BEGIN:VCALENDAR VERSION:2.0 PRODID:-//Talks.cam//talks.cam.ac.uk// X-WR-CALNAME:Talks.cam BEGIN:VEVENT SUMMARY:Enhancing Network Structure to Increase Resilience and Survivabili ty - James P.G. Sterbenz (University of Kansas) DTSTART:20140213T150000Z DTEND:20140213T160000Z UID:TALK49966@talks.cam.ac.uk CONTACT:Eiko Yoneki DESCRIPTION:Resilience and survivability of the Future Internet is increas ingly important to preserve critical services\, particularly against attac kers with knowledge of the structure and vulnerabilities of the network\, as well as against large scale disasters that affect a large area. A brie f motivation and introduction will be given to the the ResiliNets architec ture\, strategy\, design principles\, and analysis methodology. This pres entation will then describe the grpah-theoretic properties required for fl ow-robustness\, and introduce our path diversity measures. Two current re search directions will then be described: how to add links to existing gr aphs under cost constraints to increase flow robustness\, and geographic d iversity as a basis for multipath geodiverse end-to-end transport (ResTP) and routing (GeoDivRP). \n\nBio: James P.G. Sterbenz is Associate Profess or of Electrical Engineering & Computer Science and a member of technical staff at the Information & Telecommunication Technology Center at the Univ ersity of Kansas\, and is a Visiting Professor of Computing in InfoLab 21 at Lancaster University in the UK. He has previously held senior staff an d research management positions at BBN Technologies\, GTE Laboratories\, a nd IBM Research. His research interests include resilient\, survivable\, and disruption tolerant networking\, future Internet architectures\, activ e and programmable networks\, and high-speed networking and components. H e is director of the ResiliNets Research Group\, and has been PI in a numb er of projects including the NSF FIND and GENI programs\, the EU FIRE Resu meNet project\, leads the GpENI international programmable network testbed project\, and has lead a US DoD project in highly-mobile ad hoc disruptio n-tolerant networking. He received a DsC in computer science from Washing ton University in 1991. He has been program chair for IEEE GI\, GBN\, and HotI\; IFIP RNDM\, IWSOS\, PfHSN\, and IWAN\; and was on the editorial bo ard of IEEE Network. He is principal author of the book High-Speed Networ king: A Systematic Approach to High-Bandwidth Low-Latency Communication.\n \n LOCATION:SS03\, Computer Laboratory\, William Gates Builiding END:VEVENT END:VCALENDAR