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Juan A. Cabrera; Robert-Steve Schmoll; Giang T. Nguyen; Sreekrishna Pandi; Frank H. P. Fitzek
Softwarization and Network Coding in the Mobile Edge Cloud for the Tactile Internet Journal Article
In: Proceedings of the IEEE, 2018.
Abstract | BibTeX
@article{cabrerasoftwarization5g, title = {Softwarization and Network Coding in the Mobile Edge Cloud for the Tactile Internet}, author = {Juan A. {Cabrera} and Robert-Steve {Schmoll} and Giang T. {Nguyen} and Sreekrishna {Pandi} and Frank H. P. {Fitzek}}, year = {2018}, date = {2018-09-26}, urldate = {2018-09-26}, booktitle = {IEEE}, journal = {Proceedings of the IEEE}, abstract = {Future communication systems, such as those enabling the tactile internet, will face disruptive changes compared to the state of art systems, which are i.) highly dynamic topology changes, ii.) replacement of the end to end paradigm with real mesh topologies, and iii.) a massive number of devices. To overcome those disruptive changes, future communication systems are substituting specialized hardware with generic hardware boxes and the softwarization paradigm. Furthermore, this approach allows for quick deployment of new services, which was known to cloud service already. In this paper, we will introduce the most prominent candidates for softwarization such as software defined networking (SDN) and network function virtualization (NFV) and explain the importance of those technologies for the upcoming 5G communication system and tactile internet applications realizing novel mobile edge computing, storage, and networking solutions. Specifically, we will discuss use cases of SDN/NFV such as network coding as a service, and ultra-reliable distributed edge caching. Finally, we will describe our holistic testbed at 5G Lab Germany as a fundamental step towards creating an experiment infrastructure that anticipates the 5G communication systems and tactile internet applications.}, keywords = {}, pubstate = {published}, tppubtype = {article} }
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Frank Gabriel; Simon Wunderlich; Sreekrishna Pandi; Frank H. P. Fitzek; Martin Reisslein
Caterpillar RLNC with Feedback (CRLNC-FB): Reducing Delay in Selective Repeat ARQ through Coding Journal Article
In: IEEE Access, 2018.
Links | BibTeX
@article{GabrielCRLNC, title = {Caterpillar RLNC with Feedback (CRLNC-FB): Reducing Delay in Selective Repeat ARQ through Coding}, author = {Frank {Gabriel} and Simon {Wunderlich} and Sreekrishna {Pandi} and Frank H. P. {Fitzek} and Martin {Reisslein}}, doi = {10.1109/ACCESS.2018.2865137}, year = {2018}, date = {2018-08-13}, journal = {IEEE Access}, keywords = {}, pubstate = {published}, tppubtype = {article} }
Huanzhuo Wu; Giang T. Nguyen; Anil K. Chorppath; Frank H. P. Fitzek
Network Slicing for Conditional Monitoring in the Industrial Internet of Things Journal Article
In: 2018.
@article{Wu2018, title = {Network Slicing for Conditional Monitoring in the Industrial Internet of Things}, author = {Huanzhuo {Wu} and Giang T. {Nguyen} and Anil K. {Chorppath} and Frank H. P. {Fitzek}}, url = {https://sdn.ieee.org/newsletter/january-2018/network-slicing-for-conditional-monitoring-in-the-industrial-internet-of-things}, year = {2018}, date = {2018-02-01}, urldate = {2018-02-01}, organization = {IEEE Software Defined Networks, IEEE Softwarization, Jan. 2018}, keywords = {}, pubstate = {published}, tppubtype = {article} }