Program Booklet

 CONFERENCE PROGRAM
DRCN 2015
11 th Internatonal Conference ON
Design of Reliable Communication Networks
March 24 - 27, 2015
Kansas City, USA
PATRONS/SPONSORS WELCOME MESSAGE
On behalf of the Organizing Committee, the Steering Committee, and the Technical Programming Committee of the 11th International Conference on the Design of Reliable Communication Networks (DRCN 2015), it is our pleasure to present the proceedings of DRCN 2015. Held March 24-­‐27, 2015 in Kansas City, MO, USA, this conference attracted papers and posters in two phases of submissions through an open call. A rigorous review process included each paper being reviewed by three or more reviewers for paper submissions. The Technical Program Committee accepted 21 papers as full papers out of 44 full papers submissions for an acceptance rate of 47.44%. From the remaining full paper submission, 5 were accepted as concise papers. Out of the remaining papers and the call for short papers in the second phase, 14 papers were accepted as short papers. From the poster session call, 7 papers were accepted as poster papers. In addition, we are pleased to be able to publish extended abstracts from two of the keynote speakers. In total, 145 authors of accepted papers represent 18 different countries spanning four continents, and all have been invited to present their work at DRCN 2015. We thank the members of the DRCN Technical Program Committee, the DRCN Steering Committee, and all reviewers for their hard work. Without it, this conference would not be possible. Finally, we thank the University of Missouri-­‐Kansas City, University of Kansas, The Great Plains Network for financial sponsorships, KC Digital Drive and ITC for in-­‐kind sponsorships, and the IEEE and IEEE Communications Society for technical co-­‐sponsorship and IFIP for technically supporting DRCN 2015. Sincerely, Rudra Dutta, North Carolina State University Eytan Modiano, Massachusetts Institute of Technology Yi Qian, University of Nebraska-­‐Lincoln Technical Program Co-­‐Chairs, DRCN 2015 Deep Medhi, University of Missouri-­‐Kansas City General Chair, DRCN 2015 2 ORGANIZING C OMMITTEES General Chair Deep Medhi TPC Co-­‐Chairs Rudra Dutta Eytan Modiano Yi Qian Tutorials Co-­‐Chairs John Doucette Dominic Schupke Publications Chair William Liu Publicity Co-­‐Chair Stefano Secci Ken-­‐Ichi Sato Local Arrangements Co-­‐Chairs M. Todd Gardner James Sterbenz Webmaster Megan Slaughter Becca May Steering Committee Piet Demeester Prosper Chemouil Tibor Cinkler Roberto Clemente Robert Doverspike Deep Medhi Ken-­‐ichi Sato Dominic Schupke David Tipper Technical Program Committee Members Chadi Assi Egemen Çetinkaya Prosper Chemouil Piotr Cholda Tibor Cinkler Reuven Cohan Didier Colle Ferhat Dikbiyik John Doucette University of Missouri-­‐Kansas City, USA North Carolina Sate University, USA Massachusetts Institute of Technology, USA University of Nebraska-­‐Lincoln, USA University of Alberta, Canada Airbus Group Innovations, Munich, Germany Auckland University of Technology, New Zealand University Pierre et Marie Curie -­‐ Paris 6, France Nagoya University, Japan Federal Aviation Administration, Kansas City, USA The University of Kansas, USA, Lancaster University, UK, & The Hong Kong Polytechnic University University of Missouri – Kansas City, USA University of Missouri – Kansas City, USA Ghent University – iMinds, Belgium (Chair) Orange Labs, France Budapest University of Technology and Economics, Hungary Telecom Italia, Italy AT&T Labs, USA University of Missouri-­‐Kansas City, USA Nagoya University, Japan Airbus Group Innovations, Munich, Germany University of Pittsburgh, USA Concordia University, Canada Missouri University of Science and Technology, USA