Linear network coding - Revision history

Citation bot: Added isbn. | Use this bot. Report bugs. | #UCB_CommandLine

2024-11-11T20:37:10Z

Added isbn. | Use this bot. Report bugs. | #UCB_CommandLine

← Previous revision		Revision as of 20:37, 11 November 2024
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	\| publisher = IEEE		\| publisher = IEEE
	\| title = INFOCOM 2008. 27th IEEE International Conference on Computer Communications, Joint Conference of the IEEE Computer and Communications Societies, 13–18 April 2008, Phoenix, AZ, USA		\| title = INFOCOM 2008. 27th IEEE International Conference on Computer Communications, Joint Conference of the IEEE Computer and Communications Societies, 13–18 April 2008, Phoenix, AZ, USA
	\| year = 2008~~}}</ref>~~		\| year = 2008\| isbn = 978-1-4244-2026-1
			}}</ref>
	* Digital file distribution and P2P file sharing, e.g. [[Avalanche filesystem]] from Microsoft		* Digital file distribution and P2P file sharing, e.g. [[Avalanche filesystem]] from Microsoft
	* Distributed storage<ref name="Bilal, Muhammad 2019 1376–1385" /><ref>{{Cite web \|last1=Acedański \|first1=Szymon \|last2=Deb \|first2=Supratim \|last3=Médard \|first3=Muriel \|last4=Koetter \|first4=Ralf \|title=How Good is Random Linear Coding Based Distributed Networked Storage? \|url=http://web.mit.edu/~medard/www/page2/mpapers/netcod2005_accek.pdf \|access-date=26 March 2022 \|website=web.mit.edu}}</ref><ref>{{Cite arXiv \|eprint = cs/0702015\|last1 = Dimakis\|first1 = Alexandros\|title = Network Coding for Distributed Storage Systems\|year = 2007}}</ref>		* Distributed storage<ref name="Bilal, Muhammad 2019 1376–1385" /><ref>{{Cite web \|last1=Acedański \|first1=Szymon \|last2=Deb \|first2=Supratim \|last3=Médard \|first3=Muriel \|last4=Koetter \|first4=Ralf \|title=How Good is Random Linear Coding Based Distributed Networked Storage? \|url=http://web.mit.edu/~medard/www/page2/mpapers/netcod2005_accek.pdf \|access-date=26 March 2022 \|website=web.mit.edu}}</ref><ref>{{Cite arXiv \|eprint = cs/0702015\|last1 = Dimakis\|first1 = Alexandros\|title = Network Coding for Distributed Storage Systems\|year = 2007}}</ref>

Mr. X 235528: /* Applications */

2024-08-08T15:51:47Z

Applications

← Previous revision		Revision as of 15:51, 8 August 2024
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	* Satellite networks.<ref>{{Cite web \|title=DLR - Institute of Communications and Navigation - NEXT - Network Coding Satellite Experiment \|url=https://www.dlr.de/kn/en/desktopdefault.aspx/tabid-12748/22264_read-26607/ \|access-date=2022-06-06 \|website=www.dlr.de}}</ref>		* Satellite networks.<ref>{{Cite web \|title=DLR - Institute of Communications and Navigation - NEXT - Network Coding Satellite Experiment \|url=https://www.dlr.de/kn/en/desktopdefault.aspx/tabid-12748/22264_read-26607/ \|access-date=2022-06-06 \|website=www.dlr.de}}</ref>
	* Agricultural sensor fields.<ref>{{Cite book \|last1=Hsu \|first1=Hsiao-Tzu \|last2=Wang \|first2=Tzu-Ming \|last3=Kuo \|first3=Yuan-Cheng \|title=Proceedings of the 2018 2nd International Conference on Education and E-Learning \|chapter=Implementation of Agricultural Monitoring System Based on the Internet of Things \|date=2018-11-05 \|chapter-url=https://doi.org/10.1145/3291078.3291098 \|series=ICEEL 2018 \|location=New York, NY, USA \|publisher=Association for Computing Machinery \|pages=212–216 \|doi=10.1145/3291078.3291098 \|isbn=978-1-4503-6577-2\|s2cid=59337140 }}</ref><ref>{{Cite journal \|last1=Camilli \|first1=Alberto \|last2=Cugnasca \|first2=Carlos E. \|last3=Saraiva \|first3=Antonio M. \|last4=Hirakawa \|first4=André R. \|last5=Corrêa \|first5=Pedro L. P. \|date=2007-08-01 \|title=From wireless sensors to field mapping: Anatomy of an application for precision agriculture \|url=https://www.sciencedirect.com/science/article/pii/S0168169907000610 \|journal=Computers and Electronics in Agriculture \|series=Precision Agriculture in Latin America \|language=en \|volume=58 \|issue=1 \|pages=25–36 \|doi=10.1016/j.compag.2007.01.019 \|issn=0168-1699}}</ref>		* Agricultural sensor fields.<ref>{{Cite book \|last1=Hsu \|first1=Hsiao-Tzu \|last2=Wang \|first2=Tzu-Ming \|last3=Kuo \|first3=Yuan-Cheng \|title=Proceedings of the 2018 2nd International Conference on Education and E-Learning \|chapter=Implementation of Agricultural Monitoring System Based on the Internet of Things \|date=2018-11-05 \|chapter-url=https://doi.org/10.1145/3291078.3291098 \|series=ICEEL 2018 \|location=New York, NY, USA \|publisher=Association for Computing Machinery \|pages=212–216 \|doi=10.1145/3291078.3291098 \|isbn=978-1-4503-6577-2\|s2cid=59337140 }}</ref><ref>{{Cite journal \|last1=Camilli \|first1=Alberto \|last2=Cugnasca \|first2=Carlos E. \|last3=Saraiva \|first3=Antonio M. \|last4=Hirakawa \|first4=André R. \|last5=Corrêa \|first5=Pedro L. P. \|date=2007-08-01 \|title=From wireless sensors to field mapping: Anatomy of an application for precision agriculture \|url=https://www.sciencedirect.com/science/article/pii/S0168169907000610 \|journal=Computers and Electronics in Agriculture \|series=Precision Agriculture in Latin America \|language=en \|volume=58 \|issue=1 \|pages=25–36 \|doi=10.1016/j.compag.2007.01.019 \|issn=0168-1699}}</ref>
	* In-flight ~~enterteinment~~ networks.<ref>{{Cite patent\|number=US8401021B2\|title=Systems and methods for prioritizing wireless communication of aircraft\|gdate=2013-03-19\|invent1=Buga\|invent2=Trent\|inventor1-first=Wladyslaw Jan\|inventor2-first=Tracy Raymond\|url=https://patents.google.com/patent/US8401021B2/en}}</ref>		* In-flight entertainment networks.<ref>{{Cite patent\|number=US8401021B2\|title=Systems and methods for prioritizing wireless communication of aircraft\|gdate=2013-03-19\|invent1=Buga\|invent2=Trent\|inventor1-first=Wladyslaw Jan\|inventor2-first=Tracy Raymond\|url=https://patents.google.com/patent/US8401021B2/en}}</ref>
	* Major security and firmware updates for mobile product families.<ref>{{Cite book \|last1=Tonyali \|first1=Samet \|last2=Akkaya \|first2=Kemal \|last3=Saputro \|first3=Nico \|last4=Cheng \|first4=Xiuzhen \|author4-link= Xiuzhen Cheng \|title=2017 26th International Conference on Computer Communication and Networks (ICCCN) \|chapter=An Attribute & Network Coding-Based Secure Multicast Protocol for Firmware Updates in Smart Grid AMI Networks \|date=July 2017 \|chapter-url=https://ieeexplore.ieee.org/document/8038415 \|location=Vancouver, BC, Canada \|publisher=IEEE \|pages=1–9 \|doi=10.1109/ICCCN.2017.8038415 \|isbn=978-1-5090-2991-4\|s2cid=25131878 }}</ref><ref>{{Cite book \|last1=Jalil \|first1=Syed Qaisar \|last2=Chalup \|first2=Stephan \|last3=Rehmani \|first3=Mubashir Husain \|title=Smart Grid and Internet of Things \|chapter=A Smart Meter Firmware Update Strategy Through Network Coding for AMI Network \|date=2019 \|editor-last=Pathan \|editor-first=Al-Sakib Khan \|editor2-last=Fadlullah \|editor2-first=Zubair Md. \|editor3-last=Guerroumi \|editor3-first=Mohamed \|chapter-url=https://link.springer.com/chapter/10.1007/978-3-030-05928-6_7 \|series=Lecture Notes of the Institute for Computer Sciences, Social Informatics and Telecommunications Engineering \|volume=256 \|language=en \|location=Cham \|publisher=Springer International Publishing \|pages=68–77 \|doi=10.1007/978-3-030-05928-6_7 \|isbn=978-3-030-05928-6\|s2cid=59561476 }}</ref>		* Major security and firmware updates for mobile product families.<ref>{{Cite book \|last1=Tonyali \|first1=Samet \|last2=Akkaya \|first2=Kemal \|last3=Saputro \|first3=Nico \|last4=Cheng \|first4=Xiuzhen \|author4-link= Xiuzhen Cheng \|title=2017 26th International Conference on Computer Communication and Networks (ICCCN) \|chapter=An Attribute & Network Coding-Based Secure Multicast Protocol for Firmware Updates in Smart Grid AMI Networks \|date=July 2017 \|chapter-url=https://ieeexplore.ieee.org/document/8038415 \|location=Vancouver, BC, Canada \|publisher=IEEE \|pages=1–9 \|doi=10.1109/ICCCN.2017.8038415 \|isbn=978-1-5090-2991-4\|s2cid=25131878 }}</ref><ref>{{Cite book \|last1=Jalil \|first1=Syed Qaisar \|last2=Chalup \|first2=Stephan \|last3=Rehmani \|first3=Mubashir Husain \|title=Smart Grid and Internet of Things \|chapter=A Smart Meter Firmware Update Strategy Through Network Coding for AMI Network \|date=2019 \|editor-last=Pathan \|editor-first=Al-Sakib Khan \|editor2-last=Fadlullah \|editor2-first=Zubair Md. \|editor3-last=Guerroumi \|editor3-first=Mohamed \|chapter-url=https://link.springer.com/chapter/10.1007/978-3-030-05928-6_7 \|series=Lecture Notes of the Institute for Computer Sciences, Social Informatics and Telecommunications Engineering \|volume=256 \|language=en \|location=Cham \|publisher=Springer International Publishing \|pages=68–77 \|doi=10.1007/978-3-030-05928-6_7 \|isbn=978-3-030-05928-6\|s2cid=59561476 }}</ref>
	* [[Smart city]] infrastructure.<ref>{{Cite book \|last1=Kumar \|first1=Vaibhav \|last2=Cardiff \|first2=Barry \|last3=Flanagan \|first3=Mark F. \|title=2017 IEEE 28th Annual International Symposium on Personal, Indoor, and Mobile Radio Communications (PIMRC) \|chapter=Physical-layer network coding with multiple antennas: An enabling technology for smart cities \|date=October 2017 \|chapter-url=https://ieeexplore.ieee.org/document/8292785 \|location=Montreal, QC \|publisher=IEEE \|pages=1–6 \|doi=10.1109/PIMRC.2017.8292785 \|hdl=10197/11114 \|isbn=978-1-5386-3529-2\|s2cid=748535 \|hdl-access=free }}</ref><ref>{{Citation \|last1=Darif \|first1=Anouar \|title=Network Coding for Energy Optimization of SWIMAC in Smart Cities Using WSN Based on IR-UWB \|date=2020 \|url=http://link.springer.com/10.1007/978-3-030-37629-1_48 \|work=Innovations in Smart Cities Applications Edition 3 \|pages=663–674 \|editor-last=Ben Ahmed \|editor-first=Mohamed \|place=Cham \|publisher=Springer International Publishing \|language=en \|doi=10.1007/978-3-030-37629-1_48 \|isbn=978-3-030-37628-4 \|access-date=2022-06-06 \|last2=Chaibi \|first2=Hasna \|last3=Saadane \|first3=Rachid \|series=Lecture Notes in Intelligent Transportation and Infrastructure \|s2cid=214486109 \|editor2-last=Boudhir \|editor2-first=Anouar Abdelhakim \|editor3-last=Santos \|editor3-first=Domingos \|editor4-last=El Aroussi \|editor4-first=Mohamed}}</ref>		* [[Smart city]] infrastructure.<ref>{{Cite book \|last1=Kumar \|first1=Vaibhav \|last2=Cardiff \|first2=Barry \|last3=Flanagan \|first3=Mark F. \|title=2017 IEEE 28th Annual International Symposium on Personal, Indoor, and Mobile Radio Communications (PIMRC) \|chapter=Physical-layer network coding with multiple antennas: An enabling technology for smart cities \|date=October 2017 \|chapter-url=https://ieeexplore.ieee.org/document/8292785 \|location=Montreal, QC \|publisher=IEEE \|pages=1–6 \|doi=10.1109/PIMRC.2017.8292785 \|hdl=10197/11114 \|isbn=978-1-5386-3529-2\|s2cid=748535 \|hdl-access=free }}</ref><ref>{{Citation \|last1=Darif \|first1=Anouar \|title=Network Coding for Energy Optimization of SWIMAC in Smart Cities Using WSN Based on IR-UWB \|date=2020 \|url=http://link.springer.com/10.1007/978-3-030-37629-1_48 \|work=Innovations in Smart Cities Applications Edition 3 \|pages=663–674 \|editor-last=Ben Ahmed \|editor-first=Mohamed \|place=Cham \|publisher=Springer International Publishing \|language=en \|doi=10.1007/978-3-030-37629-1_48 \|isbn=978-3-030-37628-4 \|access-date=2022-06-06 \|last2=Chaibi \|first2=Hasna \|last3=Saadane \|first3=Rachid \|series=Lecture Notes in Intelligent Transportation and Infrastructure \|s2cid=214486109 \|editor2-last=Boudhir \|editor2-first=Anouar Abdelhakim \|editor3-last=Santos \|editor3-first=Domingos \|editor4-last=El Aroussi \|editor4-first=Mohamed}}</ref>

David Eppstein: /* Applications */ can't find this redundant reference in dblp, probably unreliable

2024-06-18T01:14:58Z

Applications: can't find this redundant reference in dblp, probably unreliable

← Previous revision		Revision as of 01:14, 18 June 2024
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	* [[Fourth Industrial Revolution\|Industry 4.0]].<ref>{{Cite book \|last1=Peralta \|first1=Goiuri \|last2=Iglesias-Urkia \|first2=Markel \|last3=Barcelo \|first3=Marc \|last4=Gomez \|first4=Raul \|last5=Moran \|first5=Adrian \|last6=Bilbao \|first6=Josu \|title=2017 IEEE International Workshop of Electronics, Control, Measurement, Signals and their Application to Mechatronics (ECMSM) \|chapter=Fog computing based efficient IoT scheme for the Industry 4.0 \|date=May 2017 \|chapter-url=https://ieeexplore.ieee.org/document/7945879 \|location=Donostia, San Sebastian, Spain \|publisher=IEEE \|pages=1–6 \|doi=10.1109/ECMSM.2017.7945879 \|isbn=978-1-5090-5582-1\|s2cid=37985560 }}</ref><ref>{{Cite journal \|last1=Peralta \|first1=Goiuri \|last2=Garrido \|first2=Pablo \|last3=Bilbao \|first3=Josu \|last4=Agüero \|first4=Ramón \|last5=Crespo \|first5=Pedro \|date=2019-04-08 \|title=On the Combination of Multi-Cloud and Network Coding for Cost-Efficient Storage in Industrial Applications \|journal=Sensors \|language=en \|volume=19 \|issue=7 \|pages=1673 \|doi=10.3390/s19071673 \|issn=1424-8220 \|pmc=6479523 \|pmid=30965629\|bibcode=2019Senso..19.1673P \|doi-access=free }}</ref><ref>{{Cite book \|last1=Zverev \|first1=Mihail \|last2=Agüero \|first2=Ramón \|last3=Garrido \|first3=Pablo \|last4=Bilbao \|first4=Josu \|title=Proceedings of the 9th International Conference on the Internet of Things \|chapter=Network Coding for IIoT Multi-Cloud Environments \|date=2019-10-22 \|chapter-url=https://doi.org/10.1145/3365871.3365903 \|series=IoT 2019 \|location=New York, NY, USA \|publisher=Association for Computing Machinery \|pages=1–4 \|doi=10.1145/3365871.3365903 \|isbn=978-1-4503-7207-7\|s2cid=207940281 }}</ref>		* [[Fourth Industrial Revolution\|Industry 4.0]].<ref>{{Cite book \|last1=Peralta \|first1=Goiuri \|last2=Iglesias-Urkia \|first2=Markel \|last3=Barcelo \|first3=Marc \|last4=Gomez \|first4=Raul \|last5=Moran \|first5=Adrian \|last6=Bilbao \|first6=Josu \|title=2017 IEEE International Workshop of Electronics, Control, Measurement, Signals and their Application to Mechatronics (ECMSM) \|chapter=Fog computing based efficient IoT scheme for the Industry 4.0 \|date=May 2017 \|chapter-url=https://ieeexplore.ieee.org/document/7945879 \|location=Donostia, San Sebastian, Spain \|publisher=IEEE \|pages=1–6 \|doi=10.1109/ECMSM.2017.7945879 \|isbn=978-1-5090-5582-1\|s2cid=37985560 }}</ref><ref>{{Cite journal \|last1=Peralta \|first1=Goiuri \|last2=Garrido \|first2=Pablo \|last3=Bilbao \|first3=Josu \|last4=Agüero \|first4=Ramón \|last5=Crespo \|first5=Pedro \|date=2019-04-08 \|title=On the Combination of Multi-Cloud and Network Coding for Cost-Efficient Storage in Industrial Applications \|journal=Sensors \|language=en \|volume=19 \|issue=7 \|pages=1673 \|doi=10.3390/s19071673 \|issn=1424-8220 \|pmc=6479523 \|pmid=30965629\|bibcode=2019Senso..19.1673P \|doi-access=free }}</ref><ref>{{Cite book \|last1=Zverev \|first1=Mihail \|last2=Agüero \|first2=Ramón \|last3=Garrido \|first3=Pablo \|last4=Bilbao \|first4=Josu \|title=Proceedings of the 9th International Conference on the Internet of Things \|chapter=Network Coding for IIoT Multi-Cloud Environments \|date=2019-10-22 \|chapter-url=https://doi.org/10.1145/3365871.3365903 \|series=IoT 2019 \|location=New York, NY, USA \|publisher=Association for Computing Machinery \|pages=1–4 \|doi=10.1145/3365871.3365903 \|isbn=978-1-4503-7207-7\|s2cid=207940281 }}</ref>
	* Satellite networks.<ref>{{Cite web \|title=DLR - Institute of Communications and Navigation - NEXT - Network Coding Satellite Experiment \|url=https://www.dlr.de/kn/en/desktopdefault.aspx/tabid-12748/22264_read-26607/ \|access-date=2022-06-06 \|website=www.dlr.de}}</ref>		* Satellite networks.<ref>{{Cite web \|title=DLR - Institute of Communications and Navigation - NEXT - Network Coding Satellite Experiment \|url=https://www.dlr.de/kn/en/desktopdefault.aspx/tabid-12748/22264_read-26607/ \|access-date=2022-06-06 \|website=www.dlr.de}}</ref>
	* Agricultural sensor fields.<ref>{{Cite book \|last1=Hsu \|first1=Hsiao-Tzu \|last2=Wang \|first2=Tzu-Ming \|last3=Kuo \|first3=Yuan-Cheng \|title=Proceedings of the 2018 2nd International Conference on Education and E-Learning \|chapter=Implementation of Agricultural Monitoring System Based on the Internet of Things \|date=2018-11-05 \|chapter-url=https://doi.org/10.1145/3291078.3291098 \|series=ICEEL 2018 \|location=New York, NY, USA \|publisher=Association for Computing Machinery \|pages=212–216 \|doi=10.1145/3291078.3291098 \|isbn=978-1-4503-6577-2\|s2cid=59337140 }}</ref><ref>{{Cite journal \|last1=Syed \|first1=Abid Husain \|last2=Ali \|first2=Syed Zakir \|date=2021-08-11 \|title=Towards Transforming Agriculture for Challenges of 21st Century by Optimizing Resources Using IOT, Fuzzy Logic and Network Coding \|url=https://www.preprints.org/manuscript/202108.0262/v1 \|doi=10.20944/preprints202108.0262.v1\|s2cid=238723260 \|doi-access=free }}</ref><ref>{{Cite journal \|last1=Camilli \|first1=Alberto \|last2=Cugnasca \|first2=Carlos E. \|last3=Saraiva \|first3=Antonio M. \|last4=Hirakawa \|first4=André R. \|last5=Corrêa \|first5=Pedro L. P. \|date=2007-08-01 \|title=From wireless sensors to field mapping: Anatomy of an application for precision agriculture \|url=https://www.sciencedirect.com/science/article/pii/S0168169907000610 \|journal=Computers and Electronics in Agriculture \|series=Precision Agriculture in Latin America \|language=en \|volume=58 \|issue=1 \|pages=25–36 \|doi=10.1016/j.compag.2007.01.019 \|issn=0168-1699}}</ref>		* Agricultural sensor fields.<ref>{{Cite book \|last1=Hsu \|first1=Hsiao-Tzu \|last2=Wang \|first2=Tzu-Ming \|last3=Kuo \|first3=Yuan-Cheng \|title=Proceedings of the 2018 2nd International Conference on Education and E-Learning \|chapter=Implementation of Agricultural Monitoring System Based on the Internet of Things \|date=2018-11-05 \|chapter-url=https://doi.org/10.1145/3291078.3291098 \|series=ICEEL 2018 \|location=New York, NY, USA \|publisher=Association for Computing Machinery \|pages=212–216 \|doi=10.1145/3291078.3291098 \|isbn=978-1-4503-6577-2\|s2cid=59337140 }}</ref><ref>{{Cite journal \|last1=Camilli \|first1=Alberto \|last2=Cugnasca \|first2=Carlos E. \|last3=Saraiva \|first3=Antonio M. \|last4=Hirakawa \|first4=André R. \|last5=Corrêa \|first5=Pedro L. P. \|date=2007-08-01 \|title=From wireless sensors to field mapping: Anatomy of an application for precision agriculture \|url=https://www.sciencedirect.com/science/article/pii/S0168169907000610 \|journal=Computers and Electronics in Agriculture \|series=Precision Agriculture in Latin America \|language=en \|volume=58 \|issue=1 \|pages=25–36 \|doi=10.1016/j.compag.2007.01.019 \|issn=0168-1699}}</ref>
	* In-flight enterteinment networks.<ref>{{Cite patent\|number=US8401021B2\|title=Systems and methods for prioritizing wireless communication of aircraft\|gdate=2013-03-19\|invent1=Buga\|invent2=Trent\|inventor1-first=Wladyslaw Jan\|inventor2-first=Tracy Raymond\|url=https://patents.google.com/patent/US8401021B2/en}}</ref>		* In-flight enterteinment networks.<ref>{{Cite patent\|number=US8401021B2\|title=Systems and methods for prioritizing wireless communication of aircraft\|gdate=2013-03-19\|invent1=Buga\|invent2=Trent\|inventor1-first=Wladyslaw Jan\|inventor2-first=Tracy Raymond\|url=https://patents.google.com/patent/US8401021B2/en}}</ref>
	* Major security and firmware updates for mobile product families.<ref>{{Cite book \|last1=Tonyali \|first1=Samet \|last2=Akkaya \|first2=Kemal \|last3=Saputro \|first3=Nico \|last4=Cheng \|first4=Xiuzhen \|author4-link= Xiuzhen Cheng \|title=2017 26th International Conference on Computer Communication and Networks (ICCCN) \|chapter=An Attribute & Network Coding-Based Secure Multicast Protocol for Firmware Updates in Smart Grid AMI Networks \|date=July 2017 \|chapter-url=https://ieeexplore.ieee.org/document/8038415 \|location=Vancouver, BC, Canada \|publisher=IEEE \|pages=1–9 \|doi=10.1109/ICCCN.2017.8038415 \|isbn=978-1-5090-2991-4\|s2cid=25131878 }}</ref><ref>{{Cite book \|last1=Jalil \|first1=Syed Qaisar \|last2=Chalup \|first2=Stephan \|last3=Rehmani \|first3=Mubashir Husain \|title=Smart Grid and Internet of Things \|chapter=A Smart Meter Firmware Update Strategy Through Network Coding for AMI Network \|date=2019 \|editor-last=Pathan \|editor-first=Al-Sakib Khan \|editor2-last=Fadlullah \|editor2-first=Zubair Md. \|editor3-last=Guerroumi \|editor3-first=Mohamed \|chapter-url=https://link.springer.com/chapter/10.1007/978-3-030-05928-6_7 \|series=Lecture Notes of the Institute for Computer Sciences, Social Informatics and Telecommunications Engineering \|volume=256 \|language=en \|location=Cham \|publisher=Springer International Publishing \|pages=68–77 \|doi=10.1007/978-3-030-05928-6_7 \|isbn=978-3-030-05928-6\|s2cid=59561476 }}</ref>		* Major security and firmware updates for mobile product families.<ref>{{Cite book \|last1=Tonyali \|first1=Samet \|last2=Akkaya \|first2=Kemal \|last3=Saputro \|first3=Nico \|last4=Cheng \|first4=Xiuzhen \|author4-link= Xiuzhen Cheng \|title=2017 26th International Conference on Computer Communication and Networks (ICCCN) \|chapter=An Attribute & Network Coding-Based Secure Multicast Protocol for Firmware Updates in Smart Grid AMI Networks \|date=July 2017 \|chapter-url=https://ieeexplore.ieee.org/document/8038415 \|location=Vancouver, BC, Canada \|publisher=IEEE \|pages=1–9 \|doi=10.1109/ICCCN.2017.8038415 \|isbn=978-1-5090-2991-4\|s2cid=25131878 }}</ref><ref>{{Cite book \|last1=Jalil \|first1=Syed Qaisar \|last2=Chalup \|first2=Stephan \|last3=Rehmani \|first3=Mubashir Husain \|title=Smart Grid and Internet of Things \|chapter=A Smart Meter Firmware Update Strategy Through Network Coding for AMI Network \|date=2019 \|editor-last=Pathan \|editor-first=Al-Sakib Khan \|editor2-last=Fadlullah \|editor2-first=Zubair Md. \|editor3-last=Guerroumi \|editor3-first=Mohamed \|chapter-url=https://link.springer.com/chapter/10.1007/978-3-030-05928-6_7 \|series=Lecture Notes of the Institute for Computer Sciences, Social Informatics and Telecommunications Engineering \|volume=256 \|language=en \|location=Cham \|publisher=Springer International Publishing \|pages=68–77 \|doi=10.1007/978-3-030-05928-6_7 \|isbn=978-3-030-05928-6\|s2cid=59561476 }}</ref>

