Abstract
While placing the paper "XORs in the Air" in the context of the theoretical and practical understanding of network coding, we present a view of the progress of the field of network coding, In particular, we examine the interplay of theory and practice in the field.
- http://www.steinwurf.com/products/kodo.html.Google Scholar
- S. Acedański, S. Deb, M. Médard, and R. Koetter. 2005. How good is random linear coding based distributed network storage?. In Proc. 1st Workshop on Network Coding, Theory, and Applications (Netcod'05).Google Scholar
- R. Ahlswede, Ning Cai, S.-Y.R. Li, and R.W. Yeung. 2000. Network information flow. Information Theory, IEEE Transactions on 46, 4 (2000), 1204--1216. Google ScholarDigital Library
- R. Ahlswede, Cai Ning, S-Y.R Li, and R.W. Yeung. 2000. Network information flow. 46, 4 (July 2000), 1204--1216.Google Scholar
- P. J. Braun, D. Malak, M. Medard, and P. Ekler. 2019. Multi-Source Coded Downloads. In ICC 2019 - 2019 IEEE International Conference on Communications (ICC). 1--7. Google ScholarCross Ref
- J. Cloud, L. M. Zeger, and M. Medard. 2012. MAC Centered Cooperation --- Synergistic Design of Network Coding, Multi-Packet Reception, and Improved Fairness to Increase Network Throughput. IEEE Journal on Selected Areas in Communications 30, 2 (February 2012), 341--349.Google ScholarCross Ref
- Y. Cui, M. Médard, E. Yeh, D. Leith, and K. R. Duffy. 2018. Optimization-Based Linear Network Coding for General Connections of Continuous Flows. IEEE/ACM Transactions on Networking 26, 5 (Oct 2018), 2033--2047. Google ScholarDigital Library
- Y. Cui, M. Médard, E. Yeh, D. Leith, F. Lai, and K. R. Duffy. 2017. A Linear Network Code Construction for General Integer Connections Based on the Constraint Satisfaction Problem. IEEE/ACM Transactions on Networking 25, 6 (Dec 2017), 3441--3454. Google ScholarDigital Library
- E. Erez, M. Kim, Y. Xu, E. M. Yeh, and M. Médard. 2014. Deterministic Network Model Revisited: An Algebraic Network Coding Approach. IEEE Transactions on Information Theory 60, 8 (Aug 2014), 4867--4879. Google ScholarCross Ref
- F. Gabriel, S. Wunderlich, S. Pandi, F. H. P. Fitzek, and M. Reisslein. 2018. Caterpillar RLNC With Feedback (CRLNC-FB): Reducing Delay in Selective Repeat ARQ Through Coding. IEEE Access 6 (2018), 44787--44802. Google ScholarCross Ref
- J. Heide, S. Shi, K. Fouli, M. Médard, and V. Chook. [n. d.]. Random Linear Network Coding (RLNC): Background and Practical Considerations, https://datatracker.ietf.org/doc/draft-heide-nwcrg-rlnc-background/.Google Scholar
- J. Heide, S. Shi, K. Fouli, M. Médard, and V. Chook. [n. d.]. Random Linear Network Coding (RLNC)-Based Symbol Representation, https://tools.ietf.org/html/draft-heide-nwcrg-rlnc-02.Google Scholar
- C. Hellge and M. Medard. 2016. Multi-code Distributed Storage. In 2016 IEEE 9th International Conference on Cloud Computing (CLOUD). 839--842. Google ScholarCross Ref
- T. Ho, M. Médard, R. Koetter, D.R. Karger, M. Effros, Jun Shi, and B. Leong. 2006. A Random Linear Network Coding Approach to Multicast. IEEE Transactions on Information Theory 52, 10 (Oct. 2006), 4413 --4430.Google ScholarDigital Library
- M. Karzand, D. J. Leith, J. Cloud, and M. Médard. 2017. Design of FEC for Low Delay in 5G. IEEE Journal on Selected Areas in Communications 35, 8 (Aug 2017), 1783--1793. Google ScholarCross Ref
- Sachin Katti, Hariharan Rahul, Wenjun Hu, Dina Katabi, Muriel Médard, and Jon Crowcroft. 2006. XORs in the Air: Practical Wireless Network Coding. In Proceedings of the 2006 Conference on Applications, Technologies, Architectures, and Protocols for Computer Communications (SIGCOMM '06). ACM, New York, NY, USA, 243--254. Google ScholarDigital Library