Orange Labs, France AGH University of Science and Technology, Poland Budapest University of Technology and Economics, Hungary Technion, Isrel iMinds – Ghent University, Belgium Sakarya University, Turkey University of Alberta, Canada 3 Robert Doverspike Lingjie Duan Alon Efrat Nelson L. S. De Fonseca Andrea Fumagalli David Hay Bjarne Helvik Pin-­‐Han Ho Yu-­‐Pin Hsu Brigitte Jaumard Gregory Kuperman Hyang-­‐Won Lee Wei Li Victor Liu William Liu Keije Lu Thomas Magedanz Geraldo Mateus Michele Nogueira Deep Medhi Radia Perlman Mario Pickavet Michal Pióro Byrav Ramamurthy Srinivasan Ramasubramanian Bo Rong George Rouskas Sarah Ruepp Iraj Saniee Brunilde Sansò Galen Sasaki Dominic Schupke Stefano Secci Gangxiang Shen Zhihui Shu Krishna Sivalingam Arun Somani Alex Sprintson Suresh Subramaniam Wouter Tavernier Krishnaiyan Thulasiraman David Tipper Massimo Tornatore Kishor Trivedi Krzysztof Walkowiak Yonggang Wen Kunjie Xu Zhi-­‐Li Zhang Moshe Zukerman Gil Zussman AT&T Labs, USA Singapore University of Technology and Design (SUTD), Singapore University of Arizona, USA State University of Campinas, Brazil UTD, USA The Hebrew University of Jerusalem, Israel Norwegian University of Science and Technology, Norway University of Waterloo, Cannada Texas A&M University, USA Concordia University, Canada MIT, USA Konkuk University, Korea University of Victoria, Canada Huawei, USA Auckland University of Technology, New Zealand University of Puerto Rico Puerto Rico TU Berlin/Fraunhofer FOKUS, Germany Universidade Federal de Minas Gerais, Brazil Federal University of Paraná, Brazil University of Missouri-­‐Kansas City, USA Intel Laboratories, USA Ghent University – iMinds, Gelbium Warsaw University of Technology, Poland University of Nebraska-­‐Lincoln, USA University of Arizona, USA Communications Research Center Canada, Canada North Carolina State University, USA Technical University of Denmark, Denmark Bell Labs, Alcatel-­‐Lucent, USA Ecole Polytechnique de Montreal, Canada University of Hawaii, USA Airbus Group Innovations, Germany University Pierre et Marie Curie -­‐ Paris 6, France Soochow University, P.R. China University of Nebraska-­‐Lincoln, USA Indian Institute of Technology Madras, India Iowa State University, USA Texas A&M University, USA The George Washington University, USA Ghent University -­‐ iMinds, Belgium University of Oklahoma, USA University of Pittsburgh, USA Politecnico di Milano, Italy Duke University, USA Wroclaw University of Technology, Poland Nanyang Technological University, Singapore University of Pittsburgh, USA University of Minnesota, USA City University of Hong Kong, Hong Kong Columbia University, USA 4 DRCN 2015: TUTORIALS Tuesday, March 24, 2015
8:15 AM – 9:00 AM Registration & Continental Breakfast 9:00 AM – 12:00 PM Tutorial-­‐1: Survivable Optical Networks Hussein Mouftah, University of Ottawa, Canada Tutorial-­‐2: Modeling and Quantification of Network Survivability Poul Heegaard, Norwegian University of Science and Technology, Norway Kishor Trivedi, Duke University, USA 12:00 PM – 1:00 PM Lunch 1:00 PM – 4:00 PM Tutorial-­‐3: Advanced Coding Scheme for Improving Network Reliability Alex Sprintson, Texas A&M University, USA Tutorial-­‐4: Recursive InterNetwork Architecture Dimitri Staessens+, Leonardo Bergeseo*, Sander Vrijders+, Francesco Salverstrini~, Eduard Grasa* and Didier Colle+ (+Ghent University, Belgium, *Fundacio i2CAT, Spain, ~Nextworks, s.r.l., Italy) 5:30 PM – 7:00 PM Reception [401 C-­‐D] [401 A] [401 B] [401 C-­‐D] [401 A] [401 B] [@Gram & Dun on the Plaza] Address: 600 Ward Parkway, Kansas City MO 64112 Direction to Gram & Dun on the Plaza (From UMKC Student Union) ay, Kansas City MO2rd Parkway, Kansas City MO 64112