David Eppstein: swap out deadlink bare-url ref for apparently the same source, better formatted

2024-06-18T01:13:37Z

swap out deadlink bare-url ref for apparently the same source, better formatted

← Previous revision		Revision as of 01:13, 18 June 2024
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	{{Short description\|Computer Networking Program}}		{{Short description\|Computer Networking Program}}
			{{CS1 config\|mode=cs1}}
	In [[computer networking]], '''linear network coding''' is a program in which intermediate nodes transmit data from source nodes to sink nodes by means of [[linear combination]]s.		In [[computer networking]], '''linear network coding''' is a program in which intermediate nodes transmit data from source nodes to sink nodes by means of [[linear combination]]s.

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	* [[Information-centric networking]] and [[named data networking]].:<ref name="Bilal, Muhammad 2019 1376–1385">{{cite journal \|author=Bilal, Muhammad \|display-authors=etal \|year=2019 \|title=Network-Coding Approach for Information-Centric Networking \|journal=IEEE Systems Journal \|volume=13 \|issue=2 \|pages=1376–1385 \|arxiv=1808.00348 \|bibcode=2019ISysJ..13.1376B \|doi=10.1109/JSYST.2018.2862913 \|s2cid=51894197}}</ref> Linear network coding can improve the network efficiency of information-centric networking solutions by exploiting the multi-source multi-cast nature of such systems.<ref name="Bilal, Muhammad 2019 1376–1385" /> It has been shown, that RLNC can be integrated into distributed content delivery networks such as [[InterPlanetary File System\|IPFS]] to increase data availability while reducing storage resources.<ref>{{Cite book \|last1=Zimmermann \|first1=Sandra \|last2=Rischke \|first2=Justus \|last3=Cabrera \|first3=Juan A. \|last4=Fitzek \|first4=Frank H. P. \|title=GLOBECOM 2020 - 2020 IEEE Global Communications Conference \|chapter=Journey to MARS: Interplanetary Coding for relieving CDNS \|date=December 2020 \|chapter-url=https://ieeexplore.ieee.org/document/9322478 \|location=Taipei, Taiwan \|publisher=IEEE \|pages=1–6 \|doi=10.1109/GLOBECOM42002.2020.9322478 \|isbn=978-1-7281-8298-8\|s2cid=231725197 }}</ref>		* [[Information-centric networking]] and [[named data networking]].:<ref name="Bilal, Muhammad 2019 1376–1385">{{cite journal \|author=Bilal, Muhammad \|display-authors=etal \|year=2019 \|title=Network-Coding Approach for Information-Centric Networking \|journal=IEEE Systems Journal \|volume=13 \|issue=2 \|pages=1376–1385 \|arxiv=1808.00348 \|bibcode=2019ISysJ..13.1376B \|doi=10.1109/JSYST.2018.2862913 \|s2cid=51894197}}</ref> Linear network coding can improve the network efficiency of information-centric networking solutions by exploiting the multi-source multi-cast nature of such systems.<ref name="Bilal, Muhammad 2019 1376–1385" /> It has been shown, that RLNC can be integrated into distributed content delivery networks such as [[InterPlanetary File System\|IPFS]] to increase data availability while reducing storage resources.<ref>{{Cite book \|last1=Zimmermann \|first1=Sandra \|last2=Rischke \|first2=Justus \|last3=Cabrera \|first3=Juan A. \|last4=Fitzek \|first4=Frank H. P. \|title=GLOBECOM 2020 - 2020 IEEE Global Communications Conference \|chapter=Journey to MARS: Interplanetary Coding for relieving CDNS \|date=December 2020 \|chapter-url=https://ieeexplore.ieee.org/document/9322478 \|location=Taipei, Taiwan \|publisher=IEEE \|pages=1–6 \|doi=10.1109/GLOBECOM42002.2020.9322478 \|isbn=978-1-7281-8298-8\|s2cid=231725197 }}</ref>
	* Alternative to [[forward error correction]] and [[automatic repeat request]]s in traditional and wireless networks with packet loss, such as [[Coded TCP]]<ref>{{Cite arXiv \|eprint = 1212.2291\|last1 = Kim\|first1 = Minji\|title = Network Coded TCP (CTCP)\|class = cs.NI\|year = 2012}}</ref> and [[Multi-user ARQ]]<ref>{{Cite book \|last1=Larsson \|first1=P. \|last2=Johansson \|first2=N. \|title=2006 IEEE 63rd Vehicular Technology Conference \|chapter=Multi-User ARQ \|date=2006 \|chapter-url=https://ieeexplore.ieee.org/document/1683207 \|location=Melbourne, Australia \|publisher=IEEE \|volume=4 \|pages=2052–2057 \|doi=10.1109/VETECS.2006.1683207\|isbn=0-7803-9392-9 \|s2cid=38823300 }}</ref>		* Alternative to [[forward error correction]] and [[automatic repeat request]]s in traditional and wireless networks with packet loss, such as [[Coded TCP]]<ref>{{Cite arXiv \|eprint = 1212.2291\|last1 = Kim\|first1 = Minji\|title = Network Coded TCP (CTCP)\|class = cs.NI\|year = 2012}}</ref> and [[Multi-user ARQ]]<ref>{{Cite book \|last1=Larsson \|first1=P. \|last2=Johansson \|first2=N. \|title=2006 IEEE 63rd Vehicular Technology Conference \|chapter=Multi-User ARQ \|date=2006 \|chapter-url=https://ieeexplore.ieee.org/document/1683207 \|location=Melbourne, Australia \|publisher=IEEE \|volume=4 \|pages=2052–2057 \|doi=10.1109/VETECS.2006.1683207\|isbn=0-7803-9392-9 \|s2cid=38823300 }}</ref>
	* Protection against network attacks such as snooping, eavesdropping, replay, or data corruption.<ref>{{Cite web \|title=Welcome to Network Coding Security - Secure Network Coding \|url=http://securenetworkcoding.wikidot.com/ \|access-date=26 March 2022 \|website=securenetworkcoding.wikidot.com}}</ref><ref>~~http://home.eng.iastate.edu/~yuzhen/publications/ZhenYu_INFOCOM_2008.pdf~~{{~~dead~~ ~~link~~\|~~date=December~~ ~~2017~~ ~~\|bot~~=~~InternetArchiveBot~~ \|~~fix-attempted=yes~~ ~~}}<nowiki/>{{Dead~~ ~~link\|date~~=~~March~~ ~~2022}}</ref>~~		* Protection against network attacks such as snooping, eavesdropping, replay, or data corruption.<ref>{{Cite web \|title=Welcome to Network Coding Security - Secure Network Coding \|url=http://securenetworkcoding.wikidot.com/ \|access-date=26 March 2022 \|website=securenetworkcoding.wikidot.com}}</ref><ref>{{cite conference
			\| last1 = Yu \| first1 = Zhen
			\| last2 = Wei \| first2 = Yawen
			\| last3 = Ramkumar \| first3 = Bhuvaneswari
			\| last4 = Guan \| first4 = Yong
			\| contribution = An efficient signature-based scheme for securing network coding against pollution attacks
			\| contribution-url = https://scholar.archive.org/work/keidxnnwaffnrouhg25c5l3ybi
			\| doi = 10.1109/INFOCOM.2008.199
			\| pages = 1409–1417
			\| publisher = IEEE
			\| title = INFOCOM 2008. 27th IEEE International Conference on Computer Communications, Joint Conference of the IEEE Computer and Communications Societies, 13–18 April 2008, Phoenix, AZ, USA
			\| year = 2008}}</ref>
	* Digital file distribution and P2P file sharing, e.g. [[Avalanche filesystem]] from Microsoft		* Digital file distribution and P2P file sharing, e.g. [[Avalanche filesystem]] from Microsoft
	* Distributed storage<ref name="Bilal, Muhammad 2019 1376–1385" /><ref>{{Cite web \|last1=Acedański \|first1=Szymon \|last2=Deb \|first2=Supratim \|last3=Médard \|first3=Muriel \|last4=Koetter \|first4=Ralf \|title=How Good is Random Linear Coding Based Distributed Networked Storage? \|url=http://web.mit.edu/~medard/www/page2/mpapers/netcod2005_accek.pdf \|access-date=26 March 2022 \|website=web.mit.edu}}</ref><ref>{{Cite arXiv \|eprint = cs/0702015\|last1 = Dimakis\|first1 = Alexandros\|title = Network Coding for Distributed Storage Systems\|year = 2007}}</ref>		* Distributed storage<ref name="Bilal, Muhammad 2019 1376–1385" /><ref>{{Cite web \|last1=Acedański \|first1=Szymon \|last2=Deb \|first2=Supratim \|last3=Médard \|first3=Muriel \|last4=Koetter \|first4=Ralf \|title=How Good is Random Linear Coding Based Distributed Networked Storage? \|url=http://web.mit.edu/~medard/www/page2/mpapers/netcod2005_accek.pdf \|access-date=26 March 2022 \|website=web.mit.edu}}</ref><ref>{{Cite arXiv \|eprint = cs/0702015\|last1 = Dimakis\|first1 = Alexandros\|title = Network Coding for Distributed Storage Systems\|year = 2007}}</ref>

Citation bot: Altered title. | Use this bot. Report bugs. | Suggested by Dominic3203 | Category:Information theory | #UCB_Category 75/202

2024-05-15T06:04:47Z

Altered title. | Use this bot. Report bugs. | Suggested by Dominic3203 | Category:Information theory | #UCB_Category 75/202

← Previous revision		Revision as of 06:04, 15 May 2024
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	* Distributed file sharing<ref>{{Cite journal \|last1=Firooz \|first1=Mohammad Hamed \|last2=Roy \|first2=Sumit \|date=24 March 2012 \|title=Data Dissemination in Wireless Networks with Network Coding \|journal=IEEE Communications Letters \|volume=17 \|issue=5 \|pages=944–947 \|doi=10.1109/LCOMM.2013.031313.121994 \|arxiv=1203.5395 \|s2cid=13576 \|issn=1089-7798}}</ref>		* Distributed file sharing<ref>{{Cite journal \|last1=Firooz \|first1=Mohammad Hamed \|last2=Roy \|first2=Sumit \|date=24 March 2012 \|title=Data Dissemination in Wireless Networks with Network Coding \|journal=IEEE Communications Letters \|volume=17 \|issue=5 \|pages=944–947 \|doi=10.1109/LCOMM.2013.031313.121994 \|arxiv=1203.5395 \|s2cid=13576 \|issn=1089-7798}}</ref>
	* Low-complexity video streaming to mobile device<ref>{{Cite journal \|last1=Fiandrotti \|first1=Attilio \|last2=Bioglio \|first2=Valerio \|last3=Grangetto \|first3=Marco \|last4=Gaeta \|first4=Rossano \|last5=Magli \|first5=Enrico \|date=11 October 2013 \|title=Band Codes for Energy-Efficient Network Coding With Application to P2P Mobile Streaming \|url=https://ieeexplore.ieee.org/document/6630050 \|journal=IEEE Transactions on Multimedia \|volume=16 \|issue=2 \|pages=521–532 \|doi=10.1109/TMM.2013.2285518 \|arxiv=1309.0316 \|s2cid=10548996 \|issn=1941-0077}}</ref>		* Low-complexity video streaming to mobile device<ref>{{Cite journal \|last1=Fiandrotti \|first1=Attilio \|last2=Bioglio \|first2=Valerio \|last3=Grangetto \|first3=Marco \|last4=Gaeta \|first4=Rossano \|last5=Magli \|first5=Enrico \|date=11 October 2013 \|title=Band Codes for Energy-Efficient Network Coding With Application to P2P Mobile Streaming \|url=https://ieeexplore.ieee.org/document/6630050 \|journal=IEEE Transactions on Multimedia \|volume=16 \|issue=2 \|pages=521–532 \|doi=10.1109/TMM.2013.2285518 \|arxiv=1309.0316 \|s2cid=10548996 \|issn=1941-0077}}</ref>
	* [[Device-to-device]] extensions<ref>{{Cite book \|last1=Wu \|first1=Yue \|last2=Liu \|first2=Wuling \|last3=Wang \|first3=Siyi \|last4=Guo \|first4=Weisi \|last5=Chu \|first5=Xiaoli \|title=2015 IEEE International Conference on Communications (ICC) \|chapter=Network coding in device-to-device (D2D) communications underlaying cellular networks \|date=June 2015 \|chapter-url=https://ieeexplore.ieee.org/document/7248631 \|pages=2072–2077 \|doi=10.1109/ICC.2015.7248631\|isbn=978-1-4673-6432-4 \|s2cid=19637201 }}</ref><ref>{{Cite book \|last1=Zhao \|first1=Yulei \|last2=Li \|first2=Yong \|last3=Ge \|first3=Ning \|title=2015 IEEE Global Communications Conference (GLOBECOM) \|chapter=Physical Layer Network Coding Aided Two-Way Device-to-Device Communication Underlaying Cellular Networks \|date=December 2015 \|chapter-url=https://ieeexplore.ieee.org/document/7417590 \|pages=1–6 \|doi=10.1109/GLOCOM.2015.7417590\|isbn=978-1-4799-5952-5 }}</ref><ref>{{Cite book \|last1=Abrardo \|first1=Andrea \|last2=Fodor \|first2=Gábor \|last3=Tola \|first3=Besmir \|title=2015 IEEE 16th International Workshop on Signal Processing Advances in Wireless Communications (SPAWC) \|chapter=Network coding schemes for Device-to-Device communications based relaying for cellular coverage extension \|date=2015 \|chapter-url=http://www.diva-portal.org/smash/get/diva2:795210/FULLTEXT01.pdf \|pages=670–674 \|doi=10.1109/SPAWC.2015.7227122\|isbn=978-1-4799-1931-4 \|s2cid=9591953 \|url=http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-160505 }}</ref><ref>{{Cite journal \|last1=Gao \|first1=Chuhan \|last2=Li \|first2=Yong \|last3=Zhao \|first3=Yulei \|last4=Chen \|first4=Sheng \|date=October 2017 \|title=A Two-Level Game Theory Approach for Joint Relay Selection and Resource Allocation in Network Coding Assisted D2D Communications \|url=https://eprints.soton.ac.uk/414039/1/NC_D2D.pdf \|journal=IEEE Transactions on Mobile Computing \|volume=16 \|issue=10 \|pages=2697–2711 \|doi=10.1109/TMC.2016.2642190 \|s2cid=22233426 \|issn=1558-0660}}</ref><ref>{{Cite journal \|last1=Zhou \|first1=Ting \|last2=Xu \|first2=Bin \|last3=Xu \|first3=Tianheng \|last4=Hu \|first4=Honglin \|last5=Xiong \|first5=Lei \|date=1 February 2015 \|title=~~User‐specific~~ link adaptation scheme for ~~device‐to‐device~~ network coding multicast \|journal=IET Communications \|volume=9 \|issue=3 \|pages=367–374 \|doi=10.1049/iet-com.2014.0323 \|s2cid=27108894 \|issn=1751-8636\|doi-access=free }}</ref>		* [[Device-to-device]] extensions<ref>{{Cite book \|last1=Wu \|first1=Yue \|last2=Liu \|first2=Wuling \|last3=Wang \|first3=Siyi \|last4=Guo \|first4=Weisi \|last5=Chu \|first5=Xiaoli \|title=2015 IEEE International Conference on Communications (ICC) \|chapter=Network coding in device-to-device (D2D) communications underlaying cellular networks \|date=June 2015 \|chapter-url=https://ieeexplore.ieee.org/document/7248631 \|pages=2072–2077 \|doi=10.1109/ICC.2015.7248631\|isbn=978-1-4673-6432-4 \|s2cid=19637201 }}</ref><ref>{{Cite book \|last1=Zhao \|first1=Yulei \|last2=Li \|first2=Yong \|last3=Ge \|first3=Ning \|title=2015 IEEE Global Communications Conference (GLOBECOM) \|chapter=Physical Layer Network Coding Aided Two-Way Device-to-Device Communication Underlaying Cellular Networks \|date=December 2015 \|chapter-url=https://ieeexplore.ieee.org/document/7417590 \|pages=1–6 \|doi=10.1109/GLOCOM.2015.7417590\|isbn=978-1-4799-5952-5 }}</ref><ref>{{Cite book \|last1=Abrardo \|first1=Andrea \|last2=Fodor \|first2=Gábor \|last3=Tola \|first3=Besmir \|title=2015 IEEE 16th International Workshop on Signal Processing Advances in Wireless Communications (SPAWC) \|chapter=Network coding schemes for Device-to-Device communications based relaying for cellular coverage extension \|date=2015 \|chapter-url=http://www.diva-portal.org/smash/get/diva2:795210/FULLTEXT01.pdf \|pages=670–674 \|doi=10.1109/SPAWC.2015.7227122\|isbn=978-1-4799-1931-4 \|s2cid=9591953 \|url=http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-160505 }}</ref><ref>{{Cite journal \|last1=Gao \|first1=Chuhan \|last2=Li \|first2=Yong \|last3=Zhao \|first3=Yulei \|last4=Chen \|first4=Sheng \|date=October 2017 \|title=A Two-Level Game Theory Approach for Joint Relay Selection and Resource Allocation in Network Coding Assisted D2D Communications \|url=https://eprints.soton.ac.uk/414039/1/NC_D2D.pdf \|journal=IEEE Transactions on Mobile Computing \|volume=16 \|issue=10 \|pages=2697–2711 \|doi=10.1109/TMC.2016.2642190 \|s2cid=22233426 \|issn=1558-0660}}</ref><ref>{{Cite journal \|last1=Zhou \|first1=Ting \|last2=Xu \|first2=Bin \|last3=Xu \|first3=Tianheng \|last4=Hu \|first4=Honglin \|last5=Xiong \|first5=Lei \|date=1 February 2015 \|title=User-specific link adaptation scheme for device-to-device network coding multicast \|journal=IET Communications \|volume=9 \|issue=3 \|pages=367–374 \|doi=10.1049/iet-com.2014.0323 \|s2cid=27108894 \|issn=1751-8636\|doi-access=free }}</ref>

	== See also ==		== See also ==

BD2412: clean up spacing around commas and other punctuation fixes, replaced: ,C → , C, ; → ;

2024-04-08T23:38:56Z

clean up spacing around commas and other punctuation fixes, replaced: ,C → , C, ; → ;

