@article{df77c7e4ad3441ee9021a22599fdcd3c,
title = "SeRViTR: A framework, implementation, and a testbed for a trustworthy future Internet",
abstract = "A flexible, scalable, and robust framework that enables fine-grained flow control under fixed or dynamic policies while addressing trustworthiness as a built-in network level functionality is a desirable goal of the future Internet. Furthermore, the level of trustworthiness may possibly be different from one network to another. It is also desirable to provide user-centric or service-centric routing capabilities to achieve service-oriented traffic controls as well as trust and policy management for security. Addressing these aspects, we present the SeRViTR (Secure and Resilient Virtual Trust Routing) framework. In particular, we discuss the goal and scope of SeRViTR, its implementation details, and a testbed that enables us to demonstrate SeRViTR. We have designed protocols and mechanisms for policy and trust management for SeRViTR and show a validation on the functional implementation of several SeRViTR components to illustrate virtual domains and trust level changes between virtual domains that are achieved under SeRViTR protocols. Going from implementation to testbed, we demonstrate SeRViTR in a virtual network provisioning infrastructure called the Geo-distributed Programmable Layer-2 Networking Environment (G-PLaNE) that connects three institutions spanning the US and Japan.",
keywords = "Architecture, Future internet, Geo-distributed networks, Internet trustworthiness, Network virtualization, Prototype",
author = "Shingo Ata and Dijiang Huang and Xuan Liu and Akira Wada and Tianyi Xing and Parikshit Juluri and Chung, {Chun Jen} and Yasuhiro Sato and Deep Medhi",
note = "Funding Information: This work has been supported by a US–Japan collaborative project grant with US NSF Grants CNS-1029562 and CNS-1029546 , and Japan NICT International Collaborative Research Grant. It is also partially supported by Office of Naval Research{\textquoteright}s (ONR) Young Investigator Program (YIP) grant and an HP IRP grant. Funding Information: Deep Medhi is a Curators{\textquoteright} Professor in the Department of Computer Science & Electrical Engineering at the University of Missouri-Kansas City, USA, and a honorary professor in the Department of Computer Science & Engineering at the Indian Institute of Technology–Guwahati, India. He received B.Sc. in Mathematics from Cotton College, Gauhati University, India, M.Sc. in Mathematics from the University of Delhi, India, and his Ph.D. in Computer Sciences from the University of Wisconsin–Madison, USA. Prior to joining UMKC in 1989, he was a member of the technical staff at AT&T Bell Laboratories. He served as an invited visiting professor at the Technical University of Denmark, a visiting research fellow at Lund Institute of Technology, Sweden, and State University of Campinas, Brazil. As a Fulbright Senior Specialist, he was a visitor at Bilkent University, Turkey, and Kurukshetra University, India. He is the Editor-in-Chief of Springer{\textquoteright}s Journal of Network and Systems Management , and is on the editorial board of IEEE/ACM Transactions on Networking , IEEE Transactions on Network and Service Management , and IEEE Communications Surveys & Tutorials . He has published over 125 papers, and is co-author of the books, Routing, Flow, and Capacity Design in Communication and Computer Networks (2004) and Network Routing: Algorithms, Protocols, and Architectures (2007), both published by Morgan Kaufmann Publishers, an imprint of Elsevier Science. His research interests are multi-layer networking, network virtualization, data center optimization, and network routing, design, and survivability. His research has been funded by NSF, DARPA, and industries.",
year = "2014",
month = apr,
day = "22",
doi = "10.1016/j.bjp.2013.12.028",
language = "English (US)",
volume = "63",
pages = "128--146",
journal = "Computer Networks",
issn = "1389-1286",
publisher = "Elsevier",
}