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ACM SIGCOMM 2017 Tutorial (Half-Day): Named Data Networking (NDN) Tutorial
Tutorials
type
time
room
day
TBD
TBD
title
type
time
Welcome and Introduction
tutorial
9:00am - 9:05am
title
type
time
NDN Architecture (Van Jacobson)
tutorial
9:05am - 10:30am
title
type
time
room
Coffee Break
break
10:30am - 11:00am
Foyer
title
type
time
NDN Research (NDN project team)
tutorial
11am - 12:30am
name
affiliation
bio
Alexander Afanasyev
University of California, Los Angeles
<p>Alexander Afanasyev is an Adjunct Assistant Professor in University of California, Los Angeles. He received his Ph.D. degree in computer science from UCLA in 2013. His research focus is on the next-generation Internet architecture as part of the Named Data Networking (NDN) project. His research interests include a variety of topics that are vital for the success of NDN, including scalability of name-based routing, auto-configuration, distributed data synchronization, application and network security. Dr. Afanasyev is also leading the development effort of the overall NDN codebase.</p>
name
affiliation
bio
Jeff Burke
UCLA School of Theater, Film and Television (TFT)
<p>Jeff Burke is Assistant Dean for Technology and Innovation at the UCLA School of Theater, Film and Television (TFT), where he has been a faculty member since 2001. His research explores the intersections of the built environment, computer networks, and storytelling. He has produced, managed, programmed, and designed performances, short films, new genre art installations and new facility construction internationally for over fifteen years, incorporating emerging technologies as part of these projects and creative works. Burke co-founded REMAP, a joint center of TFT and the Henry Samueli School of Engineering and Applied Science, which uses a mixture of research, artistic production, and community engagement to investigate the interrelationships among culture, community, and technology. From 2006-2012, Burke was the area lead for participatory sensing at the NSF Center for Embedded Networked Sensing (CENS). He is Co-PI and application team lead for the Named Data Networking research project. </p>
name
affiliation
bio
Patrick Crowley
Washington University in St. Louis
<p>Patrick Crowley is Professor of Computer Science & Engineering at Washington University in St. Louis, where he directs the Applied Research Lab. He is also founder and CTO of Observable Networks, a cloud-native network security company. His research interests are in computer and network systems architecture, with a current focus on information-centric networking, programmable network systems design, and the invention of superior network monitoring and security techniques.</p>
name
affiliation
bio
Van Jacobson
University of California, Los Angeles / Google
<p>Van Jacobson has been a long-term contributor to the Internet. His algorithms for the Transmission Control Protocol (TCP) saved Internet from congestion collapse in 1980's and are used by over 90% of Internet hosts today. He developed the blueprint of Named Data Networking (NDN) 10 years ago and continues to serve as the NDN architect.</p>
name
affiliation
bio
Beichuan Zhang
University of Arizona
<p>Beichuan Zhang is Associate Professor at the Department of Computer Science, the University of Arizona. His research interest is in Internet routing architectures and protocols. He has been working on Named Data Networking, green networking, and inter-domain routing. He received the Applied Networking Research Prize in 2011 by ISOC and IRTF, and best paper awards at IEEE ICDCS in 2005 and IWQoS in 2014. Dr. Zhang received Ph.D. from UCLA and B.S. from Peking University.</p>
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Call For Participation
This is a half-day tutorial on Named Data Networking (NDN), a newly developed data-centric Internet architecture. The morning starts with an introduction of the NDN architecture by Van Jacobson, followed by research topics and recent results.
Presenters
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Tutorial Program
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Motivation
This half-day tutorial aims to provide a comprehensive overview of Named Data Networking (NDN), a newly developed Internet architecture. NDN replaces TCP/IP architecture's focus on "where", i.e., the addresses and hosts, with "what", i.e., the content that users and applications care about. This fundamental shift brings profound impacts to enhancing Internet security, enabling mobility support, scaling both data disseminations as well as data collection (e.g., from IoT devices), and facilitating new application development.
Launched in 2010 under the NSF's Future Internet Architecture program, the NDN project has attracted researchers from both academia and industry around the world to explore all aspects of its design, implementation, and applications. It is arguably the most prominent inspiration and realization of the Information-Centric Networking (ICN) vision, around which a growing research community has formed over the past several years.
Together with an increasing interests in NDN, there are also a number of questions as well as misconceptions regarding NDN. This tutorial aims to bring NDN to the broader networking community by explaining NDN's basic architectural concepts, articulating research issues, demonstrating NDN operations and applications, and introducing its open-source code development. We expect the tutorial to benefit network researchers and students with different levels of background knowledge on NDN/ICN, from people who want to learn what NDN really is, to people who are looking for new topics to explore, or for ways to contribute to NDN design and development.
The tutorial will start with an introduction to the NDN architecture by Van Jacobson, followed by an overview of the NDN research topics and recent results by the NDN project team researchers.
Topics Include
Introduction of the basic concepts, fundamental principles, key mechanisms, and articulation on how to take NDN to the next stage.
Survey on existing NDN research work, with emphasis on research challenges and recent results, including
Routing
Forwarding
Caching
Mobility
Security
Applications
Expected Audience and Prerequisites
This tutorial targets the general networking research community with no specific prerequisite. We expect the tutorial to benefit network researchers and students with different levels of background knowledge on NDN/ICN, from people who want to learn what NDN really is, to people who are looking for new topics to explore, or for ways to contribute to NDN design and development.