← Previous revision		Revision as of 23:38, 8 April 2024
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	* Remote vehicle driving applications.<ref>{{Cite book \|last1=De Jonckere \|first1=Olivier \|last2=Chorin \|first2=Jean \|last3=Feldmann \|first3=Marius \|title=2017 6th International Conference on Space Mission Challenges for Information Technology (SMC-IT) \|chapter=Simulation Environment for Network Coding Research in Ring Road Networks \|date=September 2017 \|chapter-url=https://ieeexplore.ieee.org/document/8227552 \|location=Alcala de Henares \|publisher=IEEE \|pages=128–131 \|doi=10.1109/SMC-IT.2017.29 \|isbn=978-1-5386-3462-2\|s2cid=6180560 }}</ref><ref>{{Cite journal \|last1=Jamil \|first1=Farhan \|last2=Javaid \|first2=Anam \|last3=Umer \|first3=Tariq \|last4=Rehmani \|first4=Mubashir Husain \|date=November 2017 \|title=A comprehensive survey of network coding in vehicular ad-hoc networks \|url=http://link.springer.com/10.1007/s11276-016-1294-z \|journal=Wireless Networks \|language=en \|volume=23 \|issue=8 \|pages=2395–2414 \|doi=10.1007/s11276-016-1294-z \|s2cid=13624914 \|issn=1022-0038}}</ref><ref>{{Cite journal \|last1=Park \|first1=Joon-Sang \|last2=Lee \|first2=Uichin \|last3=Gerla \|first3=Mario \|date=May 2010 \|title=Vehicular communications: emergency video streams and network coding \|journal=Journal of Internet Services and Applications \|language=en \|volume=1 \|issue=1 \|pages=57–68 \|doi=10.1007/s13174-010-0006-7 \|s2cid=2143201 \|issn=1867-4828\|doi-access=free }}</ref><ref>{{cite arXiv \|last1=Noor-A-Rahim \|first1=Md \|last2=Liu \|first2=Zilong \|last3=Lee \|first3=Haeyoung \|last4=Khyam \|first4=M. Omar \|last5=He \|first5=Jianhua \|last6=Pesch \|first6=Dirk \|last7=Moessner \|first7=Klaus \|last8=Saad \|first8=Walid \|last9=Poor \|first9=H. Vincent \|date=2022-05-01 \|title=6G for Vehicle-to-Everything (V2X) Communications: Enabling Technologies, Challenges, and Opportunities \|class=cs.IT \|eprint=2012.07753}}</ref>		* Remote vehicle driving applications.<ref>{{Cite book \|last1=De Jonckere \|first1=Olivier \|last2=Chorin \|first2=Jean \|last3=Feldmann \|first3=Marius \|title=2017 6th International Conference on Space Mission Challenges for Information Technology (SMC-IT) \|chapter=Simulation Environment for Network Coding Research in Ring Road Networks \|date=September 2017 \|chapter-url=https://ieeexplore.ieee.org/document/8227552 \|location=Alcala de Henares \|publisher=IEEE \|pages=128–131 \|doi=10.1109/SMC-IT.2017.29 \|isbn=978-1-5386-3462-2\|s2cid=6180560 }}</ref><ref>{{Cite journal \|last1=Jamil \|first1=Farhan \|last2=Javaid \|first2=Anam \|last3=Umer \|first3=Tariq \|last4=Rehmani \|first4=Mubashir Husain \|date=November 2017 \|title=A comprehensive survey of network coding in vehicular ad-hoc networks \|url=http://link.springer.com/10.1007/s11276-016-1294-z \|journal=Wireless Networks \|language=en \|volume=23 \|issue=8 \|pages=2395–2414 \|doi=10.1007/s11276-016-1294-z \|s2cid=13624914 \|issn=1022-0038}}</ref><ref>{{Cite journal \|last1=Park \|first1=Joon-Sang \|last2=Lee \|first2=Uichin \|last3=Gerla \|first3=Mario \|date=May 2010 \|title=Vehicular communications: emergency video streams and network coding \|journal=Journal of Internet Services and Applications \|language=en \|volume=1 \|issue=1 \|pages=57–68 \|doi=10.1007/s13174-010-0006-7 \|s2cid=2143201 \|issn=1867-4828\|doi-access=free }}</ref><ref>{{cite arXiv \|last1=Noor-A-Rahim \|first1=Md \|last2=Liu \|first2=Zilong \|last3=Lee \|first3=Haeyoung \|last4=Khyam \|first4=M. Omar \|last5=He \|first5=Jianhua \|last6=Pesch \|first6=Dirk \|last7=Moessner \|first7=Klaus \|last8=Saad \|first8=Walid \|last9=Poor \|first9=H. Vincent \|date=2022-05-01 \|title=6G for Vehicle-to-Everything (V2X) Communications: Enabling Technologies, Challenges, and Opportunities \|class=cs.IT \|eprint=2012.07753}}</ref>
	* [[Connected cars]] networks.<ref>{{Cite book \|last1=Achour \|first1=Imen \|last2=Bejaoui \|first2=Tarek \|last3=Busson \|first3=Anthony \|last4=Tabbane \|first4=Sami \|title=2017 IEEE International Conference on Communications Workshops (ICC Workshops) \|chapter=Network Coding scheme behavior in a Vehicle-to-Vehicle safety message dissemination \|date=October 2017 \|chapter-url=https://ieeexplore.ieee.org/document/7962697 \|location=Paris, France \|publisher=IEEE \|pages=441–446 \|doi=10.1109/ICCW.2017.7962697 \|isbn=978-1-5090-1525-2\|s2cid=22423560 }}</ref><ref>{{Cite journal \|last1=Wang \|first1=Shujuan \|last2=Lu \|first2=Shuguang \|last3=Zhang \|first3=Qian \|date=April 2019 \|title=Instantly decodable network coding–assisted data dissemination for prioritized services in vehicular ad hoc networks \|journal=International Journal of Distributed Sensor Networks \|language=en \|volume=15 \|issue=4 \|pages=155014771984213 \|doi=10.1177/1550147719842137 \|s2cid=145983739 \|issn=1550-1477\|doi-access=free }}</ref>		* [[Connected cars]] networks.<ref>{{Cite book \|last1=Achour \|first1=Imen \|last2=Bejaoui \|first2=Tarek \|last3=Busson \|first3=Anthony \|last4=Tabbane \|first4=Sami \|title=2017 IEEE International Conference on Communications Workshops (ICC Workshops) \|chapter=Network Coding scheme behavior in a Vehicle-to-Vehicle safety message dissemination \|date=October 2017 \|chapter-url=https://ieeexplore.ieee.org/document/7962697 \|location=Paris, France \|publisher=IEEE \|pages=441–446 \|doi=10.1109/ICCW.2017.7962697 \|isbn=978-1-5090-1525-2\|s2cid=22423560 }}</ref><ref>{{Cite journal \|last1=Wang \|first1=Shujuan \|last2=Lu \|first2=Shuguang \|last3=Zhang \|first3=Qian \|date=April 2019 \|title=Instantly decodable network coding–assisted data dissemination for prioritized services in vehicular ad hoc networks \|journal=International Journal of Distributed Sensor Networks \|language=en \|volume=15 \|issue=4 \|pages=155014771984213 \|doi=10.1177/1550147719842137 \|s2cid=145983739 \|issn=1550-1477\|doi-access=free }}</ref>
	* Gaming applications such as low latency streaming and multiplayer connectivity.<ref>{{cite arXiv \|last1=Dammak \|first1=Marwa \|last2=Andriyanova \|first2=Iryna \|last3=Boujelben \|first3=Yassine \|last4=Sellami \|first4=Noura \|date=2018-03-29 \|title=Routing and Network Coding over a Cyclic Network for Online Video Gaming \|class=cs.IT \|eprint=1803.11102 }}</ref><ref>{{Cite book \|last1=Lajtha \|first1=Balázs \|last2=Biczók \|first2=Gergely \|last3=Szabó \|first3=Róbert \|title=Networked Services and Applications - Engineering, Control and Management \|chapter=Enabling P2P Gaming with Network Coding \|date=2010 \|editor-last=Aagesen \|editor-first=Finn Arve \|editor2-last=Knapskog \|editor2-first=Svein Johan \|series=Lecture Notes in Computer Science \|volume=6164 \|language=en \|location=Berlin, Heidelberg \|publisher=Springer \|pages=76–86 \|doi=10.1007/978-3-642-13971-0_8 \|isbn=978-3-642-13971-0\|doi-access=free }}</ref><ref>{{Cite thesis \|title=Network coding application for online games platformes \|url=https://tel.archives-ouvertes.fr/tel-02284091 \|publisher=Université de Cergy Pontoise ; École nationale d'ingénieurs de Sfax (Tunisie) \|date=2018-11-20 \|degree=phdthesis \|language=en \|first=Marwa \|last=Dammak}}</ref><ref>{{Citation \|last1=Lajtha \|first1=Balázs \|title=Enabling P2P Gaming with Network Coding \|date=2010 \|work=Networked Services and Applications - Engineering, Control and Management \|volume=6164 \|pages=76–86 \|editor-last=Aagesen \|editor-first=Finn Arve \|place=Berlin, Heidelberg \|publisher=Springer Berlin Heidelberg \|doi=10.1007/978-3-642-13971-0_8 \|isbn=978-3-642-13970-3 \|last2=Biczók \|first2=Gergely \|last3=Szabó \|first3=Róbert \|series=Lecture Notes in Computer Science \|editor2-last=Knapskog \|editor2-first=Svein Johan\|doi-access=free }}</ref>		* Gaming applications such as low latency streaming and multiplayer connectivity.<ref>{{cite arXiv \|last1=Dammak \|first1=Marwa \|last2=Andriyanova \|first2=Iryna \|last3=Boujelben \|first3=Yassine \|last4=Sellami \|first4=Noura \|date=2018-03-29 \|title=Routing and Network Coding over a Cyclic Network for Online Video Gaming \|class=cs.IT \|eprint=1803.11102 }}</ref><ref>{{Cite book \|last1=Lajtha \|first1=Balázs \|last2=Biczók \|first2=Gergely \|last3=Szabó \|first3=Róbert \|title=Networked Services and Applications - Engineering, Control and Management \|chapter=Enabling P2P Gaming with Network Coding \|date=2010 \|editor-last=Aagesen \|editor-first=Finn Arve \|editor2-last=Knapskog \|editor2-first=Svein Johan \|series=Lecture Notes in Computer Science \|volume=6164 \|language=en \|location=Berlin, Heidelberg \|publisher=Springer \|pages=76–86 \|doi=10.1007/978-3-642-13971-0_8 \|isbn=978-3-642-13971-0\|doi-access=free }}</ref><ref>{{Cite thesis \|title=Network coding application for online games platformes \|url=https://tel.archives-ouvertes.fr/tel-02284091 \|publisher=Université de Cergy Pontoise; École nationale d'ingénieurs de Sfax (Tunisie) \|date=2018-11-20 \|degree=phdthesis \|language=en \|first=Marwa \|last=Dammak}}</ref><ref>{{Citation \|last1=Lajtha \|first1=Balázs \|title=Enabling P2P Gaming with Network Coding \|date=2010 \|work=Networked Services and Applications - Engineering, Control and Management \|volume=6164 \|pages=76–86 \|editor-last=Aagesen \|editor-first=Finn Arve \|place=Berlin, Heidelberg \|publisher=Springer Berlin Heidelberg \|doi=10.1007/978-3-642-13971-0_8 \|isbn=978-3-642-13970-3 \|last2=Biczók \|first2=Gergely \|last3=Szabó \|first3=Róbert \|series=Lecture Notes in Computer Science \|editor2-last=Knapskog \|editor2-first=Svein Johan\|doi-access=free }}</ref>
	* Healthcare applications.<ref>{{Cite book \|url=https://www.worldcat.org/oclc/881429695 \|title=Sensor networks for sustainable development \|date=2014 \|first1=Mohammad \|last1=Ilyas \|first2=Sami S. \|last2=Alwakeel \|first3=Mohammed M. \|last3=Alwakeel \|first4=el-Hadi M. \|last4=Aggoune \|isbn=978-1-4665-8207-1 \|location=Boca Raton, FL \|chapter=Exploiting Network Coding for Smart Healthcare \|doi=10.1201/b17124-13 \|oclc=881429695 \|chapter-url=https://www.taylorfrancis.com/chapters/edit/10.1201/b17124-13/exploiting-network-coding-smart-healthcare-elli-kartsakli-angelos-antonopoulos-christos-verikoukis}}</ref><ref>{{Cite journal \|last1=Kartsakli \|first1=Elli \|last2=Antonopoulos \|first2=Angelos \|last3=Alonso \|first3=Luis \|last4=Verikoukis \|first4=Christos \|date=2014-03-10 \|title=A Cloud-Assisted Random Linear Network Coding Medium Access Control Protocol for Healthcare Applications \|journal=Sensors \|language=en \|volume=14 \|issue=3 \|pages=4806–4830 \|doi=10.3390/s140304806 \|issn=1424-8220 \|pmc=4003969 \|pmid=24618727\|bibcode=2014Senso..14.4806K \|doi-access=free }}</ref><ref>{{Cite book \|last1=Taparugssanagorn \|first1=Attaphongse \|last2=Ono \|first2=Fumie \|last3=Kohno \|first3=Ryuji \|title=2010 IEEE 21st International Symposium on Personal, Indoor and Mobile Radio Communications Workshops \|chapter=Network coding for non-invasive Wireless Body Area Networks \|date=September 2010 \|chapter-url=https://ieeexplore.ieee.org/document/5670413 \|pages=134–138 \|doi=10.1109/PIMRCW.2010.5670413\|isbn=978-1-4244-9117-9 \|s2cid=25872472 }}</ref>		* Healthcare applications.<ref>{{Cite book \|url=https://www.worldcat.org/oclc/881429695 \|title=Sensor networks for sustainable development \|date=2014 \|first1=Mohammad \|last1=Ilyas \|first2=Sami S. \|last2=Alwakeel \|first3=Mohammed M. \|last3=Alwakeel \|first4=el-Hadi M. \|last4=Aggoune \|isbn=978-1-4665-8207-1 \|location=Boca Raton, FL \|chapter=Exploiting Network Coding for Smart Healthcare \|doi=10.1201/b17124-13 \|oclc=881429695 \|chapter-url=https://www.taylorfrancis.com/chapters/edit/10.1201/b17124-13/exploiting-network-coding-smart-healthcare-elli-kartsakli-angelos-antonopoulos-christos-verikoukis}}</ref><ref>{{Cite journal \|last1=Kartsakli \|first1=Elli \|last2=Antonopoulos \|first2=Angelos \|last3=Alonso \|first3=Luis \|last4=Verikoukis \|first4=Christos \|date=2014-03-10 \|title=A Cloud-Assisted Random Linear Network Coding Medium Access Control Protocol for Healthcare Applications \|journal=Sensors \|language=en \|volume=14 \|issue=3 \|pages=4806–4830 \|doi=10.3390/s140304806 \|issn=1424-8220 \|pmc=4003969 \|pmid=24618727\|bibcode=2014Senso..14.4806K \|doi-access=free }}</ref><ref>{{Cite book \|last1=Taparugssanagorn \|first1=Attaphongse \|last2=Ono \|first2=Fumie \|last3=Kohno \|first3=Ryuji \|title=2010 IEEE 21st International Symposium on Personal, Indoor and Mobile Radio Communications Workshops \|chapter=Network coding for non-invasive Wireless Body Area Networks \|date=September 2010 \|chapter-url=https://ieeexplore.ieee.org/document/5670413 \|pages=134–138 \|doi=10.1109/PIMRCW.2010.5670413\|isbn=978-1-4244-9117-9 \|s2cid=25872472 }}</ref>
	* [[Fourth Industrial Revolution\|Industry 4.0]].<ref>{{Cite book \|last1=Peralta \|first1=Goiuri \|last2=Iglesias-Urkia \|first2=Markel \|last3=Barcelo \|first3=Marc \|last4=Gomez \|first4=Raul \|last5=Moran \|first5=Adrian \|last6=Bilbao \|first6=Josu \|title=2017 IEEE International Workshop of Electronics, Control, Measurement, Signals and their Application to Mechatronics (ECMSM) \|chapter=Fog computing based efficient IoT scheme for the Industry 4.0 \|date=May 2017 \|chapter-url=https://ieeexplore.ieee.org/document/7945879 \|location=Donostia, San Sebastian, Spain \|publisher=IEEE \|pages=1–6 \|doi=10.1109/ECMSM.2017.7945879 \|isbn=978-1-5090-5582-1\|s2cid=37985560 }}</ref><ref>{{Cite journal \|last1=Peralta \|first1=Goiuri \|last2=Garrido \|first2=Pablo \|last3=Bilbao \|first3=Josu \|last4=Agüero \|first4=Ramón \|last5=Crespo \|first5=Pedro \|date=2019-04-08 \|title=On the Combination of Multi-Cloud and Network Coding for Cost-Efficient Storage in Industrial Applications \|journal=Sensors \|language=en \|volume=19 \|issue=7 \|pages=1673 \|doi=10.3390/s19071673 \|issn=1424-8220 \|pmc=6479523 \|pmid=30965629\|bibcode=2019Senso..19.1673P \|doi-access=free }}</ref><ref>{{Cite book \|last1=Zverev \|first1=Mihail \|last2=Agüero \|first2=Ramón \|last3=Garrido \|first3=Pablo \|last4=Bilbao \|first4=Josu \|title=Proceedings of the 9th International Conference on the Internet of Things \|chapter=Network Coding for IIoT Multi-Cloud Environments \|date=2019-10-22 \|chapter-url=https://doi.org/10.1145/3365871.3365903 \|series=IoT 2019 \|location=New York, NY, USA \|publisher=Association for Computing Machinery \|pages=1–4 \|doi=10.1145/3365871.3365903 \|isbn=978-1-4503-7207-7\|s2cid=207940281 }}</ref>		* [[Fourth Industrial Revolution\|Industry 4.0]].<ref>{{Cite book \|last1=Peralta \|first1=Goiuri \|last2=Iglesias-Urkia \|first2=Markel \|last3=Barcelo \|first3=Marc \|last4=Gomez \|first4=Raul \|last5=Moran \|first5=Adrian \|last6=Bilbao \|first6=Josu \|title=2017 IEEE International Workshop of Electronics, Control, Measurement, Signals and their Application to Mechatronics (ECMSM) \|chapter=Fog computing based efficient IoT scheme for the Industry 4.0 \|date=May 2017 \|chapter-url=https://ieeexplore.ieee.org/document/7945879 \|location=Donostia, San Sebastian, Spain \|publisher=IEEE \|pages=1–6 \|doi=10.1109/ECMSM.2017.7945879 \|isbn=978-1-5090-5582-1\|s2cid=37985560 }}</ref><ref>{{Cite journal \|last1=Peralta \|first1=Goiuri \|last2=Garrido \|first2=Pablo \|last3=Bilbao \|first3=Josu \|last4=Agüero \|first4=Ramón \|last5=Crespo \|first5=Pedro \|date=2019-04-08 \|title=On the Combination of Multi-Cloud and Network Coding for Cost-Efficient Storage in Industrial Applications \|journal=Sensors \|language=en \|volume=19 \|issue=7 \|pages=1673 \|doi=10.3390/s19071673 \|issn=1424-8220 \|pmc=6479523 \|pmid=30965629\|bibcode=2019Senso..19.1673P \|doi-access=free }}</ref><ref>{{Cite book \|last1=Zverev \|first1=Mihail \|last2=Agüero \|first2=Ramón \|last3=Garrido \|first3=Pablo \|last4=Bilbao \|first4=Josu \|title=Proceedings of the 9th International Conference on the Internet of Things \|chapter=Network Coding for IIoT Multi-Cloud Environments \|date=2019-10-22 \|chapter-url=https://doi.org/10.1145/3365871.3365903 \|series=IoT 2019 \|location=New York, NY, USA \|publisher=Association for Computing Machinery \|pages=1–4 \|doi=10.1145/3365871.3365903 \|isbn=978-1-4503-7207-7\|s2cid=207940281 }}</ref>

Neutronstar2: /* Misconceptions */

2024-01-02T18:13:46Z

Misconceptions

← Previous revision		Revision as of 18:13, 2 January 2024
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	Linear network coding is still a relatively new subject. However, the topic has been vastly researched over the last twenty years. Nevertheless, there are still some misconceptions that are no longer valid:		Linear network coding is still a relatively new subject. However, the topic has been vastly researched over the last twenty years. Nevertheless, there are still some misconceptions that are no longer valid:

	'''Decoding computational complexity:''' Network coding decoders have been improved over the years. Nowadays, the algorithms are highly efficient and parallelizable. In 2016, in i5 processors with [[Single instruction, multiple data\|SIMD]] instructions enabled, the decoding goodput of network coding was 750 MB/s for a generation size of 16 packets and 250 MB/s for a generation size of 64 packets.<ref>{{Cite book \|last1=Sørensen \|first1=Chres W. \|last2=Paramanathan \|first2=Achuthan \|last3=Cabrera \|first3=Juan A. \|last4=Pedersen \|first4=Morten V. \|last5=Lucani \|first5=Daniel E. \|last6=Fitzek \|first6=Frank H.P. \|title=2016 IEEE Wireless Communications and Networking Conference \|chapter=Leaner and meaner: Network coding in SIMD enabled commercial devices \|date=April 2016 \|chapter-url=https://www.researchgate.net/publication/314198052 \|pages=1–6 \|doi=10.1109/WCNC.2016.7565066\|isbn=978-1-4673-9814-5 \|s2cid=10468008 \|archive-url=https://web.archive.org/web/20220408093330/https://www.researchgate.net/profile/Chres-Sorensen/publication/314198052_Leaner_and_Meaner_Network_Coding_in_SIMD_Enabled_Commercial_Devices/links/5a008b894585159634bafaa8/Leaner-and-Meaner-Network-Coding-in-SIMD-Enabled-Commercial-Devices.pdf \|archive-date=2022-04-08 }}</ref> Furthermore, today's algorithms can be vastly parallelizable, increasing the encoding and decoding goodput even further.<ref>{{Cite journal \|last1=Wunderlich \|first1=Simon \|last2=Cabrera \|first2=Juan A. \|last3=Fitzek \|first3=Frank H. P. \|last4=Reisslein \|first4=Martin \|date=August 2017 \|title=Network Coding in Heterogeneous Multicore IoT Nodes With DAG Scheduling of Parallel Matrix Block Operations \|url=https://faculty.engineering.asu.edu/mre/wp-content/uploads/sites/31/2020/04/NCMC.pdf \|journal=IEEE Internet of Things Journal \|volume=4 \|issue=4 \|pages=917–933 \|doi=10.1109/JIOT.2017.2703813 \|s2cid=30243498 \|issn=2327-4662 \|archive-url=https://web.archive.org/web/20220408140133/https://faculty.engineering.asu.edu/mre/wp-content/uploads/sites/31/2020/04/NCMC.pdf \|archive-date=8 Apr 2022}}</ref>		'''Decoding computational complexity:''' Network coding decoders have been improved over the years. Nowadays, the algorithms are highly efficient and parallelizable. In 2016, with Intel Core i5 processors with [[Single instruction, multiple data\|SIMD]] instructions enabled, the decoding goodput of network coding was 750 MB/s for a generation size of 16 packets and 250 MB/s for a generation size of 64 packets.<ref>{{Cite book \|last1=Sørensen \|first1=Chres W. \|last2=Paramanathan \|first2=Achuthan \|last3=Cabrera \|first3=Juan A. \|last4=Pedersen \|first4=Morten V. \|last5=Lucani \|first5=Daniel E. \|last6=Fitzek \|first6=Frank H.P. \|title=2016 IEEE Wireless Communications and Networking Conference \|chapter=Leaner and meaner: Network coding in SIMD enabled commercial devices \|date=April 2016 \|chapter-url=https://www.researchgate.net/publication/314198052 \|pages=1–6 \|doi=10.1109/WCNC.2016.7565066\|isbn=978-1-4673-9814-5 \|s2cid=10468008 \|archive-url=https://web.archive.org/web/20220408093330/https://www.researchgate.net/profile/Chres-Sorensen/publication/314198052_Leaner_and_Meaner_Network_Coding_in_SIMD_Enabled_Commercial_Devices/links/5a008b894585159634bafaa8/Leaner-and-Meaner-Network-Coding-in-SIMD-Enabled-Commercial-Devices.pdf \|archive-date=2022-04-08 }}</ref> Furthermore, today's algorithms can be vastly parallelizable, increasing the encoding and decoding goodput even further.<ref>{{Cite journal \|last1=Wunderlich \|first1=Simon \|last2=Cabrera \|first2=Juan A. \|last3=Fitzek \|first3=Frank H. P. \|last4=Reisslein \|first4=Martin \|date=August 2017 \|title=Network Coding in Heterogeneous Multicore IoT Nodes With DAG Scheduling of Parallel Matrix Block Operations \|url=https://faculty.engineering.asu.edu/mre/wp-content/uploads/sites/31/2020/04/NCMC.pdf \|journal=IEEE Internet of Things Journal \|volume=4 \|issue=4 \|pages=917–933 \|doi=10.1109/JIOT.2017.2703813 \|s2cid=30243498 \|issn=2327-4662 \|archive-url=https://web.archive.org/web/20220408140133/https://faculty.engineering.asu.edu/mre/wp-content/uploads/sites/31/2020/04/NCMC.pdf \|archive-date=8 Apr 2022}}</ref>

	'''Transmission Overhead:''' It is usually thought that the transmission overhead of network coding is high due to the need to append the coding coefficients to each coded packet. In reality, this overhead is negligible in most applications. The overhead due to coding coefficients can be computed as follows. Each packet has appended <math>M</math> coding coefficients. The size of each coefficient is the number of bits needed to represent one element of the Galois field. In practice, most network coding applications use a generation size of no more than 32 packets per generation and Galois fields of 256 elements (binary-8). With these numbers, each packet needs <math>M * log_2(s) = 32</math> bytes of appended overhead. If each packet is 1500 bytes long (i.e. the Ethernet MTU), then 32 bytes represent an overhead of only 2%.		'''Transmission Overhead:''' It is usually thought that the transmission overhead of network coding is high due to the need to append the coding coefficients to each coded packet. In reality, this overhead is negligible in most applications. The overhead due to coding coefficients can be computed as follows. Each packet has appended <math>M</math> coding coefficients. The size of each coefficient is the number of bits needed to represent one element of the Galois field. In practice, most network coding applications use a generation size of no more than 32 packets per generation and Galois fields of 256 elements (binary-8). With these numbers, each packet needs <math>M * log_2(s) = 32</math> bytes of appended overhead. If each packet is 1500 bytes long (i.e. the Ethernet MTU), then 32 bytes represent an overhead of only 2%.

TheMathCat: wikilink

2023-12-15T14:55:47Z

wikilink

← Previous revision		Revision as of 14:55, 15 December 2023
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	It has been proven that, theoretically, [[linear code\|linear coding]] is enough to achieve the upper bound in multicast problems with one source.<ref>S. Li, R. Yeung, and N. Cai, "Linear Network Coding"([http://pdos.lcs.mit.edu/decouto/papers/li03.pdf PDF]), in IEEE Transactions on Information Theory, Vol 49, No. 2, pp. 371–381, 2003</ref> However linear coding is not sufficient in general; even for more general versions of linearity such as [[convolutional coding]] and [[filter-bank coding]].<ref>R. Dougherty, [[Chris Freiling\|C. Freiling]], and K. Zeger, "Insufficiency of Linear Coding in Network Information Flow" ([http://code.ucsd.edu/~zeger/publications/journals/DoFrZe05-IT-Insufficiency/DoFrZe05-IT-Insufficiency.pdf PDF]), in IEEE Transactions on Information Theory, Vol. 51, No. 8, pp. 2745-2759, August 2005 ( [http://code.ucsd.edu/~zeger/publications/journals/DoFrZe05-IT-Insufficiency/DoFrZe05-IT-Insufficiency-erratum.pdf erratum])</ref> Finding optimal coding solutions for general network problems with arbitrary demands is a hard problem, which can be [[NP-hard]]<ref name="lehman_nc">{{cite conference\|last1=Rasala Lehman\|first1=A.\|title=Complexity classification of network information flow problems\|last2=Lehman\|first2=E.\|conference=15th ACM-SIAM SODA\|date=2004\|pages=142–150}}</ref><ref name="langberg_nc">{{cite journal\|last1=Langberg\|first1=M.\|title=The encoding complexity of network coding\|last2=Sprintson\|first2=A.\|last3=Bruck\|first3=J.\|journal=IEEE Transactions on Information Theory\|date=2006\|volume=52\|issue=6\|pages=2386–2397\|doi=10.1109/TIT.2006.874434\|s2cid=1414385 \|url=https://resolver.caltech.edu/CaltechAUTHORS:LANieeetit06 }}</ref>		It has been proven that, theoretically, [[linear code\|linear coding]] is enough to achieve the upper bound in multicast problems with one source.<ref>S. Li, R. Yeung, and N. Cai, "Linear Network Coding"([http://pdos.lcs.mit.edu/decouto/papers/li03.pdf PDF]), in IEEE Transactions on Information Theory, Vol 49, No. 2, pp. 371–381, 2003</ref> However linear coding is not sufficient in general; even for more general versions of linearity such as [[convolutional coding]] and [[filter-bank coding]].<ref>R. Dougherty, [[Chris Freiling\|C. Freiling]], and K. Zeger, "Insufficiency of Linear Coding in Network Information Flow" ([http://code.ucsd.edu/~zeger/publications/journals/DoFrZe05-IT-Insufficiency/DoFrZe05-IT-Insufficiency.pdf PDF]), in IEEE Transactions on Information Theory, Vol. 51, No. 8, pp. 2745-2759, August 2005 ( [http://code.ucsd.edu/~zeger/publications/journals/DoFrZe05-IT-Insufficiency/DoFrZe05-IT-Insufficiency-erratum.pdf erratum])</ref> Finding optimal coding solutions for general network problems with arbitrary demands is a hard problem, which can be [[NP-hard]]<ref name="lehman_nc">{{cite conference\|last1=Rasala Lehman\|first1=A.\|title=Complexity classification of network information flow problems\|last2=Lehman\|first2=E.\|conference=15th ACM-SIAM SODA\|date=2004\|pages=142–150}}</ref><ref name="langberg_nc">{{cite journal\|last1=Langberg\|first1=M.\|title=The encoding complexity of network coding\|last2=Sprintson\|first2=A.\|last3=Bruck\|first3=J.\|journal=IEEE Transactions on Information Theory\|date=2006\|volume=52\|issue=6\|pages=2386–2397\|doi=10.1109/TIT.2006.874434\|s2cid=1414385 \|url=https://resolver.caltech.edu/CaltechAUTHORS:LANieeetit06 }}</ref>
	and even [[Undecidable problem\|undecidable]].<ref name="li_nc">{{cite journal\|last1=Li\|first1=C. T.\|title=Undecidability of Network Coding, Conditional Information Inequalities, and Conditional Independence Implication\|journal=IEEE Transactions on Information Theory\|date=2023\|volume=69 \|issue=6 \|page=1 \|doi=10.1109/TIT.2023.3247570\|arxiv=2205.11461 \|s2cid=248986512 }}</ref><ref name="kuhne_matroid">{{cite journal\|last1=Kühne\|first1=L.\|title=Representability of Matroids by c-Arrangements is Undecidable\|last2=Yashfe\|first2=G.\|journal=Israel Journal of Mathematics\|date=2022\|volume=252 \|pages=95–147\|doi=10.1007/s11856-022-2345-z\|arxiv=1912.06123 \|s2cid=209324252 }}</ref>		and even [[Undecidable problem\|undecidable]].<ref name="li_nc">{{cite journal\|last1=Li\|first1=C. T.\|title=Undecidability of Network Coding, Conditional Information Inequalities, and Conditional Independence Implication\|journal=IEEE Transactions on Information Theory\|date=2023\|volume=69 \|issue=6 \|page=1 \|doi=10.1109/TIT.2023.3247570\|arxiv=2205.11461 \|s2cid=248986512 }}</ref><ref name="kuhne_matroid">{{cite journal\|last1=Kühne\|first1=L.\|title=Representability of Matroids by c-Arrangements is Undecidable\|last2=Yashfe\|first2=G.\|journal=[[Israel Journal of Mathematics]]\|date=2022\|volume=252 \|pages=95–147\|doi=10.1007/s11856-022-2345-z\|arxiv=1912.06123 \|s2cid=209324252 }}</ref>

	== Encoding and decoding ==		== Encoding and decoding ==

David Eppstein: Xiuzhen Cheng

2023-11-27T21:55:29Z

Xiuzhen Cheng

← Previous revision		Revision as of 21:55, 27 November 2023
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	* Agricultural sensor fields.<ref>{{Cite book \|last1=Hsu \|first1=Hsiao-Tzu \|last2=Wang \|first2=Tzu-Ming \|last3=Kuo \|first3=Yuan-Cheng \|title=Proceedings of the 2018 2nd International Conference on Education and E-Learning \|chapter=Implementation of Agricultural Monitoring System Based on the Internet of Things \|date=2018-11-05 \|chapter-url=https://doi.org/10.1145/3291078.3291098 \|series=ICEEL 2018 \|location=New York, NY, USA \|publisher=Association for Computing Machinery \|pages=212–216 \|doi=10.1145/3291078.3291098 \|isbn=978-1-4503-6577-2\|s2cid=59337140 }}</ref><ref>{{Cite journal \|last1=Syed \|first1=Abid Husain \|last2=Ali \|first2=Syed Zakir \|date=2021-08-11 \|title=Towards Transforming Agriculture for Challenges of 21st Century by Optimizing Resources Using IOT, Fuzzy Logic and Network Coding \|url=https://www.preprints.org/manuscript/202108.0262/v1 \|doi=10.20944/preprints202108.0262.v1\|s2cid=238723260 \|doi-access=free }}</ref><ref>{{Cite journal \|last1=Camilli \|first1=Alberto \|last2=Cugnasca \|first2=Carlos E. \|last3=Saraiva \|first3=Antonio M. \|last4=Hirakawa \|first4=André R. \|last5=Corrêa \|first5=Pedro L. P. \|date=2007-08-01 \|title=From wireless sensors to field mapping: Anatomy of an application for precision agriculture \|url=https://www.sciencedirect.com/science/article/pii/S0168169907000610 \|journal=Computers and Electronics in Agriculture \|series=Precision Agriculture in Latin America \|language=en \|volume=58 \|issue=1 \|pages=25–36 \|doi=10.1016/j.compag.2007.01.019 \|issn=0168-1699}}</ref>		* Agricultural sensor fields.<ref>{{Cite book \|last1=Hsu \|first1=Hsiao-Tzu \|last2=Wang \|first2=Tzu-Ming \|last3=Kuo \|first3=Yuan-Cheng \|title=Proceedings of the 2018 2nd International Conference on Education and E-Learning \|chapter=Implementation of Agricultural Monitoring System Based on the Internet of Things \|date=2018-11-05 \|chapter-url=https://doi.org/10.1145/3291078.3291098 \|series=ICEEL 2018 \|location=New York, NY, USA \|publisher=Association for Computing Machinery \|pages=212–216 \|doi=10.1145/3291078.3291098 \|isbn=978-1-4503-6577-2\|s2cid=59337140 }}</ref><ref>{{Cite journal \|last1=Syed \|first1=Abid Husain \|last2=Ali \|first2=Syed Zakir \|date=2021-08-11 \|title=Towards Transforming Agriculture for Challenges of 21st Century by Optimizing Resources Using IOT, Fuzzy Logic and Network Coding \|url=https://www.preprints.org/manuscript/202108.0262/v1 \|doi=10.20944/preprints202108.0262.v1\|s2cid=238723260 \|doi-access=free }}</ref><ref>{{Cite journal \|last1=Camilli \|first1=Alberto \|last2=Cugnasca \|first2=Carlos E. \|last3=Saraiva \|first3=Antonio M. \|last4=Hirakawa \|first4=André R. \|last5=Corrêa \|first5=Pedro L. P. \|date=2007-08-01 \|title=From wireless sensors to field mapping: Anatomy of an application for precision agriculture \|url=https://www.sciencedirect.com/science/article/pii/S0168169907000610 \|journal=Computers and Electronics in Agriculture \|series=Precision Agriculture in Latin America \|language=en \|volume=58 \|issue=1 \|pages=25–36 \|doi=10.1016/j.compag.2007.01.019 \|issn=0168-1699}}</ref>
	* In-flight enterteinment networks.<ref>{{Cite patent\|number=US8401021B2\|title=Systems and methods for prioritizing wireless communication of aircraft\|gdate=2013-03-19\|invent1=Buga\|invent2=Trent\|inventor1-first=Wladyslaw Jan\|inventor2-first=Tracy Raymond\|url=https://patents.google.com/patent/US8401021B2/en}}</ref>		* In-flight enterteinment networks.<ref>{{Cite patent\|number=US8401021B2\|title=Systems and methods for prioritizing wireless communication of aircraft\|gdate=2013-03-19\|invent1=Buga\|invent2=Trent\|inventor1-first=Wladyslaw Jan\|inventor2-first=Tracy Raymond\|url=https://patents.google.com/patent/US8401021B2/en}}</ref>
	* Major security and firmware updates for mobile product families.<ref>{{Cite book \|last1=Tonyali \|first1=Samet \|last2=Akkaya \|first2=Kemal \|last3=Saputro \|first3=Nico \|last4=Cheng \|first4=Xiuzhen \|title=2017 26th International Conference on Computer Communication and Networks (ICCCN) \|chapter=An Attribute & Network Coding-Based Secure Multicast Protocol for Firmware Updates in Smart Grid AMI Networks \|date=July 2017 \|chapter-url=https://ieeexplore.ieee.org/document/8038415 \|location=Vancouver, BC, Canada \|publisher=IEEE \|pages=1–9 \|doi=10.1109/ICCCN.2017.8038415 \|isbn=978-1-5090-2991-4\|s2cid=25131878 }}</ref><ref>{{Cite book \|last1=Jalil \|first1=Syed Qaisar \|last2=Chalup \|first2=Stephan \|last3=Rehmani \|first3=Mubashir Husain \|title=Smart Grid and Internet of Things \|chapter=A Smart Meter Firmware Update Strategy Through Network Coding for AMI Network \|date=2019 \|editor-last=Pathan \|editor-first=Al-Sakib Khan \|editor2-last=Fadlullah \|editor2-first=Zubair Md. \|editor3-last=Guerroumi \|editor3-first=Mohamed \|chapter-url=https://link.springer.com/chapter/10.1007/978-3-030-05928-6_7 \|series=Lecture Notes of the Institute for Computer Sciences, Social Informatics and Telecommunications Engineering \|volume=256 \|language=en \|location=Cham \|publisher=Springer International Publishing \|pages=68–77 \|doi=10.1007/978-3-030-05928-6_7 \|isbn=978-3-030-05928-6\|s2cid=59561476 }}</ref>		* Major security and firmware updates for mobile product families.<ref>{{Cite book \|last1=Tonyali \|first1=Samet \|last2=Akkaya \|first2=Kemal \|last3=Saputro \|first3=Nico \|last4=Cheng \|first4=Xiuzhen \|author4-link= Xiuzhen Cheng \|title=2017 26th International Conference on Computer Communication and Networks (ICCCN) \|chapter=An Attribute & Network Coding-Based Secure Multicast Protocol for Firmware Updates in Smart Grid AMI Networks \|date=July 2017 \|chapter-url=https://ieeexplore.ieee.org/document/8038415 \|location=Vancouver, BC, Canada \|publisher=IEEE \|pages=1–9 \|doi=10.1109/ICCCN.2017.8038415 \|isbn=978-1-5090-2991-4\|s2cid=25131878 }}</ref><ref>{{Cite book \|last1=Jalil \|first1=Syed Qaisar \|last2=Chalup \|first2=Stephan \|last3=Rehmani \|first3=Mubashir Husain \|title=Smart Grid and Internet of Things \|chapter=A Smart Meter Firmware Update Strategy Through Network Coding for AMI Network \|date=2019 \|editor-last=Pathan \|editor-first=Al-Sakib Khan \|editor2-last=Fadlullah \|editor2-first=Zubair Md. \|editor3-last=Guerroumi \|editor3-first=Mohamed \|chapter-url=https://link.springer.com/chapter/10.1007/978-3-030-05928-6_7 \|series=Lecture Notes of the Institute for Computer Sciences, Social Informatics and Telecommunications Engineering \|volume=256 \|language=en \|location=Cham \|publisher=Springer International Publishing \|pages=68–77 \|doi=10.1007/978-3-030-05928-6_7 \|isbn=978-3-030-05928-6\|s2cid=59561476 }}</ref>
	* [[Smart city]] infrastructure.<ref>{{Cite book \|last1=Kumar \|first1=Vaibhav \|last2=Cardiff \|first2=Barry \|last3=Flanagan \|first3=Mark F. \|title=2017 IEEE 28th Annual International Symposium on Personal, Indoor, and Mobile Radio Communications (PIMRC) \|chapter=Physical-layer network coding with multiple antennas: An enabling technology for smart cities \|date=October 2017 \|chapter-url=https://ieeexplore.ieee.org/document/8292785 \|location=Montreal, QC \|publisher=IEEE \|pages=1–6 \|doi=10.1109/PIMRC.2017.8292785 \|hdl=10197/11114 \|isbn=978-1-5386-3529-2\|s2cid=748535 \|hdl-access=free }}</ref><ref>{{Citation \|last1=Darif \|first1=Anouar \|title=Network Coding for Energy Optimization of SWIMAC in Smart Cities Using WSN Based on IR-UWB \|date=2020 \|url=http://link.springer.com/10.1007/978-3-030-37629-1_48 \|work=Innovations in Smart Cities Applications Edition 3 \|pages=663–674 \|editor-last=Ben Ahmed \|editor-first=Mohamed \|place=Cham \|publisher=Springer International Publishing \|language=en \|doi=10.1007/978-3-030-37629-1_48 \|isbn=978-3-030-37628-4 \|access-date=2022-06-06 \|last2=Chaibi \|first2=Hasna \|last3=Saadane \|first3=Rachid \|series=Lecture Notes in Intelligent Transportation and Infrastructure \|s2cid=214486109 \|editor2-last=Boudhir \|editor2-first=Anouar Abdelhakim \|editor3-last=Santos \|editor3-first=Domingos \|editor4-last=El Aroussi \|editor4-first=Mohamed}}</ref>		* [[Smart city]] infrastructure.<ref>{{Cite book \|last1=Kumar \|first1=Vaibhav \|last2=Cardiff \|first2=Barry \|last3=Flanagan \|first3=Mark F. \|title=2017 IEEE 28th Annual International Symposium on Personal, Indoor, and Mobile Radio Communications (PIMRC) \|chapter=Physical-layer network coding with multiple antennas: An enabling technology for smart cities \|date=October 2017 \|chapter-url=https://ieeexplore.ieee.org/document/8292785 \|location=Montreal, QC \|publisher=IEEE \|pages=1–6 \|doi=10.1109/PIMRC.2017.8292785 \|hdl=10197/11114 \|isbn=978-1-5386-3529-2\|s2cid=748535 \|hdl-access=free }}</ref><ref>{{Citation \|last1=Darif \|first1=Anouar \|title=Network Coding for Energy Optimization of SWIMAC in Smart Cities Using WSN Based on IR-UWB \|date=2020 \|url=http://link.springer.com/10.1007/978-3-030-37629-1_48 \|work=Innovations in Smart Cities Applications Edition 3 \|pages=663–674 \|editor-last=Ben Ahmed \|editor-first=Mohamed \|place=Cham \|publisher=Springer International Publishing \|language=en \|doi=10.1007/978-3-030-37629-1_48 \|isbn=978-3-030-37628-4 \|access-date=2022-06-06 \|last2=Chaibi \|first2=Hasna \|last3=Saadane \|first3=Rachid \|series=Lecture Notes in Intelligent Transportation and Infrastructure \|s2cid=214486109 \|editor2-last=Boudhir \|editor2-first=Anouar Abdelhakim \|editor3-last=Santos \|editor3-first=Domingos \|editor4-last=El Aroussi \|editor4-first=Mohamed}}</ref>
	* [[Information-centric networking]] and [[named data networking]].:<ref name="Bilal, Muhammad 2019 1376–1385">{{cite journal \|author=Bilal, Muhammad \|display-authors=etal \|year=2019 \|title=Network-Coding Approach for Information-Centric Networking \|journal=IEEE Systems Journal \|volume=13 \|issue=2 \|pages=1376–1385 \|arxiv=1808.00348 \|bibcode=2019ISysJ..13.1376B \|doi=10.1109/JSYST.2018.2862913 \|s2cid=51894197}}</ref> Linear network coding can improve the network efficiency of information-centric networking solutions by exploiting the multi-source multi-cast nature of such systems.<ref name="Bilal, Muhammad 2019 1376–1385" /> It has been shown, that RLNC can be integrated into distributed content delivery networks such as [[InterPlanetary File System\|IPFS]] to increase data availability while reducing storage resources.<ref>{{Cite book \|last1=Zimmermann \|first1=Sandra \|last2=Rischke \|first2=Justus \|last3=Cabrera \|first3=Juan A. \|last4=Fitzek \|first4=Frank H. P. \|title=GLOBECOM 2020 - 2020 IEEE Global Communications Conference \|chapter=Journey to MARS: Interplanetary Coding for relieving CDNS \|date=December 2020 \|chapter-url=https://ieeexplore.ieee.org/document/9322478 \|location=Taipei, Taiwan \|publisher=IEEE \|pages=1–6 \|doi=10.1109/GLOBECOM42002.2020.9322478 \|isbn=978-1-7281-8298-8\|s2cid=231725197 }}</ref>		* [[Information-centric networking]] and [[named data networking]].:<ref name="Bilal, Muhammad 2019 1376–1385">{{cite journal \|author=Bilal, Muhammad \|display-authors=etal \|year=2019 \|title=Network-Coding Approach for Information-Centric Networking \|journal=IEEE Systems Journal \|volume=13 \|issue=2 \|pages=1376–1385 \|arxiv=1808.00348 \|bibcode=2019ISysJ..13.1376B \|doi=10.1109/JSYST.2018.2862913 \|s2cid=51894197}}</ref> Linear network coding can improve the network efficiency of information-centric networking solutions by exploiting the multi-source multi-cast nature of such systems.<ref name="Bilal, Muhammad 2019 1376–1385" /> It has been shown, that RLNC can be integrated into distributed content delivery networks such as [[InterPlanetary File System\|IPFS]] to increase data availability while reducing storage resources.<ref>{{Cite book \|last1=Zimmermann \|first1=Sandra \|last2=Rischke \|first2=Justus \|last3=Cabrera \|first3=Juan A. \|last4=Fitzek \|first4=Frank H. P. \|title=GLOBECOM 2020 - 2020 IEEE Global Communications Conference \|chapter=Journey to MARS: Interplanetary Coding for relieving CDNS \|date=December 2020 \|chapter-url=https://ieeexplore.ieee.org/document/9322478 \|location=Taipei, Taiwan \|publisher=IEEE \|pages=1–6 \|doi=10.1109/GLOBECOM42002.2020.9322478 \|isbn=978-1-7281-8298-8\|s2cid=231725197 }}</ref>

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← Previous revision		Revision as of 18:33, 27 November 2023
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	Linear network coding may be used to improve a network's throughput, efficiency, and [[scalability]], as well as reducing attacks and eavesdropping. The [[Node (networking)\|node]]s of a network take ''several'' packets and combine for transmission. This process may be used to attain the maximum possible [[information]] [[flow network\|flow]] in a [[Network theory\|network]].		Linear network coding may be used to improve a network's throughput, efficiency, and [[scalability]], as well as reducing attacks and eavesdropping. The [[Node (networking)\|node]]s of a network take ''several'' packets and combine for transmission. This process may be used to attain the maximum possible [[information]] [[flow network\|flow]] in a [[Network theory\|network]].