- S. Katti, H. Rahul, W. Hu, D. Katabi, M. Medard, and J. Crowcroft. 2008. XORs in the Air: Practical Wireless Network Coding. IEEE/ACM Transactions on Networking 16, 3 (June 2008), 497--510. Google ScholarDigital Library
- R. Koetter and M. Medard. 2001. An algebraic approach to network coding. In Proceedings. 2001 IEEE International Symposium on Information Theory (IEEE Cat. No.01CH37252). 104--. Google ScholarCross Ref
- R. Koetter and M. Medard. 2002. Beyond routing: an algebraic approach to network coding. In Proceedings. Twenty-First Annual Joint Conference of the IEEE Computer and Communications Societies, Vol. 1. 122--130 vol. 1. Google ScholarCross Ref
- R. Koetter and M. Médard. 2003. An algebraic approach to network coding. IEEE/ACM Transactions on Networking 11, 5 (Oct. 2003), 782 -- 795.Google ScholarDigital Library
- Desmond Lun, Niranjan Ratnakar, Muriel Médard, Ralf Koetter, David R. Karger, Tracey H, Ebad Amhed, and Fang Zhao. 2006. Minimum-cost multicast over coded packet networks. 52, 6 (June 2006), 2608--2623.Google Scholar
- D. S. Lun, M. Médard, T. Ho, and R. Koetter. 2004. Network coding with a cost criterion. In International Symposium on Information Theory and its Applications (ISITA).Google Scholar
- D. S Lun, P. Pakzad, C. Fragouli, M. Médard, and R. Koetter. 2006. An Analysis of Finite-memory Random Linear Coding on Packet Streams. In 2006 4th International Symposium on Modeling and Optimization in Mobile, Ad Hoc and Wireless Networks. IEEE, 1-- 6. Google ScholarCross Ref
- D. Malak, M. Médard, and E. M. Yeh. 2018. ARQ with Cumulative Feedback to Compensate for Burst Errors. In 2018 IEEE Global Communications Conference (GLOBECOM). 1--6. Google ScholarCross Ref
- D. Malak, M. Médard, and E. M. Yeh. 2019. Tiny Codes for Guaranteeable Delay. IEEE Journal on Selected Areas in Communications 37, 4 (April 2019), 809--825. Google ScholarCross Ref
- D. Malak, A. Schneuwly, M. Médard, and E. Yeh. 2019. Delay-Aware Coding in Multi-Hop Line Networks. In 2019 IEEE 5th World Forum on Internet of Things (WF-IoT). 650--655. Google ScholarCross Ref
- M. Medard, F. H. P. Fitzek, M. Montpetit, and C. Rosenberg. 2014. Network coding mythbusting: why it is not about butterflies anymore. IEEE Communications Magazine 52, 7 (July 2014), 177--183. Google ScholarCross Ref
- J. Neu and M. Medard. 2019. Babel Storage: Uncoordinated Content Delivery from Multiple Coded Storage Systems. IEEE Globecom (2019).Google Scholar
- S. Pandi, S. Wunderlich, and F. H. P. Fitzek. 2018. Reliable low latency wireless mesh networks --- From Myth to reality. In 2018 15th IEEE Annual Consumer Communications Networking Conference (CCNC). 1--2. Google ScholarCross Ref
- Nikolaos Papanikos and Evangelos Papapetrou. 2014. Deterministic Broadcasting and Random Linear Network Coding in Mobile Ad Hoc Networks. CoRR abs/1411.4465 (2014). arXiv:1411.4465 http://arxiv.org/abs/1411.4465Google Scholar
- V. Roca. [n. d.]. The Sliding Window Random Linear Code (RLC) Forward Erasure Correction (FEC) Scheme for FECFRAME, https://tools.ietf.org/html/draft-roca-tsvwg-rlc-fec-scheme-01.Google Scholar
- C. W. Sørensen, D. E. Lucani, and M. Médard. 2017. On network coded filesystem shim: Over-the-top multipath multi-source made easy. In 2017 IEEE International Conference on Communications (ICC). 1--7. Google ScholarCross Ref