5 DRCN 2015: MAIN CONFERENCE Wednesday, March 25, 2015
7:45 AM – 8:30 AM Registration & Continental Breakfast [401 C-­‐D] 8:30 AM – 8:35 AM Opening Remark by Leo Morton, Chancellor, University of Missouri-­‐Kansas City [401 A-­‐B] 8:35 AM – 9:30 AM Keynote -­‐ 1: Biswanath Mukherjee, University of California-­‐Davis, USA [401 A-­‐B] Title: Network Adaptability to Combat Disaster Disruptions and Cascading Failures 9:30 AM – 10:00 AM AM Break 10:00 AM – 12:00 PM Technical Session 1: Robustness-­‐I [401 A-­‐B] Chair: Victor Yu Liu (Huawei, USA) • Virtual Network Embedding under Uncertainty: Exact and heuristic Approaches Stefano Coniglio, Arie M. C. A. Koster and Martin Tieves, RWTH Aachen University, Germany. • Cost-­‐Efficient Multi-­‐Layer Network Design Employing Traffic Re-­‐Aggregation and Shared Protection Across Layers Tomohiro Hashiguchi, Yutaka Takita, Kazuyuki Tajima and Toru Katagiri, Fujitsu Laboratories LTD., Japan • Enhancing Network Robustness via Shielding Jianan Zhang, Massachusetts Institute of Technology, USA Eytan Modiano, Massachusetts Institute of Technology, USA David Hay, The Hebrew University of Jerusalem, Israel • Detour Planning for fast and Reliable Failure Recovery in SDN with OpenState Antonio Capone, Politecnico di Milano, Italy Carmelo Cascone, Politecnico di Milano, Italy and École Polytechnique de Montréal, Canada Alessandro Nguyen, Politecnico di Milano, Italy Brunilde Sansò, École Polytechnique de Montréal, Canada • On Smart Grid Communications Reliability Velin Kounev, Martin Lévesque and David Tipper, University of Pittsburgh, USA Teresa Gomes, University of Coimbra & INESC COIMBRA, Portugal 12:00 PM – 1:00 PM Lunch [401 C-­‐D] 1:00 PM – 3:30 PM Technical Session 2: Protection and Recovery – I [401 A-­‐B] Chair: Rudra Dutta (North Carolina State University, USA) • DSP Survivable Network Capacity Allocation and Topology Design Using Multi-­‐Period Network Augmentation Brody Todd and John Doucette, University of Alberta, Canada • Finding Geographic Vulnerabilities in Multilayer Networks using Reduced Network State Enumeration M. Todd Gardner, University of Missouri-­‐Kansas City & Federal Aviation Administration, USA Rebecca May, Cory Beard and Deep Medhi, University of Missouri-­‐Kansas City, USA • Protection Coordination for Dual Failure on Two-­‐Layer Networks Victor Yu Liu, Huawei, USA • Data Recovery after Geographic Correlated Attacks Guy Grebla, Columbia University, USA Alon Efrat, University of Arizona, USA Esther Ezra, Courant Institute of Mathematical Science, USA Rom Pinchasi, Technion, USA Swaminathan Sankararaman, Akamai Technologies, USA • Demand-­‐Wise Shared Protection Network Design and Topology Allocation with Dual-­‐Failure Restorability Brody Todd and John Doucette, University of Alberta, Canada 6 3:00 PM – 4:00 PM PM Break/Poster Session (About Ten paper presenters will also present poster) [401 C-­‐D] • An Efficient Content Search Scheme to Expand the Search Range in Content-­‐Centric Networking Yurino Sato, University of Kitakyushu, Japan Takahiro Kawano, University of Kitakyushu & Graduate School of Environmental Engineering, Japan Hiroyuki Koga, The University of Kitakyushu, Japan • A Selective Caching Scheme that Adapts to Content Popularity Changes in Content-­‐Centric Networking Takahiro Kawano, University of Kitakyushu & Graduate School of Environmental Engineering, Japan Masayoshi Shimamura, Network Application Engineering Laboratories, Ltd., Japan Hiroyuki Koga, The University of Kitakyushu, Japan • Reliability in Automotive Ethernet Networks Fabio L. Soares and Divanilson R. Campelo, Universidade Federal de Pernambuco, Brazil Sarah Ruepp, Ying Yan and Lars Dittmann, Technical University of Denmark, Denmark Lars Ellegaard, Vitesse