	It has been proven that, theoretically, [[linear code\|linear coding]] is enough to achieve the upper bound in multicast problems with one source.<ref>S. Li, R. Yeung, and N. Cai, "Linear Network Coding"([http://pdos.lcs.mit.edu/decouto/papers/li03.pdf PDF]), in IEEE Transactions on Information Theory, Vol 49, No. 2, pp. 371–381, 2003</ref> However linear coding is not sufficient in general; even for more general versions of linearity such as [[convolutional coding]] and [[filter-bank coding]].<ref>R. Dougherty, [[Chris Freiling\|C. Freiling]], and K. Zeger, "Insufficiency of Linear Coding in Network Information Flow" ([http://code.ucsd.edu/~zeger/publications/journals/DoFrZe05-IT-Insufficiency/DoFrZe05-IT-Insufficiency.pdf PDF]), in IEEE Transactions on Information Theory, Vol. 51, No. 8, pp. 2745-2759, August 2005 ( [http://code.ucsd.edu/~zeger/publications/journals/DoFrZe05-IT-Insufficiency/DoFrZe05-IT-Insufficiency-erratum.pdf erratum])</ref> Finding optimal coding solutions for general network problems with arbitrary demands is a hard problem, which can be [[NP-hard]]<ref name="lehman_nc">{{cite conference\|last1=Rasala Lehman\|first1=A.\|title=Complexity classification of network information flow problems\|last2=Lehman\|first2=E.\|conference=15th ACM-SIAM SODA\|date=2004\|pages=142–150}}</ref><ref name="langberg_nc">{{cite journal\|last1=Langberg\|first1=M.\|title=The encoding complexity of network coding\|last2=Sprintson\|first2=A.\|last3=Bruck\|first3=J.\|journal=IEEE Transactions on Information Theory\|date=2006\|volume=52\|issue=6\|pages=2386–2397\|doi=10.1109/TIT.2006.874434\|s2cid=1414385 }}</ref>		It has been proven that, theoretically, [[linear code\|linear coding]] is enough to achieve the upper bound in multicast problems with one source.<ref>S. Li, R. Yeung, and N. Cai, "Linear Network Coding"([http://pdos.lcs.mit.edu/decouto/papers/li03.pdf PDF]), in IEEE Transactions on Information Theory, Vol 49, No. 2, pp. 371–381, 2003</ref> However linear coding is not sufficient in general; even for more general versions of linearity such as [[convolutional coding]] and [[filter-bank coding]].<ref>R. Dougherty, [[Chris Freiling\|C. Freiling]], and K. Zeger, "Insufficiency of Linear Coding in Network Information Flow" ([http://code.ucsd.edu/~zeger/publications/journals/DoFrZe05-IT-Insufficiency/DoFrZe05-IT-Insufficiency.pdf PDF]), in IEEE Transactions on Information Theory, Vol. 51, No. 8, pp. 2745-2759, August 2005 ( [http://code.ucsd.edu/~zeger/publications/journals/DoFrZe05-IT-Insufficiency/DoFrZe05-IT-Insufficiency-erratum.pdf erratum])</ref> Finding optimal coding solutions for general network problems with arbitrary demands is a hard problem, which can be [[NP-hard]]<ref name="lehman_nc">{{cite conference\|last1=Rasala Lehman\|first1=A.\|title=Complexity classification of network information flow problems\|last2=Lehman\|first2=E.\|conference=15th ACM-SIAM SODA\|date=2004\|pages=142–150}}</ref><ref name="langberg_nc">{{cite journal\|last1=Langberg\|first1=M.\|title=The encoding complexity of network coding\|last2=Sprintson\|first2=A.\|last3=Bruck\|first3=J.\|journal=IEEE Transactions on Information Theory\|date=2006\|volume=52\|issue=6\|pages=2386–2397\|doi=10.1109/TIT.2006.874434\|s2cid=1414385 \|url=https://resolver.caltech.edu/CaltechAUTHORS:LANieeetit06 }}</ref>
	and even [[Undecidable problem\|undecidable]].<ref name="li_nc">{{cite journal\|last1=Li\|first1=C. T.\|title=Undecidability of Network Coding, Conditional Information Inequalities, and Conditional Independence Implication\|journal=IEEE Transactions on Information Theory\|date=2023\|volume=69 \|issue=6 \|page=1 \|doi=10.1109/TIT.2023.3247570\|arxiv=2205.11461 \|s2cid=248986512 }}</ref><ref name="kuhne_matroid">{{cite journal\|last1=Kühne\|first1=L.\|title=Representability of Matroids by c-Arrangements is Undecidable\|last2=Yashfe\|first2=G.\|journal=Israel Journal of Mathematics\|date=2022\|volume=252 \|pages=95–147\|doi=10.1007/s11856-022-2345-z\|arxiv=1912.06123 \|s2cid=209324252 }}</ref>		and even [[Undecidable problem\|undecidable]].<ref name="li_nc">{{cite journal\|last1=Li\|first1=C. T.\|title=Undecidability of Network Coding, Conditional Information Inequalities, and Conditional Independence Implication\|journal=IEEE Transactions on Information Theory\|date=2023\|volume=69 \|issue=6 \|page=1 \|doi=10.1109/TIT.2023.3247570\|arxiv=2205.11461 \|s2cid=248986512 }}</ref><ref name="kuhne_matroid">{{cite journal\|last1=Kühne\|first1=L.\|title=Representability of Matroids by c-Arrangements is Undecidable\|last2=Yashfe\|first2=G.\|journal=Israel Journal of Mathematics\|date=2022\|volume=252 \|pages=95–147\|doi=10.1007/s11856-022-2345-z\|arxiv=1912.06123 \|s2cid=209324252 }}</ref>

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	* Distributed file sharing<ref>{{Cite journal \|last1=Firooz \|first1=Mohammad Hamed \|last2=Roy \|first2=Sumit \|date=24 March 2012 \|title=Data Dissemination in Wireless Networks with Network Coding \|journal=IEEE Communications Letters \|volume=17 \|issue=5 \|pages=944–947 \|doi=10.1109/LCOMM.2013.031313.121994 \|arxiv=1203.5395 \|s2cid=13576 \|issn=1089-7798}}</ref>		* Distributed file sharing<ref>{{Cite journal \|last1=Firooz \|first1=Mohammad Hamed \|last2=Roy \|first2=Sumit \|date=24 March 2012 \|title=Data Dissemination in Wireless Networks with Network Coding \|journal=IEEE Communications Letters \|volume=17 \|issue=5 \|pages=944–947 \|doi=10.1109/LCOMM.2013.031313.121994 \|arxiv=1203.5395 \|s2cid=13576 \|issn=1089-7798}}</ref>
	* Low-complexity video streaming to mobile device<ref>{{Cite journal \|last1=Fiandrotti \|first1=Attilio \|last2=Bioglio \|first2=Valerio \|last3=Grangetto \|first3=Marco \|last4=Gaeta \|first4=Rossano \|last5=Magli \|first5=Enrico \|date=11 October 2013 \|title=Band Codes for Energy-Efficient Network Coding With Application to P2P Mobile Streaming \|url=https://ieeexplore.ieee.org/document/6630050 \|journal=IEEE Transactions on Multimedia \|volume=16 \|issue=2 \|pages=521–532 \|doi=10.1109/TMM.2013.2285518 \|arxiv=1309.0316 \|s2cid=10548996 \|issn=1941-0077}}</ref>		* Low-complexity video streaming to mobile device<ref>{{Cite journal \|last1=Fiandrotti \|first1=Attilio \|last2=Bioglio \|first2=Valerio \|last3=Grangetto \|first3=Marco \|last4=Gaeta \|first4=Rossano \|last5=Magli \|first5=Enrico \|date=11 October 2013 \|title=Band Codes for Energy-Efficient Network Coding With Application to P2P Mobile Streaming \|url=https://ieeexplore.ieee.org/document/6630050 \|journal=IEEE Transactions on Multimedia \|volume=16 \|issue=2 \|pages=521–532 \|doi=10.1109/TMM.2013.2285518 \|arxiv=1309.0316 \|s2cid=10548996 \|issn=1941-0077}}</ref>
	* [[Device-to-device]] extensions<ref>{{Cite book \|last1=Wu \|first1=Yue \|last2=Liu \|first2=Wuling \|last3=Wang \|first3=Siyi \|last4=Guo \|first4=Weisi \|last5=Chu \|first5=Xiaoli \|title=2015 IEEE International Conference on Communications (ICC) \|chapter=Network coding in device-to-device (D2D) communications underlaying cellular networks \|date=June 2015 \|chapter-url=https://ieeexplore.ieee.org/document/7248631 \|pages=2072–2077 \|doi=10.1109/ICC.2015.7248631\|isbn=978-1-4673-6432-4 \|s2cid=19637201 }}</ref><ref>{{Cite book \|last1=Zhao \|first1=Yulei \|last2=Li \|first2=Yong \|last3=Ge \|first3=Ning \|title=2015 IEEE Global Communications Conference (GLOBECOM) \|chapter=Physical Layer Network Coding Aided Two-Way Device-to-Device Communication Underlaying Cellular Networks \|date=December 2015 \|chapter-url=https://ieeexplore.ieee.org/document/7417590 \|pages=1–6 \|doi=10.1109/GLOCOM.2015.7417590\|isbn=978-1-4799-5952-5 }}</ref><ref>{{Cite book \|last1=Abrardo \|first1=Andrea \|last2=Fodor \|first2=Gábor \|last3=Tola \|first3=Besmir \|title=2015 IEEE 16th International Workshop on Signal Processing Advances in Wireless Communications (SPAWC) \|chapter=Network coding schemes for Device-to-Device communications based relaying for cellular coverage extension \|date=2015 \|chapter-url=http://www.diva-portal.org/smash/get/diva2:795210/FULLTEXT01.pdf \|pages=670–674 \|doi=10.1109/SPAWC.2015.7227122\|isbn=978-1-4799-1931-4 \|s2cid=9591953 \|url=http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-160505 }}</ref><ref>{{Cite journal \|last1=Gao \|first1=Chuhan \|last2=Li \|first2=Yong \|last3=Zhao \|first3=Yulei \|last4=Chen \|first4=Sheng \|date=October 2017 \|title=A Two-Level Game Theory Approach for Joint Relay Selection and Resource Allocation in Network Coding Assisted D2D Communications \|url=https://eprints.soton.ac.uk/414039/1/NC_D2D.pdf \|journal=IEEE Transactions on Mobile Computing \|volume=16 \|issue=10 \|pages=2697–2711 \|doi=10.1109/TMC.2016.2642190 \|s2cid=22233426 \|issn=1558-0660}}</ref><ref>{{Cite journal \|last1=Zhou \|first1=Ting \|last2=Xu \|first2=Bin \|last3=Xu \|first3=Tianheng \|last4=Hu \|first4=Honglin \|last5=Xiong \|first5=Lei \|date=1 February 2015 \|title=User‐specific link adaptation scheme for device‐to‐device network coding multicast ~~\|url=https://ietresearch.onlinelibrary.wiley.com/doi/full/10.1049/iet-com.2014.0323~~ \|journal=IET Communications \|volume=9 \|issue=3 \|pages=367–374 \|doi=10.1049/iet-com.2014.0323 \|s2cid=27108894 \|issn=1751-8636\|doi-access=free }}</ref>		* [[Device-to-device]] extensions<ref>{{Cite book \|last1=Wu \|first1=Yue \|last2=Liu \|first2=Wuling \|last3=Wang \|first3=Siyi \|last4=Guo \|first4=Weisi \|last5=Chu \|first5=Xiaoli \|title=2015 IEEE International Conference on Communications (ICC) \|chapter=Network coding in device-to-device (D2D) communications underlaying cellular networks \|date=June 2015 \|chapter-url=https://ieeexplore.ieee.org/document/7248631 \|pages=2072–2077 \|doi=10.1109/ICC.2015.7248631\|isbn=978-1-4673-6432-4 \|s2cid=19637201 }}</ref><ref>{{Cite book \|last1=Zhao \|first1=Yulei \|last2=Li \|first2=Yong \|last3=Ge \|first3=Ning \|title=2015 IEEE Global Communications Conference (GLOBECOM) \|chapter=Physical Layer Network Coding Aided Two-Way Device-to-Device Communication Underlaying Cellular Networks \|date=December 2015 \|chapter-url=https://ieeexplore.ieee.org/document/7417590 \|pages=1–6 \|doi=10.1109/GLOCOM.2015.7417590\|isbn=978-1-4799-5952-5 }}</ref><ref>{{Cite book \|last1=Abrardo \|first1=Andrea \|last2=Fodor \|first2=Gábor \|last3=Tola \|first3=Besmir \|title=2015 IEEE 16th International Workshop on Signal Processing Advances in Wireless Communications (SPAWC) \|chapter=Network coding schemes for Device-to-Device communications based relaying for cellular coverage extension \|date=2015 \|chapter-url=http://www.diva-portal.org/smash/get/diva2:795210/FULLTEXT01.pdf \|pages=670–674 \|doi=10.1109/SPAWC.2015.7227122\|isbn=978-1-4799-1931-4 \|s2cid=9591953 \|url=http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-160505 }}</ref><ref>{{Cite journal \|last1=Gao \|first1=Chuhan \|last2=Li \|first2=Yong \|last3=Zhao \|first3=Yulei \|last4=Chen \|first4=Sheng \|date=October 2017 \|title=A Two-Level Game Theory Approach for Joint Relay Selection and Resource Allocation in Network Coding Assisted D2D Communications \|url=https://eprints.soton.ac.uk/414039/1/NC_D2D.pdf \|journal=IEEE Transactions on Mobile Computing \|volume=16 \|issue=10 \|pages=2697–2711 \|doi=10.1109/TMC.2016.2642190 \|s2cid=22233426 \|issn=1558-0660}}</ref><ref>{{Cite journal \|last1=Zhou \|first1=Ting \|last2=Xu \|first2=Bin \|last3=Xu \|first3=Tianheng \|last4=Hu \|first4=Honglin \|last5=Xiong \|first5=Lei \|date=1 February 2015 \|title=User‐specific link adaptation scheme for device‐to‐device network coding multicast \|journal=IET Communications \|volume=9 \|issue=3 \|pages=367–374 \|doi=10.1049/iet-com.2014.0323 \|s2cid=27108894 \|issn=1751-8636\|doi-access=free }}</ref>

	== See also ==		== See also ==

← Previous revision		Revision as of 15:51, 8 August 2024
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	* Satellite networks.<ref>{{Cite web \|title=DLR - Institute of Communications and Navigation - NEXT - Network Coding Satellite Experiment \|url=https://www.dlr.de/kn/en/desktopdefault.aspx/tabid-12748/22264_read-26607/ \|access-date=2022-06-06 \|website=www.dlr.de}}</ref>		* Satellite networks.<ref>{{Cite web \|title=DLR - Institute of Communications and Navigation - NEXT - Network Coding Satellite Experiment \|url=https://www.dlr.de/kn/en/desktopdefault.aspx/tabid-12748/22264_read-26607/ \|access-date=2022-06-06 \|website=www.dlr.de}}</ref>
	* Agricultural sensor fields.<ref>{{Cite book \|last1=Hsu \|first1=Hsiao-Tzu \|last2=Wang \|first2=Tzu-Ming \|last3=Kuo \|first3=Yuan-Cheng \|title=Proceedings of the 2018 2nd International Conference on Education and E-Learning \|chapter=Implementation of Agricultural Monitoring System Based on the Internet of Things \|date=2018-11-05 \|chapter-url=https://doi.org/10.1145/3291078.3291098 \|series=ICEEL 2018 \|location=New York, NY, USA \|publisher=Association for Computing Machinery \|pages=212–216 \|doi=10.1145/3291078.3291098 \|isbn=978-1-4503-6577-2\|s2cid=59337140 }}</ref><ref>{{Cite journal \|last1=Camilli \|first1=Alberto \|last2=Cugnasca \|first2=Carlos E. \|last3=Saraiva \|first3=Antonio M. \|last4=Hirakawa \|first4=André R. \|last5=Corrêa \|first5=Pedro L. P. \|date=2007-08-01 \|title=From wireless sensors to field mapping: Anatomy of an application for precision agriculture \|url=https://www.sciencedirect.com/science/article/pii/S0168169907000610 \|journal=Computers and Electronics in Agriculture \|series=Precision Agriculture in Latin America \|language=en \|volume=58 \|issue=1 \|pages=25–36 \|doi=10.1016/j.compag.2007.01.019 \|issn=0168-1699}}</ref>		* Agricultural sensor fields.<ref>{{Cite book \|last1=Hsu \|first1=Hsiao-Tzu \|last2=Wang \|first2=Tzu-Ming \|last3=Kuo \|first3=Yuan-Cheng \|title=Proceedings of the 2018 2nd International Conference on Education and E-Learning \|chapter=Implementation of Agricultural Monitoring System Based on the Internet of Things \|date=2018-11-05 \|chapter-url=https://doi.org/10.1145/3291078.3291098 \|series=ICEEL 2018 \|location=New York, NY, USA \|publisher=Association for Computing Machinery \|pages=212–216 \|doi=10.1145/3291078.3291098 \|isbn=978-1-4503-6577-2\|s2cid=59337140 }}</ref><ref>{{Cite journal \|last1=Camilli \|first1=Alberto \|last2=Cugnasca \|first2=Carlos E. \|last3=Saraiva \|first3=Antonio M. \|last4=Hirakawa \|first4=André R. \|last5=Corrêa \|first5=Pedro L. P. \|date=2007-08-01 \|title=From wireless sensors to field mapping: Anatomy of an application for precision agriculture \|url=https://www.sciencedirect.com/science/article/pii/S0168169907000610 \|journal=Computers and Electronics in Agriculture \|series=Precision Agriculture in Latin America \|language=en \|volume=58 \|issue=1 \|pages=25–36 \|doi=10.1016/j.compag.2007.01.019 \|issn=0168-1699}}</ref>
	* In-flight ~~enterteinment~~ networks.<ref>{{Cite patent\|number=US8401021B2\|title=Systems and methods for prioritizing wireless communication of aircraft\|gdate=2013-03-19\|invent1=Buga\|invent2=Trent\|inventor1-first=Wladyslaw Jan\|inventor2-first=Tracy Raymond\|url=https://patents.google.com/patent/US8401021B2/en}}</ref>		* In-flight entertainment networks.<ref>{{Cite patent\|number=US8401021B2\|title=Systems and methods for prioritizing wireless communication of aircraft\|gdate=2013-03-19\|invent1=Buga\|invent2=Trent\|inventor1-first=Wladyslaw Jan\|inventor2-first=Tracy Raymond\|url=https://patents.google.com/patent/US8401021B2/en}}</ref>
	* Major security and firmware updates for mobile product families.<ref>{{Cite book \|last1=Tonyali \|first1=Samet \|last2=Akkaya \|first2=Kemal \|last3=Saputro \|first3=Nico \|last4=Cheng \|first4=Xiuzhen \|author4-link= Xiuzhen Cheng \|title=2017 26th International Conference on Computer Communication and Networks (ICCCN) \|chapter=An Attribute & Network Coding-Based Secure Multicast Protocol for Firmware Updates in Smart Grid AMI Networks \|date=July 2017 \|chapter-url=https://ieeexplore.ieee.org/document/8038415 \|location=Vancouver, BC, Canada \|publisher=IEEE \|pages=1–9 \|doi=10.1109/ICCCN.2017.8038415 \|isbn=978-1-5090-2991-4\|s2cid=25131878 }}</ref><ref>{{Cite book \|last1=Jalil \|first1=Syed Qaisar \|last2=Chalup \|first2=Stephan \|last3=Rehmani \|first3=Mubashir Husain \|title=Smart Grid and Internet of Things \|chapter=A Smart Meter Firmware Update Strategy Through Network Coding for AMI Network \|date=2019 \|editor-last=Pathan \|editor-first=Al-Sakib Khan \|editor2-last=Fadlullah \|editor2-first=Zubair Md. \|editor3-last=Guerroumi \|editor3-first=Mohamed \|chapter-url=https://link.springer.com/chapter/10.1007/978-3-030-05928-6_7 \|series=Lecture Notes of the Institute for Computer Sciences, Social Informatics and Telecommunications Engineering \|volume=256 \|language=en \|location=Cham \|publisher=Springer International Publishing \|pages=68–77 \|doi=10.1007/978-3-030-05928-6_7 \|isbn=978-3-030-05928-6\|s2cid=59561476 }}</ref>		* Major security and firmware updates for mobile product families.<ref>{{Cite book \|last1=Tonyali \|first1=Samet \|last2=Akkaya \|first2=Kemal \|last3=Saputro \|first3=Nico \|last4=Cheng \|first4=Xiuzhen \|author4-link= Xiuzhen Cheng \|title=2017 26th International Conference on Computer Communication and Networks (ICCCN) \|chapter=An Attribute & Network Coding-Based Secure Multicast Protocol for Firmware Updates in Smart Grid AMI Networks \|date=July 2017 \|chapter-url=https://ieeexplore.ieee.org/document/8038415 \|location=Vancouver, BC, Canada \|publisher=IEEE \|pages=1–9 \|doi=10.1109/ICCCN.2017.8038415 \|isbn=978-1-5090-2991-4\|s2cid=25131878 }}</ref><ref>{{Cite book \|last1=Jalil \|first1=Syed Qaisar \|last2=Chalup \|first2=Stephan \|last3=Rehmani \|first3=Mubashir Husain \|title=Smart Grid and Internet of Things \|chapter=A Smart Meter Firmware Update Strategy Through Network Coding for AMI Network \|date=2019 \|editor-last=Pathan \|editor-first=Al-Sakib Khan \|editor2-last=Fadlullah \|editor2-first=Zubair Md. \|editor3-last=Guerroumi \|editor3-first=Mohamed \|chapter-url=https://link.springer.com/chapter/10.1007/978-3-030-05928-6_7 \|series=Lecture Notes of the Institute for Computer Sciences, Social Informatics and Telecommunications Engineering \|volume=256 \|language=en \|location=Cham \|publisher=Springer International Publishing \|pages=68–77 \|doi=10.1007/978-3-030-05928-6_7 \|isbn=978-3-030-05928-6\|s2cid=59561476 }}</ref>
	* [[Smart city]] infrastructure.<ref>{{Cite book \|last1=Kumar \|first1=Vaibhav \|last2=Cardiff \|first2=Barry \|last3=Flanagan \|first3=Mark F. \|title=2017 IEEE 28th Annual International Symposium on Personal, Indoor, and Mobile Radio Communications (PIMRC) \|chapter=Physical-layer network coding with multiple antennas: An enabling technology for smart cities \|date=October 2017 \|chapter-url=https://ieeexplore.ieee.org/document/8292785 \|location=Montreal, QC \|publisher=IEEE \|pages=1–6 \|doi=10.1109/PIMRC.2017.8292785 \|hdl=10197/11114 \|isbn=978-1-5386-3529-2\|s2cid=748535 \|hdl-access=free }}</ref><ref>{{Citation \|last1=Darif \|first1=Anouar \|title=Network Coding for Energy Optimization of SWIMAC in Smart Cities Using WSN Based on IR-UWB \|date=2020 \|url=http://link.springer.com/10.1007/978-3-030-37629-1_48 \|work=Innovations in Smart Cities Applications Edition 3 \|pages=663–674 \|editor-last=Ben Ahmed \|editor-first=Mohamed \|place=Cham \|publisher=Springer International Publishing \|language=en \|doi=10.1007/978-3-030-37629-1_48 \|isbn=978-3-030-37628-4 \|access-date=2022-06-06 \|last2=Chaibi \|first2=Hasna \|last3=Saadane \|first3=Rachid \|series=Lecture Notes in Intelligent Transportation and Infrastructure \|s2cid=214486109 \|editor2-last=Boudhir \|editor2-first=Anouar Abdelhakim \|editor3-last=Santos \|editor3-first=Domingos \|editor4-last=El Aroussi \|editor4-first=Mohamed}}</ref>		* [[Smart city]] infrastructure.<ref>{{Cite book \|last1=Kumar \|first1=Vaibhav \|last2=Cardiff \|first2=Barry \|last3=Flanagan \|first3=Mark F. \|title=2017 IEEE 28th Annual International Symposium on Personal, Indoor, and Mobile Radio Communications (PIMRC) \|chapter=Physical-layer network coding with multiple antennas: An enabling technology for smart cities \|date=October 2017 \|chapter-url=https://ieeexplore.ieee.org/document/8292785 \|location=Montreal, QC \|publisher=IEEE \|pages=1–6 \|doi=10.1109/PIMRC.2017.8292785 \|hdl=10197/11114 \|isbn=978-1-5386-3529-2\|s2cid=748535 \|hdl-access=free }}</ref><ref>{{Citation \|last1=Darif \|first1=Anouar \|title=Network Coding for Energy Optimization of SWIMAC in Smart Cities Using WSN Based on IR-UWB \|date=2020 \|url=http://link.springer.com/10.1007/978-3-030-37629-1_48 \|work=Innovations in Smart Cities Applications Edition 3 \|pages=663–674 \|editor-last=Ben Ahmed \|editor-first=Mohamed \|place=Cham \|publisher=Springer International Publishing \|language=en \|doi=10.1007/978-3-030-37629-1_48 \|isbn=978-3-030-37628-4 \|access-date=2022-06-06 \|last2=Chaibi \|first2=Hasna \|last3=Saadane \|first3=Rachid \|series=Lecture Notes in Intelligent Transportation and Infrastructure \|s2cid=214486109 \|editor2-last=Boudhir \|editor2-first=Anouar Abdelhakim \|editor3-last=Santos \|editor3-first=Domingos \|editor4-last=El Aroussi \|editor4-first=Mohamed}}</ref>

