ResTP - A Transport Protocol for FI Resilience

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Authors
Nguyen, Truc Anh N.
Rohrer, Justin P.
Sterbenz, James P.G.
Subjects
resilient survivable network
multipath transport protocol
DTN
TCP
error control
flow management
Advisors
Date of Issue
2015-06
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Abstract
To support emerging application classes and network use paradigms for Future Internet resilience, we are designing a new transport protocol: ResTP. ResTP overcomes the lim- itations of TCP and UDP that evolved in the context of the xed, wired, connected, relatively reliable, and low-to- moderate delay Internet. ResTP is developed to e ciently carry tra c from various application types across a wide va- riety of network types. By supporting cross-layering, ResTP allows service tuning by the upper application layer while promptly reacting to network condition changes by using the feedback from the lower network layer. ResTP supports a set of transport-layer services, and each service is comprised of many mechanisms and algorithms that can be combined based on the speci c mission requirement, application type, and underlying network characteristics. In addition, ResTP can exploit multiple available paths for its data transmis- sion to increase redundancy while better utilizing network resources. With the design based on our ResiliNets frame- work, we believe that ResTP is the rst transport-layer pro- tocol that considers all disciplines related to resilience.
Type
Article
Description
The article of record as published may be located at http://dx.doi.org/10.1145/2775088.2775096
CFI ’15, June 08 - 10, 2015, Seoul, Republic of Korea
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Computer Science (CS)
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Citation
ResTP: A Transport Protocol for FI Resilience. Truc Anh N. Nguyen, Justin P. Rohrer, James P.G. Sterbenz, In The 10th International Conference on Future Internet (CFI), ACM, 2015, pp. 9–12.
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This publication is a work of the U.S. Government as defined in Title 17, United States Code, Section 101. Copyright protection is not available for this work in the United States.
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