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Cars, sensors, home appliances, every device in the daily life of citizens is becoming a constituent in Future Internet, adding to the need to reconsider requirements and assumptions in terms of network availability and affordability to support the ever increasing traffic demand. Still, the current Internet can only evolve adequately, if its infrastructure can be devised to accommodate the emerging services. The increased cost of adding new infrastructure and capacity has a drastic effect on rural and remote communities as well as nomadic users as they become marginalized by not gaining access to crucial Internet services. Our goal is to make the Future Internet universally pervasive supporting a diverse set of services.
 
Cars, sensors, home appliances, every device in the daily life of citizens is becoming a constituent in Future Internet, adding to the need to reconsider requirements and assumptions in terms of network availability and affordability to support the ever increasing traffic demand. Still, the current Internet can only evolve adequately, if its infrastructure can be devised to accommodate the emerging services. The increased cost of adding new infrastructure and capacity has a drastic effect on rural and remote communities as well as nomadic users as they become marginalized by not gaining access to crucial Internet services. Our goal is to make the Future Internet universally pervasive supporting a diverse set of services.
  
To achieve this, we develop a universal mobile-centric and opportunistic communications architecture, which integrates the principles of Delay Tolerant Networking (DTN) and Information Centric Networking (ICN) in a common framework.
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To achieve this, we develop a '''universal mobile-centric and opportunistic communications architecture''' (UMOBILE), which integrates the principles of '''Delay Tolerant Networking''' (DTN) and '''Information Centric Networking''' (ICN) in a common framework.
  
 
We utilize the benefits of both ICN and DTN to enable resource exploitation at minimal bandwidth, opportunistic access to information and more localized access to information through novel caching strategies.
 
We utilize the benefits of both ICN and DTN to enable resource exploitation at minimal bandwidth, opportunistic access to information and more localized access to information through novel caching strategies.
  
 
UMOBILE focuses on assisting users in getting access to the content they want or content that may be of shared interest to their trust circles. By relying on an instance of the UMOBILE architecture, users are able to share information directly with other peers without relying on infrastructure or expensive connectivity services. The proposed architecture targets the mobile part of the networks, extends Internet connectivity to regions that are not typically covered enhancing network resilience and is fully backward compatible with the current Internet architecture. We will validate our architecture in a real world trial as well as participate strategically in carefully planned dissemination, standardization and exploitation activities to ensure that our architecture transcends from the lab to real world deployments.
 
UMOBILE focuses on assisting users in getting access to the content they want or content that may be of shared interest to their trust circles. By relying on an instance of the UMOBILE architecture, users are able to share information directly with other peers without relying on infrastructure or expensive connectivity services. The proposed architecture targets the mobile part of the networks, extends Internet connectivity to regions that are not typically covered enhancing network resilience and is fully backward compatible with the current Internet architecture. We will validate our architecture in a real world trial as well as participate strategically in carefully planned dissemination, standardization and exploitation activities to ensure that our architecture transcends from the lab to real world deployments.
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===Related works===
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[1] K. Fall, '''A Delay-tolerant Network Architecture for Challenged Internets''', Proceeding ACM SIGCOM, Karlsruhe, Germany, 2003.
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[2] G. Xylomenos, C. N. Ververidis,V. Siris, N. Fotiou, C. Tsilopoulos, X. Vasilakos, K.V. Katsaros,and G. C. Polyzos, '''A Survey of Information-Centric Networking Research'''. Communications Surveys Tutorials, IEEE, 16(2),  2014.
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[3]  R.C. Sofia, '''User-centric Networking: bringing the Home Network to the Core''', User-Centric Networking - Future Perspectives, Springer Lecture Notes in Social Networks, 2014, pp 3-23, May 2014. Ed. Aldini & Bogliolo, ISBN 978-3-319-05217-5.
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[4]  R. Sofia and P. Mendes, '''User-provided networks: Consumer as Provider'''. IEEE Communications Magazine, Feature Topic on Consumer Communications and Networking - Gaming and Entertainment, December 2008.
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[5]  W. Moreira, P. Mendes, and S. Sargento, '''Opportunistic routing based on daily routines''', in World of Wireless, Mobile and Multimedia Networks (WoWMoM), 2012 IEEE International Symposium on a, pp. 1–6, June 2012.
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[6] W. Moreira, P. Mendes, and S. Sargento, '''Social-aware opportunistic routing protocol based on users interactions and interests''', in Ad Hoc Networks (M. H. Sherif, A. Mellouk, J. Li, and P. Bellavista, eds.), vol. 129 of Lecture Notes of the Institute for Computer Sciences, Social Informatics and Telecommunications Engineering, pp. 100–115, Springer International Publishing, 2014.
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[7] W. Moreira and P. Mendes, '''Dynamics of social-aware pervasive network'''s, in The Fourth IEEE International Workshop on the Impact of Human Mobility in Pervasive Systems and Applications, 2015 (PerMoby’15), (St. Louis, USA), mar 2015.
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[8] W. Moreira and P. Mendes, '''Impact of human behavior on social opportunistic forwarding''', Ad Hoc Networks, vol. 25, Part B, no. 0, pp. 293 – 302, 2015. New Research Challenges in Mobile, Opportunistic and Delay-Tolerant Networks Energy-Aware Data Centers: Architecture, Infrastructure, and Communication.
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[9] A. Sathiaseelan, L. Wang, A. Aucinas, G. Tyson and J. Crowcroft: '''SCANDEX: Service Centric Networking for Challenged Decentralised Networks''', Proceedings of the ACM Mobisys Workshop on Do-it- yourself Networking: An Interdisciplinary Approach, 2015.
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[10]  C. B. Lafuente, J-M. Seigneur, R. Sofia, C. Silva, W. Moreira, '''Trust Management in ULOOP''', User-Centric Networking - Future Perspectives, Springer Lecture Notes in Social Net- works, 2014, pp 107-119, May 2014. Ed. Aldini & Bogliolo, ISBN 978-3-319-05217-5, May 2014.
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[11]  I.Psaras, L. Saino, M. Arumaithurai, K. K. Ramakrishnan and G. Pavlou,  '''Name- Based Replication Priorities in Disaster Cases'''., 2nd Workshop on Name Oriented Mobility (NOM 2014) in conjunction with the IEEE INFOCOM, Toronto, Canada, 2014.
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[12]  J.Ott, E.Hyytiä, P. Lassila, T. Vaegs and J.Kangasharju, '''Floating Content: Information Sharing in Urban Areas''', IEEE PerCom, Seattle, USA, 2011.