← Previous revision		Revision as of 01:14, 18 June 2024
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	* [[Fourth Industrial Revolution\|Industry 4.0]].<ref>{{Cite book \|last1=Peralta \|first1=Goiuri \|last2=Iglesias-Urkia \|first2=Markel \|last3=Barcelo \|first3=Marc \|last4=Gomez \|first4=Raul \|last5=Moran \|first5=Adrian \|last6=Bilbao \|first6=Josu \|title=2017 IEEE International Workshop of Electronics, Control, Measurement, Signals and their Application to Mechatronics (ECMSM) \|chapter=Fog computing based efficient IoT scheme for the Industry 4.0 \|date=May 2017 \|chapter-url=https://ieeexplore.ieee.org/document/7945879 \|location=Donostia, San Sebastian, Spain \|publisher=IEEE \|pages=1–6 \|doi=10.1109/ECMSM.2017.7945879 \|isbn=978-1-5090-5582-1\|s2cid=37985560 }}</ref><ref>{{Cite journal \|last1=Peralta \|first1=Goiuri \|last2=Garrido \|first2=Pablo \|last3=Bilbao \|first3=Josu \|last4=Agüero \|first4=Ramón \|last5=Crespo \|first5=Pedro \|date=2019-04-08 \|title=On the Combination of Multi-Cloud and Network Coding for Cost-Efficient Storage in Industrial Applications \|journal=Sensors \|language=en \|volume=19 \|issue=7 \|pages=1673 \|doi=10.3390/s19071673 \|issn=1424-8220 \|pmc=6479523 \|pmid=30965629\|bibcode=2019Senso..19.1673P \|doi-access=free }}</ref><ref>{{Cite book \|last1=Zverev \|first1=Mihail \|last2=Agüero \|first2=Ramón \|last3=Garrido \|first3=Pablo \|last4=Bilbao \|first4=Josu \|title=Proceedings of the 9th International Conference on the Internet of Things \|chapter=Network Coding for IIoT Multi-Cloud Environments \|date=2019-10-22 \|chapter-url=https://doi.org/10.1145/3365871.3365903 \|series=IoT 2019 \|location=New York, NY, USA \|publisher=Association for Computing Machinery \|pages=1–4 \|doi=10.1145/3365871.3365903 \|isbn=978-1-4503-7207-7\|s2cid=207940281 }}</ref>		* [[Fourth Industrial Revolution\|Industry 4.0]].<ref>{{Cite book \|last1=Peralta \|first1=Goiuri \|last2=Iglesias-Urkia \|first2=Markel \|last3=Barcelo \|first3=Marc \|last4=Gomez \|first4=Raul \|last5=Moran \|first5=Adrian \|last6=Bilbao \|first6=Josu \|title=2017 IEEE International Workshop of Electronics, Control, Measurement, Signals and their Application to Mechatronics (ECMSM) \|chapter=Fog computing based efficient IoT scheme for the Industry 4.0 \|date=May 2017 \|chapter-url=https://ieeexplore.ieee.org/document/7945879 \|location=Donostia, San Sebastian, Spain \|publisher=IEEE \|pages=1–6 \|doi=10.1109/ECMSM.2017.7945879 \|isbn=978-1-5090-5582-1\|s2cid=37985560 }}</ref><ref>{{Cite journal \|last1=Peralta \|first1=Goiuri \|last2=Garrido \|first2=Pablo \|last3=Bilbao \|first3=Josu \|last4=Agüero \|first4=Ramón \|last5=Crespo \|first5=Pedro \|date=2019-04-08 \|title=On the Combination of Multi-Cloud and Network Coding for Cost-Efficient Storage in Industrial Applications \|journal=Sensors \|language=en \|volume=19 \|issue=7 \|pages=1673 \|doi=10.3390/s19071673 \|issn=1424-8220 \|pmc=6479523 \|pmid=30965629\|bibcode=2019Senso..19.1673P \|doi-access=free }}</ref><ref>{{Cite book \|last1=Zverev \|first1=Mihail \|last2=Agüero \|first2=Ramón \|last3=Garrido \|first3=Pablo \|last4=Bilbao \|first4=Josu \|title=Proceedings of the 9th International Conference on the Internet of Things \|chapter=Network Coding for IIoT Multi-Cloud Environments \|date=2019-10-22 \|chapter-url=https://doi.org/10.1145/3365871.3365903 \|series=IoT 2019 \|location=New York, NY, USA \|publisher=Association for Computing Machinery \|pages=1–4 \|doi=10.1145/3365871.3365903 \|isbn=978-1-4503-7207-7\|s2cid=207940281 }}</ref>
	* Satellite networks.<ref>{{Cite web \|title=DLR - Institute of Communications and Navigation - NEXT - Network Coding Satellite Experiment \|url=https://www.dlr.de/kn/en/desktopdefault.aspx/tabid-12748/22264_read-26607/ \|access-date=2022-06-06 \|website=www.dlr.de}}</ref>		* Satellite networks.<ref>{{Cite web \|title=DLR - Institute of Communications and Navigation - NEXT - Network Coding Satellite Experiment \|url=https://www.dlr.de/kn/en/desktopdefault.aspx/tabid-12748/22264_read-26607/ \|access-date=2022-06-06 \|website=www.dlr.de}}</ref>
	* Agricultural sensor fields.<ref>{{Cite book \|last1=Hsu \|first1=Hsiao-Tzu \|last2=Wang \|first2=Tzu-Ming \|last3=Kuo \|first3=Yuan-Cheng \|title=Proceedings of the 2018 2nd International Conference on Education and E-Learning \|chapter=Implementation of Agricultural Monitoring System Based on the Internet of Things \|date=2018-11-05 \|chapter-url=https://doi.org/10.1145/3291078.3291098 \|series=ICEEL 2018 \|location=New York, NY, USA \|publisher=Association for Computing Machinery \|pages=212–216 \|doi=10.1145/3291078.3291098 \|isbn=978-1-4503-6577-2\|s2cid=59337140 }}</ref><ref>{{Cite journal \|last1=Syed \|first1=Abid Husain \|last2=Ali \|first2=Syed Zakir \|date=2021-08-11 \|title=Towards Transforming Agriculture for Challenges of 21st Century by Optimizing Resources Using IOT, Fuzzy Logic and Network Coding \|url=https://www.preprints.org/manuscript/202108.0262/v1 \|doi=10.20944/preprints202108.0262.v1\|s2cid=238723260 \|doi-access=free }}</ref><ref>{{Cite journal \|last1=Camilli \|first1=Alberto \|last2=Cugnasca \|first2=Carlos E. \|last3=Saraiva \|first3=Antonio M. \|last4=Hirakawa \|first4=André R. \|last5=Corrêa \|first5=Pedro L. P. \|date=2007-08-01 \|title=From wireless sensors to field mapping: Anatomy of an application for precision agriculture \|url=https://www.sciencedirect.com/science/article/pii/S0168169907000610 \|journal=Computers and Electronics in Agriculture \|series=Precision Agriculture in Latin America \|language=en \|volume=58 \|issue=1 \|pages=25–36 \|doi=10.1016/j.compag.2007.01.019 \|issn=0168-1699}}</ref>		* Agricultural sensor fields.<ref>{{Cite book \|last1=Hsu \|first1=Hsiao-Tzu \|last2=Wang \|first2=Tzu-Ming \|last3=Kuo \|first3=Yuan-Cheng \|title=Proceedings of the 2018 2nd International Conference on Education and E-Learning \|chapter=Implementation of Agricultural Monitoring System Based on the Internet of Things \|date=2018-11-05 \|chapter-url=https://doi.org/10.1145/3291078.3291098 \|series=ICEEL 2018 \|location=New York, NY, USA \|publisher=Association for Computing Machinery \|pages=212–216 \|doi=10.1145/3291078.3291098 \|isbn=978-1-4503-6577-2\|s2cid=59337140 }}</ref><ref>{{Cite journal \|last1=Camilli \|first1=Alberto \|last2=Cugnasca \|first2=Carlos E. \|last3=Saraiva \|first3=Antonio M. \|last4=Hirakawa \|first4=André R. \|last5=Corrêa \|first5=Pedro L. P. \|date=2007-08-01 \|title=From wireless sensors to field mapping: Anatomy of an application for precision agriculture \|url=https://www.sciencedirect.com/science/article/pii/S0168169907000610 \|journal=Computers and Electronics in Agriculture \|series=Precision Agriculture in Latin America \|language=en \|volume=58 \|issue=1 \|pages=25–36 \|doi=10.1016/j.compag.2007.01.019 \|issn=0168-1699}}</ref>
	* In-flight enterteinment networks.<ref>{{Cite patent\|number=US8401021B2\|title=Systems and methods for prioritizing wireless communication of aircraft\|gdate=2013-03-19\|invent1=Buga\|invent2=Trent\|inventor1-first=Wladyslaw Jan\|inventor2-first=Tracy Raymond\|url=https://patents.google.com/patent/US8401021B2/en}}</ref>		* In-flight enterteinment networks.<ref>{{Cite patent\|number=US8401021B2\|title=Systems and methods for prioritizing wireless communication of aircraft\|gdate=2013-03-19\|invent1=Buga\|invent2=Trent\|inventor1-first=Wladyslaw Jan\|inventor2-first=Tracy Raymond\|url=https://patents.google.com/patent/US8401021B2/en}}</ref>
	* Major security and firmware updates for mobile product families.<ref>{{Cite book \|last1=Tonyali \|first1=Samet \|last2=Akkaya \|first2=Kemal \|last3=Saputro \|first3=Nico \|last4=Cheng \|first4=Xiuzhen \|author4-link= Xiuzhen Cheng \|title=2017 26th International Conference on Computer Communication and Networks (ICCCN) \|chapter=An Attribute & Network Coding-Based Secure Multicast Protocol for Firmware Updates in Smart Grid AMI Networks \|date=July 2017 \|chapter-url=https://ieeexplore.ieee.org/document/8038415 \|location=Vancouver, BC, Canada \|publisher=IEEE \|pages=1–9 \|doi=10.1109/ICCCN.2017.8038415 \|isbn=978-1-5090-2991-4\|s2cid=25131878 }}</ref><ref>{{Cite book \|last1=Jalil \|first1=Syed Qaisar \|last2=Chalup \|first2=Stephan \|last3=Rehmani \|first3=Mubashir Husain \|title=Smart Grid and Internet of Things \|chapter=A Smart Meter Firmware Update Strategy Through Network Coding for AMI Network \|date=2019 \|editor-last=Pathan \|editor-first=Al-Sakib Khan \|editor2-last=Fadlullah \|editor2-first=Zubair Md. \|editor3-last=Guerroumi \|editor3-first=Mohamed \|chapter-url=https://link.springer.com/chapter/10.1007/978-3-030-05928-6_7 \|series=Lecture Notes of the Institute for Computer Sciences, Social Informatics and Telecommunications Engineering \|volume=256 \|language=en \|location=Cham \|publisher=Springer International Publishing \|pages=68–77 \|doi=10.1007/978-3-030-05928-6_7 \|isbn=978-3-030-05928-6\|s2cid=59561476 }}</ref>		* Major security and firmware updates for mobile product families.<ref>{{Cite book \|last1=Tonyali \|first1=Samet \|last2=Akkaya \|first2=Kemal \|last3=Saputro \|first3=Nico \|last4=Cheng \|first4=Xiuzhen \|author4-link= Xiuzhen Cheng \|title=2017 26th International Conference on Computer Communication and Networks (ICCCN) \|chapter=An Attribute & Network Coding-Based Secure Multicast Protocol for Firmware Updates in Smart Grid AMI Networks \|date=July 2017 \|chapter-url=https://ieeexplore.ieee.org/document/8038415 \|location=Vancouver, BC, Canada \|publisher=IEEE \|pages=1–9 \|doi=10.1109/ICCCN.2017.8038415 \|isbn=978-1-5090-2991-4\|s2cid=25131878 }}</ref><ref>{{Cite book \|last1=Jalil \|first1=Syed Qaisar \|last2=Chalup \|first2=Stephan \|last3=Rehmani \|first3=Mubashir Husain \|title=Smart Grid and Internet of Things \|chapter=A Smart Meter Firmware Update Strategy Through Network Coding for AMI Network \|date=2019 \|editor-last=Pathan \|editor-first=Al-Sakib Khan \|editor2-last=Fadlullah \|editor2-first=Zubair Md. \|editor3-last=Guerroumi \|editor3-first=Mohamed \|chapter-url=https://link.springer.com/chapter/10.1007/978-3-030-05928-6_7 \|series=Lecture Notes of the Institute for Computer Sciences, Social Informatics and Telecommunications Engineering \|volume=256 \|language=en \|location=Cham \|publisher=Springer International Publishing \|pages=68–77 \|doi=10.1007/978-3-030-05928-6_7 \|isbn=978-3-030-05928-6\|s2cid=59561476 }}</ref>