Semiconductor, Denmark • Errors Announcing 32-­‐bit ASNs in BGP Routes Riad Mazloum, UPMC Sorbonne Universités, France Jordan Augé and Dario Rossi, Telecom ParisTech, France Timur Friedman, UPMC Sorbonne Universités, France • Look-­‐Ahead Rate Adaptation Algorithm for DASH under Varying Network Environments Parikshit Juluri, University of Missouri-­‐Kansas City, USA Venkatesh Tamarapalli, Indian Institute of Technology Guwahati, India Deep Medhi, University of Missouri-­‐Kansas City, USA • Implementation and Evaluation of the DFF Protocol for Advanced Metering Infrastructure (AMI) Networks Akshay Kapoor and Melody Moh, San Jose State University, USA • Quantitative Study of Reliable Communication Infrastructure in Smart Grid NAN Shengjie Xu and Yi Qian, University of Nebraska-­‐Lincoln, USA 4:00 PM – 6:00 PM Technical Session 3: Robustness-­‐II [401 A-­‐B] Chair: Weiyi Zhang (AT&T Labs Research, USA) • Modeling Robustness of Critical Infrastructure Networks Srinath Pinnaka, Rajgopal Yarlagadda and Egemen K. Çetinkaya, Missouri University of Science and Technology, USA
• Performance Evaluation of Resilience using Service Relocation for GMPLS Networks Henrik Wessing, Sven Hermann and Sarah Ruepp, Technical University of Denmark, Denmark • Effects of Multi-­‐Link Failures on Low Priority Traffic in MPLS-­‐TE Networks Zhen Lu, Yamini Jayabal and Yue Fei, University of Texas at Dallas, USA Andrea Fumagalli, University of Texas at Dallas, USA Gabriele Maria Galimberti and Giovanni Martinelli, Cisco Photonics, Italy • Understanding University Campus Network Reliability Characteristics using a Big Data Analytics Tool Hyungbae Park, Haymanot Gebre-­‐Amlak, Baek-­‐Young Choi, Sejun Song and David Wolfinbarger, University of Missouri -­‐ Kansas City, USA • Design of A Software-­‐Defined Resilient Virtualized Networking Environment Xuan Liu, University of Missouri-­‐Kansas City, USA Sarah Edwards and Niky Riga, BBN Technologies, USA Deep Medhi, University of Missouri-­‐Kansas City, USA • The Human Factor: a Challenge for Network Reliability Design Magreth Mushi, Emerson Murphy-­‐Hill and Rudra Dutta, North Carolina State University, USA • Dual Failure Resiliency on Single Failure Protected Packet Optical Integrated Networks Zhicheng Sui, Huawei Technologies Co., Ltd., P.R. China; Victor Yu Liu, Huawei, USA 7 Program At a Glance
8:15 AM – 9:00 AM 9:00 AM – 12:00 PM 12:00 PM – 1:00 PM 1:00 PM – 4:00 PM 5:00 PM – 7:00 PM 7:45 AM – 8:30 AM 8:30 AM – 8:35 AM 8:35 AM – 9:30 AM 9:30 AM – 10:00 AM 10:00 AM – 12:00 PM 12:00 PM – 1:00 PM 1:00 PM – 3:00 PM 3:00 PM – 4:00 PM 4:00 PM – 6:00 PM 7:45 AM – 8:30 AM 8:30 AM – 9:30 AM 9:30 AM – 10:00 AM 10:00 AM – 12:00 PM 12:00 PM – 1:00 PM 1:00 PM – 3:30 PM 3:30 PM – 4:00 PM 4:00 PM – 5:00 PM 5:30 PM – 9:00 PM 7:45 AM – 8:30 AM 8:30 AM – 9:30 AM 9:30 AM – 10:00 AM 10:00 AM – 12:00 PM 12:00 PM – 1:00 PM 1:00 PM – 3:30 PM Tuesday, March 24, 2015 (Tutorials) Continental Breakfast (Room: 401 C-­‐D) Tutorial -­‐1: Survivable Optical Networks (Room: 401 A) Tutorial -­‐2: Modeling and Quantification of Network Survivability (Room: 401 B) Lunch (Room: 401 C-­‐D) Tutorial – 3: Advanced Coding Schemes for Improving Network Reliability (Room: 401 A) Tutorial – 4: Recursive InterNetwork Architecture (Room: 401 B) Reception @ Gram & Dun on the Plaza (600 Ward Parkway, KCMO) Wednesday, March 25, 2015 (Main Conference) Registration & Continental Breakfast (Room: 401 C-­‐D) Opening Remarks: Chancellor Leo Morton, UMKC (Room: 401 A-­‐B) Keynote – 1: Biswanath Mukherjee, UC-­‐Davis (Room: 401 A-­‐B) AM Break Technical Session – 1: Robustness -­‐ I (Room: 401 A-­‐B) Lunch (Room: 401 C-­‐D) Technical Session – 2: Protection and Recovery – I PM Break / Poster Session (Room: 401 C-­‐D) Technical Session – 3: Robustness –II (Room: 401 A-­‐B) Thursday, March 26, 2015 (Main Conference) Registration & Continental Breakfast (Room: 401 C-­‐D) Keynote – 2: Hiroshi Saito, NTT Labs, Japan (Room: 401 A-­‐B) AM Break Technical Session – 4: Resilience and Anomly Detection (Room: 401 A-­‐B) Lunch (Room: 401 C-­‐D) Technical Session – 5: Availability and Recovery (Room: 401 A-­‐B) PM Break Panel: Network Resilience for Massive Faliures/Attacks (Room: 401 A-­‐B) Tour & Dinner (Dinner @ Simpson House) Friday, March 27, 2015 (Main Conference) Registration & Continental Breakfast (Room: 401 C-­‐D) Keynote – 3: Robert Doverspike, AT&T Labs (Room: 401 A-­‐B) AM Break Technical Session – 6: Resilience and Detection (Room: 401 A-­‐B) Lunch (Room: 401 C-­‐D) Technical Session – 7: Potpourri (Room: 401 A-­‐B) 8 Thursday, March 26, 2015
7:45 AM – 8:30 AM Registration, Continental Breakfast [401 C-­‐D] 8:35 AM – 9:30 AM Keynote-­‐2: Hiroshi Saito, NTT Labs, Japan [401 A-­‐B] Title: Concepts and Implementation of Disaster-­‐free Networks 9:30 AM – 10:00 AM AM Break 10:00 AM – 12:00 PM Technical Session 4: Resilience and Anomaly Detection [401 A-­‐B] Chair: Biswanath Mukherjee (University of California, Davis, USA) • Robustness Analysis of Mobile Ad Hoc Networks Using Human Mobility Traces Dongsheng Zhang, The University of Kansas, USA James P. G. Sterbenz, The University of Kansas, USA, Lancaster University, UK & The Hong Kong Polytechnic University • Survivability as a Generalization of Recovery Poul E. Heegaard, Norwegian University of Science and Technology, Norway Bjarne E. Helvik, Norwegian University of Science and Technology, Norway Kishor S. Trivedi, Duke University, USA Fumio Machida, NEC Corporation, Japan • Performability Analysis of a Metropolitan Area Cellular Network Kostas N Oikonomou, AT&T Labs -­‐ Research, USA Rakesh K Sinha, Byoung-­‐Jo J. Kim and Robert Doverspike, AT&T Labs -­‐ Research, USA • PCA-­‐based Network-­‐wide Correlated Anomaly Event Detection and Diagnosis Prasad Calyam, Yuanxun Zhang and Saptarshi Debroy, University of Missouri-­‐Columbia, USA Mukundan Sridharan, The Samraksh Company, USA • Comprehensive Comparison and Accuracy of Graph Metrics in Predicting Network Resilience Mohammed J.F. Alenazi, The University of Kansas, USA & King Saud University, KSA James P.G. Sterbenz, The University of Kansas, USA, Lancaster University, UK & The Hong Kong Polytechnic University 12:00 PM – 1:00 PM Lunch [401 C-­‐D] 1:00 PM -­‐ 3:30 PM Technical Session 5: Availability and Recovery [401 A-­‐B] Chair: Dimitri Staessens (Ghent University -­‐ iMinds, Belgium) • Toward Control Path High Availability for Software-­‐Defined Networks Hyungbae Park, University of Missouri-­‐Kansas City, USA Sejun Song, University of Missouri Kansas City, USA Baek-­‐Young Choi, University of Missouri -­‐ Kansas City, USA Taesang Choi, Electronic and Telecommunications Research Institute, Korea • Modeling Interdependencies over Incomplete Join Structures of Power Law Networks Goitom Weldehawaryat, Gjovik University College, Norway Stephen D. Wolthusen, Royal Holloway, University of London, United Kingdom • Multi-­‐vendor Interconnection-­‐based Emergency Multi-­‐layer Networks in Disaster Recovery Sugang Xu, National Institute of Information and Communications Technology, Japan Noboru Yoshikane, KDDI R&D Laboratories, Inc., Japan Masaki Shiraiwa, National Institute of Information and Communications Technology, Japan Takehiro Tsuritani, KDDI R&D Laboratories, Inc., Japan Hiroaki Harai, National Institute of Information and Communications Technology, Japan Yoshinari Awaji, National Institute of Information and Communications Technology, Japan Naoya Wada, National