Multipath Bandwidth Scavenging in the Internet of Things
To meet the infrastructure coverage and capacity needed by future IoT applications, service providers may engage in mutually-beneficial modes of collaboration such as cooperative packet forwarding and gatewaying through fixed backhauls and Internet uplinks. In an effort to enable these modes of reso...
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European Alliance for Innovation (EAI)
2015-02-01
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| Series: | EAI Endorsed Transactions on Cloud Systems |
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| Online Access: | https://eudl.eu/pdf/10.4108/cs.1.1.e3 |
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doaj-43f30e59c8a9428d9ec010f9d443470a2020-11-25T01:08:56ZengEuropean Alliance for Innovation (EAI)EAI Endorsed Transactions on Cloud Systems2410-68952015-02-011110.4108/cs.1.1.e3Multipath Bandwidth Scavenging in the Internet of ThingsIsabel Montes0Romel Parmis1Roel Ocampo2Cedric Festin3Computer Networks Laboratory, Electrical and Electronics Engineering Institute, University of the Philipines, DilimanComputer Networks Laboratory, Electrical and Electronics Engineering Institute, University of the Philipines, DilimanComputer Networks Laboratory, Electrical and Electronics Engineering Institute, University of the Philipines, DilimanNetworks and Distributed Systems Group, Department of Computer Science, University of the Philippines, DilimanTo meet the infrastructure coverage and capacity needed by future IoT applications, service providers may engage in mutually-beneficial modes of collaboration such as cooperative packet forwarding and gatewaying through fixed backhauls and Internet uplinks. In an effort to enable these modes of resource pooling while minimizing negative impact on collaborating providers, we developed a transport-layer approach that would enable IoT nodes to opportunistically scavenge for idle bandwidth across multiple paths. Our approach combinesmultipath techniques with less-than-best effort (LBE) congestion control methods. Initial tests using the TCP-LP and LEDBAT LBE algorithms on scavenging secondary flows show that this desired functionality can be achieved. To ensure however that IoT nodes are guaranteed at least one flow that fairly competes for fair share of network capacity, one flow called the primary flow uses standard TCP congestion control.https://eudl.eu/pdf/10.4108/cs.1.1.e3internet of thingsbandwidth scavengingless-than-best-effortcongestion controlmultipath flows |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Isabel Montes Romel Parmis Roel Ocampo Cedric Festin |
| spellingShingle |
Isabel Montes Romel Parmis Roel Ocampo Cedric Festin Multipath Bandwidth Scavenging in the Internet of Things EAI Endorsed Transactions on Cloud Systems internet of things bandwidth scavenging less-than-best-effort congestion control multipath flows |
| author_facet |
Isabel Montes Romel Parmis Roel Ocampo Cedric Festin |
| author_sort |
Isabel Montes |
| title |
Multipath Bandwidth Scavenging in the Internet of Things |
| title_short |
Multipath Bandwidth Scavenging in the Internet of Things |
| title_full |
Multipath Bandwidth Scavenging in the Internet of Things |
| title_fullStr |
Multipath Bandwidth Scavenging in the Internet of Things |
| title_full_unstemmed |
Multipath Bandwidth Scavenging in the Internet of Things |
| title_sort |
multipath bandwidth scavenging in the internet of things |
| publisher |
European Alliance for Innovation (EAI) |
| series |
EAI Endorsed Transactions on Cloud Systems |
| issn |
2410-6895 |
| publishDate |
2015-02-01 |
| description |
To meet the infrastructure coverage and capacity needed by future IoT applications, service providers may engage in mutually-beneficial modes of collaboration such as cooperative packet forwarding and gatewaying through fixed backhauls and Internet uplinks. In an effort to enable these modes of resource pooling while minimizing negative impact on collaborating providers, we developed a transport-layer approach that would enable IoT nodes to opportunistically scavenge for idle bandwidth across multiple paths. Our approach combinesmultipath techniques with less-than-best effort (LBE) congestion control methods. Initial tests using the TCP-LP and LEDBAT LBE algorithms on scavenging secondary flows show that this desired functionality can be achieved. To ensure however that IoT nodes are guaranteed at least one flow that fairly competes for fair share of network capacity, one flow called the primary flow uses standard TCP congestion control. |
| topic |
internet of things bandwidth scavenging less-than-best-effort congestion control multipath flows |
| url |
https://eudl.eu/pdf/10.4108/cs.1.1.e3 |
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