← Previous revision		Revision as of 23:38, 8 April 2024
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	* Remote vehicle driving applications.<ref>{{Cite book \|last1=De Jonckere \|first1=Olivier \|last2=Chorin \|first2=Jean \|last3=Feldmann \|first3=Marius \|title=2017 6th International Conference on Space Mission Challenges for Information Technology (SMC-IT) \|chapter=Simulation Environment for Network Coding Research in Ring Road Networks \|date=September 2017 \|chapter-url=https://ieeexplore.ieee.org/document/8227552 \|location=Alcala de Henares \|publisher=IEEE \|pages=128–131 \|doi=10.1109/SMC-IT.2017.29 \|isbn=978-1-5386-3462-2\|s2cid=6180560 }}</ref><ref>{{Cite journal \|last1=Jamil \|first1=Farhan \|last2=Javaid \|first2=Anam \|last3=Umer \|first3=Tariq \|last4=Rehmani \|first4=Mubashir Husain \|date=November 2017 \|title=A comprehensive survey of network coding in vehicular ad-hoc networks \|url=http://link.springer.com/10.1007/s11276-016-1294-z \|journal=Wireless Networks \|language=en \|volume=23 \|issue=8 \|pages=2395–2414 \|doi=10.1007/s11276-016-1294-z \|s2cid=13624914 \|issn=1022-0038}}</ref><ref>{{Cite journal \|last1=Park \|first1=Joon-Sang \|last2=Lee \|first2=Uichin \|last3=Gerla \|first3=Mario \|date=May 2010 \|title=Vehicular communications: emergency video streams and network coding \|journal=Journal of Internet Services and Applications \|language=en \|volume=1 \|issue=1 \|pages=57–68 \|doi=10.1007/s13174-010-0006-7 \|s2cid=2143201 \|issn=1867-4828\|doi-access=free }}</ref><ref>{{cite arXiv \|last1=Noor-A-Rahim \|first1=Md \|last2=Liu \|first2=Zilong \|last3=Lee \|first3=Haeyoung \|last4=Khyam \|first4=M. Omar \|last5=He \|first5=Jianhua \|last6=Pesch \|first6=Dirk \|last7=Moessner \|first7=Klaus \|last8=Saad \|first8=Walid \|last9=Poor \|first9=H. Vincent \|date=2022-05-01 \|title=6G for Vehicle-to-Everything (V2X) Communications: Enabling Technologies, Challenges, and Opportunities \|class=cs.IT \|eprint=2012.07753}}</ref>		* Remote vehicle driving applications.<ref>{{Cite book \|last1=De Jonckere \|first1=Olivier \|last2=Chorin \|first2=Jean \|last3=Feldmann \|first3=Marius \|title=2017 6th International Conference on Space Mission Challenges for Information Technology (SMC-IT) \|chapter=Simulation Environment for Network Coding Research in Ring Road Networks \|date=September 2017 \|chapter-url=https://ieeexplore.ieee.org/document/8227552 \|location=Alcala de Henares \|publisher=IEEE \|pages=128–131 \|doi=10.1109/SMC-IT.2017.29 \|isbn=978-1-5386-3462-2\|s2cid=6180560 }}</ref><ref>{{Cite journal \|last1=Jamil \|first1=Farhan \|last2=Javaid \|first2=Anam \|last3=Umer \|first3=Tariq \|last4=Rehmani \|first4=Mubashir Husain \|date=November 2017 \|title=A comprehensive survey of network coding in vehicular ad-hoc networks \|url=http://link.springer.com/10.1007/s11276-016-1294-z \|journal=Wireless Networks \|language=en \|volume=23 \|issue=8 \|pages=2395–2414 \|doi=10.1007/s11276-016-1294-z \|s2cid=13624914 \|issn=1022-0038}}</ref><ref>{{Cite journal \|last1=Park \|first1=Joon-Sang \|last2=Lee \|first2=Uichin \|last3=Gerla \|first3=Mario \|date=May 2010 \|title=Vehicular communications: emergency video streams and network coding \|journal=Journal of Internet Services and Applications \|language=en \|volume=1 \|issue=1 \|pages=57–68 \|doi=10.1007/s13174-010-0006-7 \|s2cid=2143201 \|issn=1867-4828\|doi-access=free }}</ref><ref>{{cite arXiv \|last1=Noor-A-Rahim \|first1=Md \|last2=Liu \|first2=Zilong \|last3=Lee \|first3=Haeyoung \|last4=Khyam \|first4=M. Omar \|last5=He \|first5=Jianhua \|last6=Pesch \|first6=Dirk \|last7=Moessner \|first7=Klaus \|last8=Saad \|first8=Walid \|last9=Poor \|first9=H. Vincent \|date=2022-05-01 \|title=6G for Vehicle-to-Everything (V2X) Communications: Enabling Technologies, Challenges, and Opportunities \|class=cs.IT \|eprint=2012.07753}}</ref>
	* [[Connected cars]] networks.<ref>{{Cite book \|last1=Achour \|first1=Imen \|last2=Bejaoui \|first2=Tarek \|last3=Busson \|first3=Anthony \|last4=Tabbane \|first4=Sami \|title=2017 IEEE International Conference on Communications Workshops (ICC Workshops) \|chapter=Network Coding scheme behavior in a Vehicle-to-Vehicle safety message dissemination \|date=October 2017 \|chapter-url=https://ieeexplore.ieee.org/document/7962697 \|location=Paris, France \|publisher=IEEE \|pages=441–446 \|doi=10.1109/ICCW.2017.7962697 \|isbn=978-1-5090-1525-2\|s2cid=22423560 }}</ref><ref>{{Cite journal \|last1=Wang \|first1=Shujuan \|last2=Lu \|first2=Shuguang \|last3=Zhang \|first3=Qian \|date=April 2019 \|title=Instantly decodable network coding–assisted data dissemination for prioritized services in vehicular ad hoc networks \|journal=International Journal of Distributed Sensor Networks \|language=en \|volume=15 \|issue=4 \|pages=155014771984213 \|doi=10.1177/1550147719842137 \|s2cid=145983739 \|issn=1550-1477\|doi-access=free }}</ref>		* [[Connected cars]] networks.<ref>{{Cite book \|last1=Achour \|first1=Imen \|last2=Bejaoui \|first2=Tarek \|last3=Busson \|first3=Anthony \|last4=Tabbane \|first4=Sami \|title=2017 IEEE International Conference on Communications Workshops (ICC Workshops) \|chapter=Network Coding scheme behavior in a Vehicle-to-Vehicle safety message dissemination \|date=October 2017 \|chapter-url=https://ieeexplore.ieee.org/document/7962697 \|location=Paris, France \|publisher=IEEE \|pages=441–446 \|doi=10.1109/ICCW.2017.7962697 \|isbn=978-1-5090-1525-2\|s2cid=22423560 }}</ref><ref>{{Cite journal \|last1=Wang \|first1=Shujuan \|last2=Lu \|first2=Shuguang \|last3=Zhang \|first3=Qian \|date=April 2019 \|title=Instantly decodable network coding–assisted data dissemination for prioritized services in vehicular ad hoc networks \|journal=International Journal of Distributed Sensor Networks \|language=en \|volume=15 \|issue=4 \|pages=155014771984213 \|doi=10.1177/1550147719842137 \|s2cid=145983739 \|issn=1550-1477\|doi-access=free }}</ref>
	* Gaming applications such as low latency streaming and multiplayer connectivity.<ref>{{cite arXiv \|last1=Dammak \|first1=Marwa \|last2=Andriyanova \|first2=Iryna \|last3=Boujelben \|first3=Yassine \|last4=Sellami \|first4=Noura \|date=2018-03-29 \|title=Routing and Network Coding over a Cyclic Network for Online Video Gaming \|class=cs.IT \|eprint=1803.11102 }}</ref><ref>{{Cite book \|last1=Lajtha \|first1=Balázs \|last2=Biczók \|first2=Gergely \|last3=Szabó \|first3=Róbert \|title=Networked Services and Applications - Engineering, Control and Management \|chapter=Enabling P2P Gaming with Network Coding \|date=2010 \|editor-last=Aagesen \|editor-first=Finn Arve \|editor2-last=Knapskog \|editor2-first=Svein Johan \|series=Lecture Notes in Computer Science \|volume=6164 \|language=en \|location=Berlin, Heidelberg \|publisher=Springer \|pages=76–86 \|doi=10.1007/978-3-642-13971-0_8 \|isbn=978-3-642-13971-0\|doi-access=free }}</ref><ref>{{Cite thesis \|title=Network coding application for online games platformes \|url=https://tel.archives-ouvertes.fr/tel-02284091 \|publisher=Université de Cergy Pontoise ; École nationale d'ingénieurs de Sfax (Tunisie) \|date=2018-11-20 \|degree=phdthesis \|language=en \|first=Marwa \|last=Dammak}}</ref><ref>{{Citation \|last1=Lajtha \|first1=Balázs \|title=Enabling P2P Gaming with Network Coding \|date=2010 \|work=Networked Services and Applications - Engineering, Control and Management \|volume=6164 \|pages=76–86 \|editor-last=Aagesen \|editor-first=Finn Arve \|place=Berlin, Heidelberg \|publisher=Springer Berlin Heidelberg \|doi=10.1007/978-3-642-13971-0_8 \|isbn=978-3-642-13970-3 \|last2=Biczók \|first2=Gergely \|last3=Szabó \|first3=Róbert \|series=Lecture Notes in Computer Science \|editor2-last=Knapskog \|editor2-first=Svein Johan\|doi-access=free }}</ref>		* Gaming applications such as low latency streaming and multiplayer connectivity.<ref>{{cite arXiv \|last1=Dammak \|first1=Marwa \|last2=Andriyanova \|first2=Iryna \|last3=Boujelben \|first3=Yassine \|last4=Sellami \|first4=Noura \|date=2018-03-29 \|title=Routing and Network Coding over a Cyclic Network for Online Video Gaming \|class=cs.IT \|eprint=1803.11102 }}</ref><ref>{{Cite book \|last1=Lajtha \|first1=Balázs \|last2=Biczók \|first2=Gergely \|last3=Szabó \|first3=Róbert \|title=Networked Services and Applications - Engineering, Control and Management \|chapter=Enabling P2P Gaming with Network Coding \|date=2010 \|editor-last=Aagesen \|editor-first=Finn Arve \|editor2-last=Knapskog \|editor2-first=Svein Johan \|series=Lecture Notes in Computer Science \|volume=6164 \|language=en \|location=Berlin, Heidelberg \|publisher=Springer \|pages=76–86 \|doi=10.1007/978-3-642-13971-0_8 \|isbn=978-3-642-13971-0\|doi-access=free }}</ref><ref>{{Cite thesis \|title=Network coding application for online games platformes \|url=https://tel.archives-ouvertes.fr/tel-02284091 \|publisher=Université de Cergy Pontoise; École nationale d'ingénieurs de Sfax (Tunisie) \|date=2018-11-20 \|degree=phdthesis \|language=en \|first=Marwa \|last=Dammak}}</ref><ref>{{Citation \|last1=Lajtha \|first1=Balázs \|title=Enabling P2P Gaming with Network Coding \|date=2010 \|work=Networked Services and Applications - Engineering, Control and Management \|volume=6164 \|pages=76–86 \|editor-last=Aagesen \|editor-first=Finn Arve \|place=Berlin, Heidelberg \|publisher=Springer Berlin Heidelberg \|doi=10.1007/978-3-642-13971-0_8 \|isbn=978-3-642-13970-3 \|last2=Biczók \|first2=Gergely \|last3=Szabó \|first3=Róbert \|series=Lecture Notes in Computer Science \|editor2-last=Knapskog \|editor2-first=Svein Johan\|doi-access=free }}</ref>
	* Healthcare applications.<ref>{{Cite book \|url=https://www.worldcat.org/oclc/881429695 \|title=Sensor networks for sustainable development \|date=2014 \|first1=Mohammad \|last1=Ilyas \|first2=Sami S. \|last2=Alwakeel \|first3=Mohammed M. \|last3=Alwakeel \|first4=el-Hadi M. \|last4=Aggoune \|isbn=978-1-4665-8207-1 \|location=Boca Raton, FL \|chapter=Exploiting Network Coding for Smart Healthcare \|doi=10.1201/b17124-13 \|oclc=881429695 \|chapter-url=https://www.taylorfrancis.com/chapters/edit/10.1201/b17124-13/exploiting-network-coding-smart-healthcare-elli-kartsakli-angelos-antonopoulos-christos-verikoukis}}</ref><ref>{{Cite journal \|last1=Kartsakli \|first1=Elli \|last2=Antonopoulos \|first2=Angelos \|last3=Alonso \|first3=Luis \|last4=Verikoukis \|first4=Christos \|date=2014-03-10 \|title=A Cloud-Assisted Random Linear Network Coding Medium Access Control Protocol for Healthcare Applications \|journal=Sensors \|language=en \|volume=14 \|issue=3 \|pages=4806–4830 \|doi=10.3390/s140304806 \|issn=1424-8220 \|pmc=4003969 \|pmid=24618727\|bibcode=2014Senso..14.4806K \|doi-access=free }}</ref><ref>{{Cite book \|last1=Taparugssanagorn \|first1=Attaphongse \|last2=Ono \|first2=Fumie \|last3=Kohno \|first3=Ryuji \|title=2010 IEEE 21st International Symposium on Personal, Indoor and Mobile Radio Communications Workshops \|chapter=Network coding for non-invasive Wireless Body Area Networks \|date=September 2010 \|chapter-url=https://ieeexplore.ieee.org/document/5670413 \|pages=134–138 \|doi=10.1109/PIMRCW.2010.5670413\|isbn=978-1-4244-9117-9 \|s2cid=25872472 }}</ref>		* Healthcare applications.<ref>{{Cite book \|url=https://www.worldcat.org/oclc/881429695 \|title=Sensor networks for sustainable development \|date=2014 \|first1=Mohammad \|last1=Ilyas \|first2=Sami S. \|last2=Alwakeel \|first3=Mohammed M. \|last3=Alwakeel \|first4=el-Hadi M. \|last4=Aggoune \|isbn=978-1-4665-8207-1 \|location=Boca Raton, FL \|chapter=Exploiting Network Coding for Smart Healthcare \|doi=10.1201/b17124-13 \|oclc=881429695 \|chapter-url=https://www.taylorfrancis.com/chapters/edit/10.1201/b17124-13/exploiting-network-coding-smart-healthcare-elli-kartsakli-angelos-antonopoulos-christos-verikoukis}}</ref><ref>{{Cite journal \|last1=Kartsakli \|first1=Elli \|last2=Antonopoulos \|first2=Angelos \|last3=Alonso \|first3=Luis \|last4=Verikoukis \|first4=Christos \|date=2014-03-10 \|title=A Cloud-Assisted Random Linear Network Coding Medium Access Control Protocol for Healthcare Applications \|journal=Sensors \|language=en \|volume=14 \|issue=3 \|pages=4806–4830 \|doi=10.3390/s140304806 \|issn=1424-8220 \|pmc=4003969 \|pmid=24618727\|bibcode=2014Senso..14.4806K \|doi-access=free }}</ref><ref>{{Cite book \|last1=Taparugssanagorn \|first1=Attaphongse \|last2=Ono \|first2=Fumie \|last3=Kohno \|first3=Ryuji \|title=2010 IEEE 21st International Symposium on Personal, Indoor and Mobile Radio Communications Workshops \|chapter=Network coding for non-invasive Wireless Body Area Networks \|date=September 2010 \|chapter-url=https://ieeexplore.ieee.org/document/5670413 \|pages=134–138 \|doi=10.1109/PIMRCW.2010.5670413\|isbn=978-1-4244-9117-9 \|s2cid=25872472 }}</ref>
	* [[Fourth Industrial Revolution\|Industry 4.0]].<ref>{{Cite book \|last1=Peralta \|first1=Goiuri \|last2=Iglesias-Urkia \|first2=Markel \|last3=Barcelo \|first3=Marc \|last4=Gomez \|first4=Raul \|last5=Moran \|first5=Adrian \|last6=Bilbao \|first6=Josu \|title=2017 IEEE International Workshop of Electronics, Control, Measurement, Signals and their Application to Mechatronics (ECMSM) \|chapter=Fog computing based efficient IoT scheme for the Industry 4.0 \|date=May 2017 \|chapter-url=https://ieeexplore.ieee.org/document/7945879 \|location=Donostia, San Sebastian, Spain \|publisher=IEEE \|pages=1–6 \|doi=10.1109/ECMSM.2017.7945879 \|isbn=978-1-5090-5582-1\|s2cid=37985560 }}</ref><ref>{{Cite journal \|last1=Peralta \|first1=Goiuri \|last2=Garrido \|first2=Pablo \|last3=Bilbao \|first3=Josu \|last4=Agüero \|first4=Ramón \|last5=Crespo \|first5=Pedro \|date=2019-04-08 \|title=On the Combination of Multi-Cloud and Network Coding for Cost-Efficient Storage in Industrial Applications \|journal=Sensors \|language=en \|volume=19 \|issue=7 \|pages=1673 \|doi=10.3390/s19071673 \|issn=1424-8220 \|pmc=6479523 \|pmid=30965629\|bibcode=2019Senso..19.1673P \|doi-access=free }}</ref><ref>{{Cite book \|last1=Zverev \|first1=Mihail \|last2=Agüero \|first2=Ramón \|last3=Garrido \|first3=Pablo \|last4=Bilbao \|first4=Josu \|title=Proceedings of the 9th International Conference on the Internet of Things \|chapter=Network Coding for IIoT Multi-Cloud Environments \|date=2019-10-22 \|chapter-url=https://doi.org/10.1145/3365871.3365903 \|series=IoT 2019 \|location=New York, NY, USA \|publisher=Association for Computing Machinery \|pages=1–4 \|doi=10.1145/3365871.3365903 \|isbn=978-1-4503-7207-7\|s2cid=207940281 }}</ref>		* [[Fourth Industrial Revolution\|Industry 4.0]].<ref>{{Cite book \|last1=Peralta \|first1=Goiuri \|last2=Iglesias-Urkia \|first2=Markel \|last3=Barcelo \|first3=Marc \|last4=Gomez \|first4=Raul \|last5=Moran \|first5=Adrian \|last6=Bilbao \|first6=Josu \|title=2017 IEEE International Workshop of Electronics, Control, Measurement, Signals and their Application to Mechatronics (ECMSM) \|chapter=Fog computing based efficient IoT scheme for the Industry 4.0 \|date=May 2017 \|chapter-url=https://ieeexplore.ieee.org/document/7945879 \|location=Donostia, San Sebastian, Spain \|publisher=IEEE \|pages=1–6 \|doi=10.1109/ECMSM.2017.7945879 \|isbn=978-1-5090-5582-1\|s2cid=37985560 }}</ref><ref>{{Cite journal \|last1=Peralta \|first1=Goiuri \|last2=Garrido \|first2=Pablo \|last3=Bilbao \|first3=Josu \|last4=Agüero \|first4=Ramón \|last5=Crespo \|first5=Pedro \|date=2019-04-08 \|title=On the Combination of Multi-Cloud and Network Coding for Cost-Efficient Storage in Industrial Applications \|journal=Sensors \|language=en \|volume=19 \|issue=7 \|pages=1673 \|doi=10.3390/s19071673 \|issn=1424-8220 \|pmc=6479523 \|pmid=30965629\|bibcode=2019Senso..19.1673P \|doi-access=free }}</ref><ref>{{Cite book \|last1=Zverev \|first1=Mihail \|last2=Agüero \|first2=Ramón \|last3=Garrido \|first3=Pablo \|last4=Bilbao \|first4=Josu \|title=Proceedings of the 9th International Conference on the Internet of Things \|chapter=Network Coding for IIoT Multi-Cloud Environments \|date=2019-10-22 \|chapter-url=https://doi.org/10.1145/3365871.3365903 \|series=IoT 2019 \|location=New York, NY, USA \|publisher=Association for Computing Machinery \|pages=1–4 \|doi=10.1145/3365871.3365903 \|isbn=978-1-4503-7207-7\|s2cid=207940281 }}</ref>