Latest revision as of 10:20, 7 July 2015

Cars, sensors, home appliances, every device in the daily life of citizens is becoming a constituent in Future Internet, adding to the need to reconsider requirements and assumptions in terms of network availability and affordability to support the ever increasing traffic demand. Still, the current Internet can only evolve adequately, if its infrastructure can be devised to accommodate the emerging services. The increased cost of adding new infrastructure and capacity has a drastic effect on rural and remote communities as well as nomadic users as they become marginalized by not gaining access to crucial Internet services. Our goal is to make the Future Internet universally pervasive supporting a diverse set of services.

To achieve this, we develop a universal mobile-centric and opportunistic communications architecture (UMOBILE), which integrates the principles of Delay Tolerant Networking (DTN) and Information Centric Networking (ICN) in a common framework.

We utilize the benefits of both ICN and DTN to enable resource exploitation at minimal bandwidth, opportunistic access to information and more localized access to information through novel caching strategies.

UMOBILE focuses on assisting users in getting access to the content they want or content that may be of shared interest to their trust circles. By relying on an instance of the UMOBILE architecture, users are able to share information directly with other peers without relying on infrastructure or expensive connectivity services. The proposed architecture targets the mobile part of the networks, extends Internet connectivity to regions that are not typically covered enhancing network resilience and is fully backward compatible with the current Internet architecture. We will validate our architecture in a real world trial as well as participate strategically in carefully planned dissemination, standardization and exploitation activities to ensure that our architecture transcends from the lab to real world deployments.


Related works

[1] K. Fall, A Delay-tolerant Network Architecture for Challenged Internets, Proceeding ACM SIGCOM, Karlsruhe, Germany, 2003.

[2] G. Xylomenos, C. N. Ververidis,V. Siris, N. Fotiou, C. Tsilopoulos, X. Vasilakos, K.V. Katsaros,and G. C. Polyzos, A Survey of Information-Centric Networking Research. Communications Surveys Tutorials, IEEE, 16(2), 2014.

[3]  R.C. Sofia, User-centric Networking: bringing the Home Network to the Core, User-Centric Networking - Future Perspectives, Springer Lecture Notes in Social Networks, 2014, pp 3-23, May 2014. Ed. Aldini & Bogliolo, ISBN 978-3-319-05217-5.

[4]  R. Sofia and P. Mendes, User-provided networks: Consumer as Provider. IEEE Communications Magazine, Feature Topic on Consumer Communications and Networking - Gaming and Entertainment, December 2008.

[5]  W. Moreira, P. Mendes, and S. Sargento, Opportunistic routing based on daily routines, in World of Wireless, Mobile and Multimedia Networks (WoWMoM), 2012 IEEE International Symposium on a, pp. 1–6, June 2012.

[6] W. Moreira, P. Mendes, and S. Sargento, Social-aware opportunistic routing protocol based on users interactions and interests, in Ad Hoc Networks (M. H. Sherif, A. Mellouk, J. Li, and P. Bellavista, eds.), vol. 129 of Lecture Notes of the Institute for Computer Sciences, Social Informatics and Telecommunications Engineering, pp. 100–115, Springer International Publishing, 2014.

[7] W. Moreira and P. Mendes, Dynamics of social-aware pervasive networks, in The Fourth IEEE International Workshop on the Impact of Human Mobility in Pervasive Systems and Applications, 2015 (PerMoby’15), (St. Louis, USA), mar 2015.

[8] W. Moreira and P. Mendes, Impact of human behavior on social opportunistic forwarding, Ad Hoc Networks, vol. 25, Part B, no. 0, pp. 293 – 302, 2015. New Research Challenges in Mobile, Opportunistic and Delay-Tolerant Networks Energy-Aware Data Centers: Architecture, Infrastructure, and Communication.

[9] A. Sathiaseelan, L. Wang, A. Aucinas, G. Tyson and J. Crowcroft: SCANDEX: Service Centric Networking for Challenged Decentralised Networks, Proceedings of the ACM Mobisys Workshop on Do-it- yourself Networking: An Interdisciplinary Approach, 2015.

[10]  C. B. Lafuente, J-M. Seigneur, R. Sofia, C. Silva, W. Moreira, Trust Management in ULOOP, User-Centric Networking - Future Perspectives, Springer Lecture Notes in Social Net- works, 2014, pp 107-119, May 2014. Ed. Aldini & Bogliolo, ISBN 978-3-319-05217-5, May 2014.

[11]  I.Psaras, L. Saino, M. Arumaithurai, K. K. Ramakrishnan and G. Pavlou, Name- Based Replication Priorities in Disaster Cases., 2nd Workshop on Name Oriented Mobility (NOM 2014) in conjunction with the IEEE INFOCOM, Toronto, Canada, 2014.

[12]  J.Ott, E.Hyytiä, P. Lassila, T. Vaegs and J.Kangasharju, Floating Content: Information Sharing in Urban Areas, IEEE PerCom, Seattle, USA, 2011.