Institute of Information and Communications Technology, Japan • An Analytical Model for Fast and Verifiable Assessment of Large Scale Wireless Mesh Networks Florian Meier and Volker Turau, Hamburg University of Technology, Germany 9 Size-­‐based Flow Management Prototype for Dynamic DMZ Haotian Wu, Xin Li, Caterina M Scoglio, Don M. Gruenbacher and Daniel Andresen, Kansas State University, USA • Probability of Data Loss Between Mars Tumbleweed Rovers Tyler Hook, Raytheon & Texas Tech University, USA Alan Barhorst, Texas Tech University, USA 3:30 PM – 4:00 PM PM Break 4:00 PM – 5:00 PM Panel: Network Resilience for Massive Failures and Attacks [401 A-­‐B] Moderator: James Sterbenz, The University of Kansas, USA, Lancaster University, UK & The Hong Kong Polytechnic University Panelists: Rudra Dutta, North Carolina State University, USA Poul Heegaard, Norwegian University of Science and Technology, Norway Biswanath Mukherjee, University of California-­‐Davis, USA David Tipper, University of Pittsburgh, USA 5:30 PM – 9:00 PM Tour & Banquet Dinner: Tour Pickup at 5100 Cherry St [Dinner at Simpson House] •
Friday, March 27, 2015
7:45 AM – 8:30 AM Registration, Continental Breakfast [401 C-­‐D] 8:30 AM – 9:30 AM Keynote – 3: Robert Doverspike, AT&T Labs, USA [401 A-­‐B] Title: Automated Planning and Provisioning for Carrier Metro Networks 9:30 AM – 10:00 AM AM Break 10:00 AM – 12:00 PM Technical Session 6: Resilience and Detection [401 A-­‐B] Chair: Cory Beard, University of Missouri – Kansas City • Data-­‐Driven Analytics for Automated Cell Outage Detection in Self-­‐Organizing Networks Ahmed Zoha, QMIC, Qatar Arsalan Saeed, University of Surrey, United Kingdom Ali Imran, University of Oklahoma, USA Muhammad Ali Imran, University of Surrey, United Kingdom Adnan Abu-­‐Dayya, QMIC, Qatar • ResilientFlow: Deployments of Distributed Control Channel Maintenance Modules to Recover SDN from Unexpected Failures Takuma Watanabe and Takuya Omizo, Tokyo Institute of Technology, Japan Toyokazu Akiyama, Kyoto Sangyo University, Japan Katsuyoshi Iida, Tokyo Institute of Technology, Japan • Low-­‐cost Enhancement of the Intra-­‐domain Internet Robustness Against Intelligent Node Attacks Panagiotis Pantazopoulos, Institute of Communication and Computer Systems (ICCS), Greece Ioannis Stavrakakis, National and Kapodistrian University of Athens, Greece • Evolution of the IP-­‐over-­‐Optical Core Network Weiyi Zhang, AT&T Labs -­‐ Research, USA Balagangadhar G Bathula, Rakesh K Sinha and Robert Doverspike, AT&T Labs -­‐ Research, USA Peter Magill, Silicon Lightwave Services, USA Aswatnarayan Raghuram, AT&T Labs, USA Gagan Choudhury, AT&T Labs -­‐ Research, USA • Optimising Dual Homing for Long-­‐reach Passive Optical Networks Alejandro Arbelaez, Insight Centre for Data Analytics, Ireland Deepak Mehta, Insight Centre for Data Analytics & University College Cork, Ireland Barry O'Sullivan, University College Cork, Ireland Luis Quesada, Insight Centre for Data Analytics, Ireland 10 12:00 PM – 1:00 PM Lunch [401 C-­‐D] 1:00 PM -­‐ 3:00 PM Technical Session 7: Potpourri [401 A-­‐B] Chair: Baek-­‐Young Choi, University of Missouri -­‐ Kansas City, USA • Network Coding for Coping with Flash Crowd in P2P Multi-­‐Channel Live Video Streaming Navid Bayat and Hanan Lutfiyya, University of Western Ontario, Canada • D2D Communication Underlay Uplink Cellular Network With Fractional Frequency Reuse Zekun Zhang and Rose Qingyang Hu, Utah State University, USA Yi Qian, University of Nebraska–Lincoln, USA Apostolos Papathanassiou, Intel Corporation, USA Geng Wu, Intel Corporation, USA • Design for Reliable and Self-­‐Sustaining Neighborhood Area Network in Smart Grid Feng Ye and Yi Qian, University of Nebraska-­‐Lincoln, USA