← Previous revision		Revision as of 21:55, 27 November 2023
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	* Agricultural sensor fields.<ref>{{Cite book \|last1=Hsu \|first1=Hsiao-Tzu \|last2=Wang \|first2=Tzu-Ming \|last3=Kuo \|first3=Yuan-Cheng \|title=Proceedings of the 2018 2nd International Conference on Education and E-Learning \|chapter=Implementation of Agricultural Monitoring System Based on the Internet of Things \|date=2018-11-05 \|chapter-url=https://doi.org/10.1145/3291078.3291098 \|series=ICEEL 2018 \|location=New York, NY, USA \|publisher=Association for Computing Machinery \|pages=212–216 \|doi=10.1145/3291078.3291098 \|isbn=978-1-4503-6577-2\|s2cid=59337140 }}</ref><ref>{{Cite journal \|last1=Syed \|first1=Abid Husain \|last2=Ali \|first2=Syed Zakir \|date=2021-08-11 \|title=Towards Transforming Agriculture for Challenges of 21st Century by Optimizing Resources Using IOT, Fuzzy Logic and Network Coding \|url=https://www.preprints.org/manuscript/202108.0262/v1 \|doi=10.20944/preprints202108.0262.v1\|s2cid=238723260 \|doi-access=free }}</ref><ref>{{Cite journal \|last1=Camilli \|first1=Alberto \|last2=Cugnasca \|first2=Carlos E. \|last3=Saraiva \|first3=Antonio M. \|last4=Hirakawa \|first4=André R. \|last5=Corrêa \|first5=Pedro L. P. \|date=2007-08-01 \|title=From wireless sensors to field mapping: Anatomy of an application for precision agriculture \|url=https://www.sciencedirect.com/science/article/pii/S0168169907000610 \|journal=Computers and Electronics in Agriculture \|series=Precision Agriculture in Latin America \|language=en \|volume=58 \|issue=1 \|pages=25–36 \|doi=10.1016/j.compag.2007.01.019 \|issn=0168-1699}}</ref>		* Agricultural sensor fields.<ref>{{Cite book \|last1=Hsu \|first1=Hsiao-Tzu \|last2=Wang \|first2=Tzu-Ming \|last3=Kuo \|first3=Yuan-Cheng \|title=Proceedings of the 2018 2nd International Conference on Education and E-Learning \|chapter=Implementation of Agricultural Monitoring System Based on the Internet of Things \|date=2018-11-05 \|chapter-url=https://doi.org/10.1145/3291078.3291098 \|series=ICEEL 2018 \|location=New York, NY, USA \|publisher=Association for Computing Machinery \|pages=212–216 \|doi=10.1145/3291078.3291098 \|isbn=978-1-4503-6577-2\|s2cid=59337140 }}</ref><ref>{{Cite journal \|last1=Syed \|first1=Abid Husain \|last2=Ali \|first2=Syed Zakir \|date=2021-08-11 \|title=Towards Transforming Agriculture for Challenges of 21st Century by Optimizing Resources Using IOT, Fuzzy Logic and Network Coding \|url=https://www.preprints.org/manuscript/202108.0262/v1 \|doi=10.20944/preprints202108.0262.v1\|s2cid=238723260 \|doi-access=free }}</ref><ref>{{Cite journal \|last1=Camilli \|first1=Alberto \|last2=Cugnasca \|first2=Carlos E. \|last3=Saraiva \|first3=Antonio M. \|last4=Hirakawa \|first4=André R. \|last5=Corrêa \|first5=Pedro L. P. \|date=2007-08-01 \|title=From wireless sensors to field mapping: Anatomy of an application for precision agriculture \|url=https://www.sciencedirect.com/science/article/pii/S0168169907000610 \|journal=Computers and Electronics in Agriculture \|series=Precision Agriculture in Latin America \|language=en \|volume=58 \|issue=1 \|pages=25–36 \|doi=10.1016/j.compag.2007.01.019 \|issn=0168-1699}}</ref>
	* In-flight enterteinment networks.<ref>{{Cite patent\|number=US8401021B2\|title=Systems and methods for prioritizing wireless communication of aircraft\|gdate=2013-03-19\|invent1=Buga\|invent2=Trent\|inventor1-first=Wladyslaw Jan\|inventor2-first=Tracy Raymond\|url=https://patents.google.com/patent/US8401021B2/en}}</ref>		* In-flight enterteinment networks.<ref>{{Cite patent\|number=US8401021B2\|title=Systems and methods for prioritizing wireless communication of aircraft\|gdate=2013-03-19\|invent1=Buga\|invent2=Trent\|inventor1-first=Wladyslaw Jan\|inventor2-first=Tracy Raymond\|url=https://patents.google.com/patent/US8401021B2/en}}</ref>
	* Major security and firmware updates for mobile product families.<ref>{{Cite book \|last1=Tonyali \|first1=Samet \|last2=Akkaya \|first2=Kemal \|last3=Saputro \|first3=Nico \|last4=Cheng \|first4=Xiuzhen \|title=2017 26th International Conference on Computer Communication and Networks (ICCCN) \|chapter=An Attribute & Network Coding-Based Secure Multicast Protocol for Firmware Updates in Smart Grid AMI Networks \|date=July 2017 \|chapter-url=https://ieeexplore.ieee.org/document/8038415 \|location=Vancouver, BC, Canada \|publisher=IEEE \|pages=1–9 \|doi=10.1109/ICCCN.2017.8038415 \|isbn=978-1-5090-2991-4\|s2cid=25131878 }}</ref><ref>{{Cite book \|last1=Jalil \|first1=Syed Qaisar \|last2=Chalup \|first2=Stephan \|last3=Rehmani \|first3=Mubashir Husain \|title=Smart Grid and Internet of Things \|chapter=A Smart Meter Firmware Update Strategy Through Network Coding for AMI Network \|date=2019 \|editor-last=Pathan \|editor-first=Al-Sakib Khan \|editor2-last=Fadlullah \|editor2-first=Zubair Md. \|editor3-last=Guerroumi \|editor3-first=Mohamed \|chapter-url=https://link.springer.com/chapter/10.1007/978-3-030-05928-6_7 \|series=Lecture Notes of the Institute for Computer Sciences, Social Informatics and Telecommunications Engineering \|volume=256 \|language=en \|location=Cham \|publisher=Springer International Publishing \|pages=68–77 \|doi=10.1007/978-3-030-05928-6_7 \|isbn=978-3-030-05928-6\|s2cid=59561476 }}</ref>		* Major security and firmware updates for mobile product families.<ref>{{Cite book \|last1=Tonyali \|first1=Samet \|last2=Akkaya \|first2=Kemal \|last3=Saputro \|first3=Nico \|last4=Cheng \|first4=Xiuzhen \|author4-link= Xiuzhen Cheng \|title=2017 26th International Conference on Computer Communication and Networks (ICCCN) \|chapter=An Attribute & Network Coding-Based Secure Multicast Protocol for Firmware Updates in Smart Grid AMI Networks \|date=July 2017 \|chapter-url=https://ieeexplore.ieee.org/document/8038415 \|location=Vancouver, BC, Canada \|publisher=IEEE \|pages=1–9 \|doi=10.1109/ICCCN.2017.8038415 \|isbn=978-1-5090-2991-4\|s2cid=25131878 }}</ref><ref>{{Cite book \|last1=Jalil \|first1=Syed Qaisar \|last2=Chalup \|first2=Stephan \|last3=Rehmani \|first3=Mubashir Husain \|title=Smart Grid and Internet of Things \|chapter=A Smart Meter Firmware Update Strategy Through Network Coding for AMI Network \|date=2019 \|editor-last=Pathan \|editor-first=Al-Sakib Khan \|editor2-last=Fadlullah \|editor2-first=Zubair Md. \|editor3-last=Guerroumi \|editor3-first=Mohamed \|chapter-url=https://link.springer.com/chapter/10.1007/978-3-030-05928-6_7 \|series=Lecture Notes of the Institute for Computer Sciences, Social Informatics and Telecommunications Engineering \|volume=256 \|language=en \|location=Cham \|publisher=Springer International Publishing \|pages=68–77 \|doi=10.1007/978-3-030-05928-6_7 \|isbn=978-3-030-05928-6\|s2cid=59561476 }}</ref>
	* [[Smart city]] infrastructure.<ref>{{Cite book \|last1=Kumar \|first1=Vaibhav \|last2=Cardiff \|first2=Barry \|last3=Flanagan \|first3=Mark F. \|title=2017 IEEE 28th Annual International Symposium on Personal, Indoor, and Mobile Radio Communications (PIMRC) \|chapter=Physical-layer network coding with multiple antennas: An enabling technology for smart cities \|date=October 2017 \|chapter-url=https://ieeexplore.ieee.org/document/8292785 \|location=Montreal, QC \|publisher=IEEE \|pages=1–6 \|doi=10.1109/PIMRC.2017.8292785 \|hdl=10197/11114 \|isbn=978-1-5386-3529-2\|s2cid=748535 \|hdl-access=free }}</ref><ref>{{Citation \|last1=Darif \|first1=Anouar \|title=Network Coding for Energy Optimization of SWIMAC in Smart Cities Using WSN Based on IR-UWB \|date=2020 \|url=http://link.springer.com/10.1007/978-3-030-37629-1_48 \|work=Innovations in Smart Cities Applications Edition 3 \|pages=663–674 \|editor-last=Ben Ahmed \|editor-first=Mohamed \|place=Cham \|publisher=Springer International Publishing \|language=en \|doi=10.1007/978-3-030-37629-1_48 \|isbn=978-3-030-37628-4 \|access-date=2022-06-06 \|last2=Chaibi \|first2=Hasna \|last3=Saadane \|first3=Rachid \|series=Lecture Notes in Intelligent Transportation and Infrastructure \|s2cid=214486109 \|editor2-last=Boudhir \|editor2-first=Anouar Abdelhakim \|editor3-last=Santos \|editor3-first=Domingos \|editor4-last=El Aroussi \|editor4-first=Mohamed}}</ref>		* [[Smart city]] infrastructure.<ref>{{Cite book \|last1=Kumar \|first1=Vaibhav \|last2=Cardiff \|first2=Barry \|last3=Flanagan \|first3=Mark F. \|title=2017 IEEE 28th Annual International Symposium on Personal, Indoor, and Mobile Radio Communications (PIMRC) \|chapter=Physical-layer network coding with multiple antennas: An enabling technology for smart cities \|date=October 2017 \|chapter-url=https://ieeexplore.ieee.org/document/8292785 \|location=Montreal, QC \|publisher=IEEE \|pages=1–6 \|doi=10.1109/PIMRC.2017.8292785 \|hdl=10197/11114 \|isbn=978-1-5386-3529-2\|s2cid=748535 \|hdl-access=free }}</ref><ref>{{Citation \|last1=Darif \|first1=Anouar \|title=Network Coding for Energy Optimization of SWIMAC in Smart Cities Using WSN Based on IR-UWB \|date=2020 \|url=http://link.springer.com/10.1007/978-3-030-37629-1_48 \|work=Innovations in Smart Cities Applications Edition 3 \|pages=663–674 \|editor-last=Ben Ahmed \|editor-first=Mohamed \|place=Cham \|publisher=Springer International Publishing \|language=en \|doi=10.1007/978-3-030-37629-1_48 \|isbn=978-3-030-37628-4 \|access-date=2022-06-06 \|last2=Chaibi \|first2=Hasna \|last3=Saadane \|first3=Rachid \|series=Lecture Notes in Intelligent Transportation and Infrastructure \|s2cid=214486109 \|editor2-last=Boudhir \|editor2-first=Anouar Abdelhakim \|editor3-last=Santos \|editor3-first=Domingos \|editor4-last=El Aroussi \|editor4-first=Mohamed}}</ref>
	* [[Information-centric networking]] and [[named data networking]].:<ref name="Bilal, Muhammad 2019 1376–1385">{{cite journal \|author=Bilal, Muhammad \|display-authors=etal \|year=2019 \|title=Network-Coding Approach for Information-Centric Networking \|journal=IEEE Systems Journal \|volume=13 \|issue=2 \|pages=1376–1385 \|arxiv=1808.00348 \|bibcode=2019ISysJ..13.1376B \|doi=10.1109/JSYST.2018.2862913 \|s2cid=51894197}}</ref> Linear network coding can improve the network efficiency of information-centric networking solutions by exploiting the multi-source multi-cast nature of such systems.<ref name="Bilal, Muhammad 2019 1376–1385" /> It has been shown, that RLNC can be integrated into distributed content delivery networks such as [[InterPlanetary File System\|IPFS]] to increase data availability while reducing storage resources.<ref>{{Cite book \|last1=Zimmermann \|first1=Sandra \|last2=Rischke \|first2=Justus \|last3=Cabrera \|first3=Juan A. \|last4=Fitzek \|first4=Frank H. P. \|title=GLOBECOM 2020 - 2020 IEEE Global Communications Conference \|chapter=Journey to MARS: Interplanetary Coding for relieving CDNS \|date=December 2020 \|chapter-url=https://ieeexplore.ieee.org/document/9322478 \|location=Taipei, Taiwan \|publisher=IEEE \|pages=1–6 \|doi=10.1109/GLOBECOM42002.2020.9322478 \|isbn=978-1-7281-8298-8\|s2cid=231725197 }}</ref>		* [[Information-centric networking]] and [[named data networking]].:<ref name="Bilal, Muhammad 2019 1376–1385">{{cite journal \|author=Bilal, Muhammad \|display-authors=etal \|year=2019 \|title=Network-Coding Approach for Information-Centric Networking \|journal=IEEE Systems Journal \|volume=13 \|issue=2 \|pages=1376–1385 \|arxiv=1808.00348 \|bibcode=2019ISysJ..13.1376B \|doi=10.1109/JSYST.2018.2862913 \|s2cid=51894197}}</ref> Linear network coding can improve the network efficiency of information-centric networking solutions by exploiting the multi-source multi-cast nature of such systems.<ref name="Bilal, Muhammad 2019 1376–1385" /> It has been shown, that RLNC can be integrated into distributed content delivery networks such as [[InterPlanetary File System\|IPFS]] to increase data availability while reducing storage resources.<ref>{{Cite book \|last1=Zimmermann \|first1=Sandra \|last2=Rischke \|first2=Justus \|last3=Cabrera \|first3=Juan A. \|last4=Fitzek \|first4=Frank H. P. \|title=GLOBECOM 2020 - 2020 IEEE Global Communications Conference \|chapter=Journey to MARS: Interplanetary Coding for relieving CDNS \|date=December 2020 \|chapter-url=https://ieeexplore.ieee.org/document/9322478 \|location=Taipei, Taiwan \|publisher=IEEE \|pages=1–6 \|doi=10.1109/GLOBECOM42002.2020.9322478 \|isbn=978-1-7281-8298-8\|s2cid=231725197 }}</ref>

← Previous revision		Revision as of 18:33, 27 November 2023
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	Linear network coding may be used to improve a network's throughput, efficiency, and [[scalability]], as well as reducing attacks and eavesdropping. The [[Node (networking)\|node]]s of a network take ''several'' packets and combine for transmission. This process may be used to attain the maximum possible [[information]] [[flow network\|flow]] in a [[Network theory\|network]].		Linear network coding may be used to improve a network's throughput, efficiency, and [[scalability]], as well as reducing attacks and eavesdropping. The [[Node (networking)\|node]]s of a network take ''several'' packets and combine for transmission. This process may be used to attain the maximum possible [[information]] [[flow network\|flow]] in a [[Network theory\|network]].

	It has been proven that, theoretically, [[linear code\|linear coding]] is enough to achieve the upper bound in multicast problems with one source.<ref>S. Li, R. Yeung, and N. Cai, "Linear Network Coding"([http://pdos.lcs.mit.edu/decouto/papers/li03.pdf PDF]), in IEEE Transactions on Information Theory, Vol 49, No. 2, pp. 371–381, 2003</ref> However linear coding is not sufficient in general; even for more general versions of linearity such as [[convolutional coding]] and [[filter-bank coding]].<ref>R. Dougherty, [[Chris Freiling\|C. Freiling]], and K. Zeger, "Insufficiency of Linear Coding in Network Information Flow" ([http://code.ucsd.edu/~zeger/publications/journals/DoFrZe05-IT-Insufficiency/DoFrZe05-IT-Insufficiency.pdf PDF]), in IEEE Transactions on Information Theory, Vol. 51, No. 8, pp. 2745-2759, August 2005 ( [http://code.ucsd.edu/~zeger/publications/journals/DoFrZe05-IT-Insufficiency/DoFrZe05-IT-Insufficiency-erratum.pdf erratum])</ref> Finding optimal coding solutions for general network problems with arbitrary demands is a hard problem, which can be [[NP-hard]]<ref name="lehman_nc">{{cite conference\|last1=Rasala Lehman\|first1=A.\|title=Complexity classification of network information flow problems\|last2=Lehman\|first2=E.\|conference=15th ACM-SIAM SODA\|date=2004\|pages=142–150}}</ref><ref name="langberg_nc">{{cite journal\|last1=Langberg\|first1=M.\|title=The encoding complexity of network coding\|last2=Sprintson\|first2=A.\|last3=Bruck\|first3=J.\|journal=IEEE Transactions on Information Theory\|date=2006\|volume=52\|issue=6\|pages=2386–2397\|doi=10.1109/TIT.2006.874434\|s2cid=1414385 }}</ref>		It has been proven that, theoretically, [[linear code\|linear coding]] is enough to achieve the upper bound in multicast problems with one source.<ref>S. Li, R. Yeung, and N. Cai, "Linear Network Coding"([http://pdos.lcs.mit.edu/decouto/papers/li03.pdf PDF]), in IEEE Transactions on Information Theory, Vol 49, No. 2, pp. 371–381, 2003</ref> However linear coding is not sufficient in general; even for more general versions of linearity such as [[convolutional coding]] and [[filter-bank coding]].<ref>R. Dougherty, [[Chris Freiling\|C. Freiling]], and K. Zeger, "Insufficiency of Linear Coding in Network Information Flow" ([http://code.ucsd.edu/~zeger/publications/journals/DoFrZe05-IT-Insufficiency/DoFrZe05-IT-Insufficiency.pdf PDF]), in IEEE Transactions on Information Theory, Vol. 51, No. 8, pp. 2745-2759, August 2005 ( [http://code.ucsd.edu/~zeger/publications/journals/DoFrZe05-IT-Insufficiency/DoFrZe05-IT-Insufficiency-erratum.pdf erratum])</ref> Finding optimal coding solutions for general network problems with arbitrary demands is a hard problem, which can be [[NP-hard]]<ref name="lehman_nc">{{cite conference\|last1=Rasala Lehman\|first1=A.\|title=Complexity classification of network information flow problems\|last2=Lehman\|first2=E.\|conference=15th ACM-SIAM SODA\|date=2004\|pages=142–150}}</ref><ref name="langberg_nc">{{cite journal\|last1=Langberg\|first1=M.\|title=The encoding complexity of network coding\|last2=Sprintson\|first2=A.\|last3=Bruck\|first3=J.\|journal=IEEE Transactions on Information Theory\|date=2006\|volume=52\|issue=6\|pages=2386–2397\|doi=10.1109/TIT.2006.874434\|s2cid=1414385 \|url=https://resolver.caltech.edu/CaltechAUTHORS:LANieeetit06 }}</ref>
	and even [[Undecidable problem\|undecidable]].<ref name="li_nc">{{cite journal\|last1=Li\|first1=C. T.\|title=Undecidability of Network Coding, Conditional Information Inequalities, and Conditional Independence Implication\|journal=IEEE Transactions on Information Theory\|date=2023\|volume=69 \|issue=6 \|page=1 \|doi=10.1109/TIT.2023.3247570\|arxiv=2205.11461 \|s2cid=248986512 }}</ref><ref name="kuhne_matroid">{{cite journal\|last1=Kühne\|first1=L.\|title=Representability of Matroids by c-Arrangements is Undecidable\|last2=Yashfe\|first2=G.\|journal=Israel Journal of Mathematics\|date=2022\|volume=252 \|pages=95–147\|doi=10.1007/s11856-022-2345-z\|arxiv=1912.06123 \|s2cid=209324252 }}</ref>		and even [[Undecidable problem\|undecidable]].<ref name="li_nc">{{cite journal\|last1=Li\|first1=C. T.\|title=Undecidability of Network Coding, Conditional Information Inequalities, and Conditional Independence Implication\|journal=IEEE Transactions on Information Theory\|date=2023\|volume=69 \|issue=6 \|page=1 \|doi=10.1109/TIT.2023.3247570\|arxiv=2205.11461 \|s2cid=248986512 }}</ref><ref name="kuhne_matroid">{{cite journal\|last1=Kühne\|first1=L.\|title=Representability of Matroids by c-Arrangements is Undecidable\|last2=Yashfe\|first2=G.\|journal=Israel Journal of Mathematics\|date=2022\|volume=252 \|pages=95–147\|doi=10.1007/s11856-022-2345-z\|arxiv=1912.06123 \|s2cid=209324252 }}</ref>

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	* Distributed file sharing<ref>{{Cite journal \|last1=Firooz \|first1=Mohammad Hamed \|last2=Roy \|first2=Sumit \|date=24 March 2012 \|title=Data Dissemination in Wireless Networks with Network Coding \|journal=IEEE Communications Letters \|volume=17 \|issue=5 \|pages=944–947 \|doi=10.1109/LCOMM.2013.031313.121994 \|arxiv=1203.5395 \|s2cid=13576 \|issn=1089-7798}}</ref>		* Distributed file sharing<ref>{{Cite journal \|last1=Firooz \|first1=Mohammad Hamed \|last2=Roy \|first2=Sumit \|date=24 March 2012 \|title=Data Dissemination in Wireless Networks with Network Coding \|journal=IEEE Communications Letters \|volume=17 \|issue=5 \|pages=944–947 \|doi=10.1109/LCOMM.2013.031313.121994 \|arxiv=1203.5395 \|s2cid=13576 \|issn=1089-7798}}</ref>
	* Low-complexity video streaming to mobile device<ref>{{Cite journal \|last1=Fiandrotti \|first1=Attilio \|last2=Bioglio \|first2=Valerio \|last3=Grangetto \|first3=Marco \|last4=Gaeta \|first4=Rossano \|last5=Magli \|first5=Enrico \|date=11 October 2013 \|title=Band Codes for Energy-Efficient Network Coding With Application to P2P Mobile Streaming \|url=https://ieeexplore.ieee.org/document/6630050 \|journal=IEEE Transactions on Multimedia \|volume=16 \|issue=2 \|pages=521–532 \|doi=10.1109/TMM.2013.2285518 \|arxiv=1309.0316 \|s2cid=10548996 \|issn=1941-0077}}</ref>		* Low-complexity video streaming to mobile device<ref>{{Cite journal \|last1=Fiandrotti \|first1=Attilio \|last2=Bioglio \|first2=Valerio \|last3=Grangetto \|first3=Marco \|last4=Gaeta \|first4=Rossano \|last5=Magli \|first5=Enrico \|date=11 October 2013 \|title=Band Codes for Energy-Efficient Network Coding With Application to P2P Mobile Streaming \|url=https://ieeexplore.ieee.org/document/6630050 \|journal=IEEE Transactions on Multimedia \|volume=16 \|issue=2 \|pages=521–532 \|doi=10.1109/TMM.2013.2285518 \|arxiv=1309.0316 \|s2cid=10548996 \|issn=1941-0077}}</ref>
	* [[Device-to-device]] extensions<ref>{{Cite book \|last1=Wu \|first1=Yue \|last2=Liu \|first2=Wuling \|last3=Wang \|first3=Siyi \|last4=Guo \|first4=Weisi \|last5=Chu \|first5=Xiaoli \|title=2015 IEEE International Conference on Communications (ICC) \|chapter=Network coding in device-to-device (D2D) communications underlaying cellular networks \|date=June 2015 \|chapter-url=https://ieeexplore.ieee.org/document/7248631 \|pages=2072–2077 \|doi=10.1109/ICC.2015.7248631\|isbn=978-1-4673-6432-4 \|s2cid=19637201 }}</ref><ref>{{Cite book \|last1=Zhao \|first1=Yulei \|last2=Li \|first2=Yong \|last3=Ge \|first3=Ning \|title=2015 IEEE Global Communications Conference (GLOBECOM) \|chapter=Physical Layer Network Coding Aided Two-Way Device-to-Device Communication Underlaying Cellular Networks \|date=December 2015 \|chapter-url=https://ieeexplore.ieee.org/document/7417590 \|pages=1–6 \|doi=10.1109/GLOCOM.2015.7417590\|isbn=978-1-4799-5952-5 }}</ref><ref>{{Cite book \|last1=Abrardo \|first1=Andrea \|last2=Fodor \|first2=Gábor \|last3=Tola \|first3=Besmir \|title=2015 IEEE 16th International Workshop on Signal Processing Advances in Wireless Communications (SPAWC) \|chapter=Network coding schemes for Device-to-Device communications based relaying for cellular coverage extension \|date=2015 \|chapter-url=http://www.diva-portal.org/smash/get/diva2:795210/FULLTEXT01.pdf \|pages=670–674 \|doi=10.1109/SPAWC.2015.7227122\|isbn=978-1-4799-1931-4 \|s2cid=9591953 \|url=http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-160505 }}</ref><ref>{{Cite journal \|last1=Gao \|first1=Chuhan \|last2=Li \|first2=Yong \|last3=Zhao \|first3=Yulei \|last4=Chen \|first4=Sheng \|date=October 2017 \|title=A Two-Level Game Theory Approach for Joint Relay Selection and Resource Allocation in Network Coding Assisted D2D Communications \|url=https://eprints.soton.ac.uk/414039/1/NC_D2D.pdf \|journal=IEEE Transactions on Mobile Computing \|volume=16 \|issue=10 \|pages=2697–2711 \|doi=10.1109/TMC.2016.2642190 \|s2cid=22233426 \|issn=1558-0660}}</ref><ref>{{Cite journal \|last1=Zhou \|first1=Ting \|last2=Xu \|first2=Bin \|last3=Xu \|first3=Tianheng \|last4=Hu \|first4=Honglin \|last5=Xiong \|first5=Lei \|date=1 February 2015 \|title=User‐specific link adaptation scheme for device‐to‐device network coding multicast ~~\|url=https://ietresearch.onlinelibrary.wiley.com/doi/full/10.1049/iet-com.2014.0323~~ \|journal=IET Communications \|volume=9 \|issue=3 \|pages=367–374 \|doi=10.1049/iet-com.2014.0323 \|s2cid=27108894 \|issn=1751-8636\|doi-access=free }}</ref>		* [[Device-to-device]] extensions<ref>{{Cite book \|last1=Wu \|first1=Yue \|last2=Liu \|first2=Wuling \|last3=Wang \|first3=Siyi \|last4=Guo \|first4=Weisi \|last5=Chu \|first5=Xiaoli \|title=2015 IEEE International Conference on Communications (ICC) \|chapter=Network coding in device-to-device (D2D) communications underlaying cellular networks \|date=June 2015 \|chapter-url=https://ieeexplore.ieee.org/document/7248631 \|pages=2072–2077 \|doi=10.1109/ICC.2015.7248631\|isbn=978-1-4673-6432-4 \|s2cid=19637201 }}</ref><ref>{{Cite book \|last1=Zhao \|first1=Yulei \|last2=Li \|first2=Yong \|last3=Ge \|first3=Ning \|title=2015 IEEE Global Communications Conference (GLOBECOM) \|chapter=Physical Layer Network Coding Aided Two-Way Device-to-Device Communication Underlaying Cellular Networks \|date=December 2015 \|chapter-url=https://ieeexplore.ieee.org/document/7417590 \|pages=1–6 \|doi=10.1109/GLOCOM.2015.7417590\|isbn=978-1-4799-5952-5 }}</ref><ref>{{Cite book \|last1=Abrardo \|first1=Andrea \|last2=Fodor \|first2=Gábor \|last3=Tola \|first3=Besmir \|title=2015 IEEE 16th International Workshop on Signal Processing Advances in Wireless Communications (SPAWC) \|chapter=Network coding schemes for Device-to-Device communications based relaying for cellular coverage extension \|date=2015 \|chapter-url=http://www.diva-portal.org/smash/get/diva2:795210/FULLTEXT01.pdf \|pages=670–674 \|doi=10.1109/SPAWC.2015.7227122\|isbn=978-1-4799-1931-4 \|s2cid=9591953 \|url=http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-160505 }}</ref><ref>{{Cite journal \|last1=Gao \|first1=Chuhan \|last2=Li \|first2=Yong \|last3=Zhao \|first3=Yulei \|last4=Chen \|first4=Sheng \|date=October 2017 \|title=A Two-Level Game Theory Approach for Joint Relay Selection and Resource Allocation in Network Coding Assisted D2D Communications \|url=https://eprints.soton.ac.uk/414039/1/NC_D2D.pdf \|journal=IEEE Transactions on Mobile Computing \|volume=16 \|issue=10 \|pages=2697–2711 \|doi=10.1109/TMC.2016.2642190 \|s2cid=22233426 \|issn=1558-0660}}</ref><ref>{{Cite journal \|last1=Zhou \|first1=Ting \|last2=Xu \|first2=Bin \|last3=Xu \|first3=Tianheng \|last4=Hu \|first4=Honglin \|last5=Xiong \|first5=Lei \|date=1 February 2015 \|title=User‐specific link adaptation scheme for device‐to‐device network coding multicast \|journal=IET Communications \|volume=9 \|issue=3 \|pages=367–374 \|doi=10.1049/iet-com.2014.0323 \|s2cid=27108894 \|issn=1751-8636\|doi-access=free }}</ref>

	== See also ==		== See also ==