- J.K. Sundararajan, D. Shah, M. Médard, S. Jakubczak, M. Mitzenmacher, and J. Barros. 2011. Network Coding Meets TCP: Theory and Implementation. Proc. IEEE 99, 3 (March 2011), 490--512. Google ScholarCross Ref
- J.K. Sundararajan, D. Shah, M. Médard, M. Mitzenmacher, and J. Barros. 2009. Network Coding Meets TCP. In INFOCOM 2009, IEEE. 280--288. Google ScholarCross Ref
- J. K Sundararajan, P. Sadeghi, and M. Médard. 2009. A feedback-based adaptive broadcast coding scheme for reducing in-order delivery delay. In Workshop on Network Coding, Theory, and Applications, 2009. NetCod '09. IEEE, 1--6. Google ScholarCross Ref
- M. Talas, R. Rausch, and N. Barhoum. 2018. New York City Pilot Acquisition and Installation Experiences. (2018).Google Scholar
- F. Tesema and V. Pauli. 2018. Layer 2 FEC in 5G Broadcast / Multicast Networks, http://nomor.de/wp-content/uploads/2018/09/Nomor_WhitePaper_2018_FT_VP_RAN_2nd_layer_FEC_v3.pdf. (2018).Google Scholar
- F. Tesema and V. Pauli. 2019. Coordinated Link Adaptation and Higher Layer Error Correction for 5G Broadcast / Multicast, http://nomor.de/wp-content/uploads/2019/07/white_paper_coord_la_and_ec.pdf. (2019).Google Scholar
- S. Wunderlich, F. Gabriel, S. Pandi, and F. H. P. Fitzek. 2017. We don't need no generation - a practical approach to sliding window RLNC. In 2017 Wireless Days. 218--223. Google ScholarCross Ref
- S. Wunderlich, F. Gabriel, S. Pandi, F. H. P. Fitzek, and M. Reisslein. 2017. Caterpillar RLNC (CRLNC): A Practical Finite Sliding Window RLNC Approach. IEEE Access 5 (2017), 20183--20197. Google ScholarCross Ref
- Weifei Zeng, C.T.K. Ng, and M. Médard. 2012. Joint coding and scheduling optimization in wireless systems with varying delay sensitivities. In Sensor, Mesh and Ad Hoc Communications and Networks (SECON), 2012 9th Annual IEEE Communications Society Conference on. 416--424. Google ScholarCross Ref
- F. Zhao and M. Médard. 2010. On analyzing and improving COPE performance. In 2010 Information Theory and Applications Workshop (ITA). 1--6. Google ScholarCross Ref
- F. Zhao, M. Médard, M. Hundebøll, J. Ledet-Pedersen, S. A. Rein, and F. H. P. Fitzek. 2012. Comparison of analytical and measured performance results on network coding in IEEE 802.11 ad-hoc networks. In 2012 International Symposium on Network Coding (NetCod). 43--48. Google ScholarCross Ref
Index Terms
- XORs in the past and future
Recommendations
XORs in the air: practical wireless network coding
SIGCOMM '06: Proceedings of the 2006 conference on Applications, technologies, architectures, and protocols for computer communicationsThis paper proposes COPE, a new architecture for wireless mesh networks. In addition to forwarding packets, routers mix (i.e., code) packets from different sources to increase the information content of each transmission. We show that intelligently ...
XORs in the air: practical wireless network coding
This paper proposes COPE, a new architecture for wireless mesh networks. In addition to forwarding packets, routers mix (i.e., code) packets from different sources to increase the information content of each transmission. We show that intelligently ...
XORs in the air: practical wireless network coding
Proceedings of the 2006 conference on Applications, technologies, architectures, and protocols for computer communicationsThis paper proposes COPE, a new architecture for wireless mesh networks. In addition to forwarding packets, routers mix (i.e., code) packets from different sources to increase the information content of each transmission. We show that intelligently ...
Comments