protocol if it is to keep pace with the evolution of technology. This document describes Geneve, an encapsulation protocol designed to recognize and accommodate these changing capabilities and needs.},
}
@online{microsoft_nvgre,
author = {{Microsoft}},
title = {Network Virtualization using Generic Routing Encapsulation (NVGRE) Task Offload},
year = {2023},
url = {https://learn.microsoft.com/en-us/windows-hardware/drivers/network/network-virtualization-using-generic-routing-encapsulation--nvgre--task-offload},
urldate = {2026-05-13},
organization = {Microsoft Learn}
}
@online{ovn_geneve,
author = {{OVN Project}},
title = {General --- OVN Documentation},
year = {2026},
url = {https://docs.ovn.org/en/latest/faq/general.html},
urldate = {2026-05-13},
organization = {OVN Project}
}
@online{vmware_nsxt_geneve,
author = {{VMware}},
title = {NSX-T: Routing where you need it (multi-hypervisor \& multi-cloud)},
year = {2017},
url = {https://blogs.vmware.com/networkvirtualization/2017/09/nsx-t-routing-where-you-need-it.html/},
urldate = {2026-05-13},
organization = {VMware}
}
@misc{rfc9293tcp,
series = {Request for Comments},
number = 9293,
howpublished = {RFC 9293},
publisher = {RFC Editor},
doi = {10.17487/RFC9293},
url = {https://www.rfc-editor.org/info/rfc9293},
author = {Wesley Eddy},
title = {{Transmission Control Protocol (TCP)}},
pagetotal = 98,
year = 2022,
month = aug,
abstract = {This document specifies the Transmission Control Protocol (TCP). TCP is an important transport-layer protocol in the Internet protocol stack, and it has continuously evolved over decades of use and growth of the Internet. Over this time, a number of changes have been made to TCP as it was specified in RFC 793, though these have only been documented in a piecemeal fashion. This document collects and brings those changes together with the protocol specification from RFC 793. This document obsoletes RFC 793, as well as RFCs 879, 2873, 6093, 6429, 6528, and 6691 that updated parts of RFC 793. It updates RFCs 1011 and 1122, and it should be considered as a replacement for the portions of those documents dealing with TCP requirements. It also updates RFC 5961 by adding a small clarification in reset handling while in the SYN-RECEIVED state. The TCP header control bits from RFC 793 have also been updated based on RFC 3168.},
}
@inproceedings{bolot1999adaptivefec,
author={Bolot, J.-C. and Fosse-Parisis, S. and Towsley, D.},
booktitle={IEEE INFOCOM '99. Conference on Computer Communications. Proceedings. Eighteenth Annual Joint Conference of the IEEE Computer and Communications Societies. The Future is Now (Cat. No.99CH36320)},
title={Adaptive FEC-based error control for Internet telephony},
year={1999},
volume={3},
number={},
pages={1453-1460 vol.3},
keywords={Programmable control;Adaptive control;Error correction;Internet telephony;Forward error correction;Constraint optimization;Loss measurement;Delay estimation;Delay effects;Decoding},
doi={10.1109/INFCOM.1999.752166}}
@article{gandikota2008multipathfec,
author={Gandikota, Venkat Raju and Tamma, Bheemajun Reddy and Murthy, C. Siva Ram},
journal={IEEE Transactions on Mobile Computing},
title={Adaptive FEC-Based Packet Loss Resilience Scheme for Supporting Voice Communication over Ad hoc Wireless Networks},
year={2008},
volume={7},
number={10},
pages={1184-1199},
keywords={Resilience;Wireless networks;Forward error correction;Spread spectrum communication;Programmable control;Adaptive control;Media Access Protocol;Communication system control;Protection;Propagation losses;Wireless communication;Applications;Wireless communication;Applications},
doi={10.1109/TMC.2008.42}
}
@article{huang2010skypefecmeasure,
author={Huang, Te-Yuan and Huang, Polly and Chen, Kuan-Ta and Wang, Po-Jung},
journal={IEEE Network},
title={Could Skype be more satisfying? a QoE-centric study of the FEC mechanism in an internet-scale VoIP system},
year={2010},
volume={24},
number={2},
pages={42-48},
keywords={Internet;Peer to peer computing;Codecs;Streaming media;Control systems;Protocols;Loss measurement;Data communication;Relays;Network servers},
doi={10.1109/MNET.2010.5430143}}
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