Location: InterContinental Hotel, Berlin, Germany
Date: Tuesday, 30 July 2013
Time: 11:45 am-12:45 pm (local time)
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As Internet use and user expectations grow, it is natural that network and service providers, as well as software developers, are all looking to provide the best experience possible for their users and customers. However, performance issues (especially those related to transient congestion) tend to have collateral effects. This is a case where local optimization strategies may, in fact, not lead to globally optimal network performance for a given activity. In fact, server or client software developers' assumptions about network conditions may lead to disastrously wrong choices in managing network traffic if software elsewhere in the network is making different and countervailing assumptions and choices.
This panel will explore some of the different approaches being developed, between website, network transport and server developers, their assumptions about network performance and potential collision of strategies. Panelists will also further elaborate existing work in measuring and developing (and deploying!) standards-based transport layer strategies for robustly improving overall performance.
As diversity of some key pieces of the stack, for example TCP algorithms, on the Internet grows, how does this impact reliability and the delivery of consistent performance outcomes for the end user application?
What are the pressures of working with constrained devices and the protocol adaptations and revisions that are being developed for the 'Internet of Things' teaching us about improving performance for the Internet in general?
Given the challenges of modeling or simulating the complexity of the Internet, how can we robustly develop and deploy new mechanisms to improve performance and improve end-user experience?
Leslie Daigle, Internet Society
Leslie Daigle is the Chief Internet Technology Officer for the Internet Society. She has been actively involved in shaping the Internet's technical evolution for more than a dozen years. Her role with the Internet Society is to provide strategic leadership on important technical issues as they relate to ISOC's ongoing programs. She has worked with the Internet Engineering Task Force (IETF) since 1995, and was an appointed member of the related Internet Architecture Board (IAB) from March 2000 to March 2008.
Stuart Cheshire, Apple Inc.
Stuart Cheshire received B.A. and M.A. degrees from Cambridge University, and an M.S. and a Ph.D. in computer networking from Stanford University. Stuart wrote Bolo, the first distributed multi-player game on the Internet, while at Stanford. Later, Stuart worked on Zeroconf and DNS-Based Service Discovery (which lets clients discover services they can use), NAT-PMP and PCP (which lets clients communicate with servers that are behind NAT gateways), and the Bonjour Sleep Proxy (which lets clients connect to servers that have gone to sleep to save power). The details of exactly how a client communicates with a server it has discovered (including one that’s behind a NAT gateway, or asleep, or both) is the subject of Stuart’s current work, the Minion transport protocol. Dr Cheshire is a Distinguished Engineer at Apple Inc.
Jason Livingood, Comcast Cable
Jason Livingood serves as Vice President of Internet and Communications Engineering at Comcast Cable, where he leads a team focused on managing and further developing the company's high-speed Internet, Digital Voice, and New Business services. This includes engineering responsibility for Xfinity Internet, Digitial Voice, Xfinity Connect email, messaging and voice anti-abuse, IP voicemail, company-wide DNS, Xfinity WiFi, Xfinity Home, selected Comcast websites, congestion management systems, network management techniques, DNSSEC, and IPv6 deployment. Jason holds a M.B.A., concentrating in Technology Management, as well as a B.S., Magna Cum Laude, from Drexel University, where he serves on an Alumni Advisory Council. He is also a current member of the Internet Society's Board of Trustees.
Patrick McManus, Mozilla
Patrick McManus is the Mozilla Firefox networking module owner. He tries to make the web more open, more secure, faster, and more scalable without breaking anything too important in the process. Pat has also worked in the past on servers, middle-boxes, and various forms of content acceleration for IBM, DataPower, AppliedTheory, and NYSERNet.