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Jonas Hansen; Jeppe Krigslund; Daniel E. Lucani Rötter; Peyman Pahlevani; Frank H. P. Fitzek
Bridging Inter-flow and Intra-flow Network Coding in Wireless Mesh Networks: From Theory to Implementation Journal Article
In: Computer Networks, vol. 2018, 2018.
Abstract | BibTeX
@article{Hansen2018, title = {Bridging Inter-flow and Intra-flow Network Coding in Wireless Mesh Networks: From Theory to Implementation}, author = {Jonas {Hansen} and Jeppe {Krigslund} and Daniel E. {Lucani R\"{o}tter} and Peyman {Pahlevani} and Frank H. P. {Fitzek}}, year = {2018}, date = {2018-07-31}, journal = {Computer Networks}, volume = {2018}, abstract = {This paper presents and characterizes the performance of CORE, a protocol that brings together the efficiency in spectrum usage of inter\textendashsession network coding schemes and the robustness against packet losses of intra\textendashsession network coding. We provide in\textendashdepth mathematical analysis of the gains of CORE followed by protocol design and implementation details needed for CORE\^{O}\c{C}\"{O}s successful deployment in practice. Finally, we provide extensive measurements with off\textendashthe\textendashshelf wireless nodes under various channel and system conditions comparing CORE to other state\textendashof\textendashthe\textendashart approaches, namely, forwarding (no coding) and COPE (inter\textendashsession network coding). These measurements support our theoretical findings, showing that CORE not only outperforms COPE and forwarding in general, but that order of magnitude gains are possible for cases with high packet losses. Specifically, CORE has a throughput gain of more than 10x over a COPE\textendashlike scheme and 7x over forwarding when the error ratio is 50 % on all links. Beyond these gains over other protocols, our measurements show that our CORE implementation can achieve close to optimal performance with a gap of less than 0.43 dB.}, keywords = {}, pubstate = {published}, tppubtype = {article} }
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