Rose Qingyang Hu, Utah State University, USA • Distributed DCT Based Data Compression in Clustered Wireless Sensor Networks Minh T Nguyen and Keith A Teague, Oklahoma State University, USA • An FPTAS for managing playout stalls for multiple video streams in cellular networks Swapnoneel Roy, University of North Florida, USA Anand Seetharam, California State University Monterey Bay, USA • Multi-­‐Failure Restoration with Minimal Flow Operations in Software Defined Networks Saeed Akhavan Astaneh and Shahram Shah Heydari, University of Ontario Institute of Technology, Canada • Real-­‐Time Network Anomaly Detection System Using Machine Learning Shuai Zhao, Mayanka Chandrashekar, Yugyung Lee and Deep Medhi, University of Missouri-­‐Kansas City, USA Student Union 4th Floor Plan 11 KEYNOTE – 1 Wednesday, March 25, 8:35 AM – 9:30 AM Title: Network Adaptability to Combat Disaster Disruptions and Cascading Failures Speaker: Biswanath Mukherjee, Distinguished Professor, University of California-­‐Davis, USA Abstract: To combat the rising risk of terrorist threats (e.g., Weapons of Mass Destruction (WMD) attacks) and natural disasters (e.g., hurricanes, earthquakes, tornadoes, flooding, etc.) against our national/global interests and economic wellbeing -­‐-­‐-­‐ events which could lead to a domino effect of catastrophic failures of telecommunications, power, transportation, financial, and other critical infrastructures -­‐-­‐-­‐ novel methods are needed to provide protection in our information and communication networks. Topics such as the following will be discussed in this talk: normal preparedness, enhanced preparedness, degraded service under resource crunch, content connectivity (vs. network connectivity) due to the increasing deployment of cloud services, correlated cascading failures in interdependent networks, etc. Bio: Biswanath Mukherjee is Distinguished Professor at University of California, Davis, where he has been a faculty member since 1987 and was Chairman of Computer Science during 1997-­‐2000. He received the BTech degree from Indian Institute of Technology, Kharagpur (1980) and PhD from University of Washington, Seattle (1987). He was General Co-­‐Chair of the IEEE/OSA Optical Fiber Communications (OFC) Conference 2011, Technical Program Co-­‐Chair of OFC¹2009, and Technical Program Chair of the IEEE INFOCOM¹96 conference. He is Editor of Springer¹s Optical Networks Book Series. He has served on eight journal editorial boards, most notably IEEE/ACM Transactions on Networking and IEEE Network. In addition, he has Guest-­‐Edited Special Issues of Proceedings of the IEEE, IEEE/OSA Journal of Lightwave Technology, IEEE Journal on Selected Areas in Communications, and IEEE Communications. To date, he has supervised 62 PhDs to completion and currently mentors 18 advisees, mainly PhD students. He is winner of the 2004 Distinguished Graduate Mentoring Award and the 2009 College of Engineering Outstanding Senior Faculty Award at UC Davis. He is co-­‐winner of nine Best Paper Awards from various conferences, including Optical Networking Symposium Best Paper Awards at IEEE Globecom 2007 and 2008. He is author of the graduate-­‐
level textbook Optical WDM Networks (Springer, January 2006). He served a 5-­‐year term on Board of Directors of IPLocks, a Silicon Valley startup company (acquired by Fortinet). He has served on Technical Advisory Board of several startup companies, including Teknovus (acquired by Broadcom). He is Founder, President, and CEO of Ennetix, Inc., a startup company incubated at UC Davis and developing cloud-­‐based network performance analytics and management software. He is an IEEE Fellow. More information can be found at his UC Davis site. 12 KEYNOTE – 2 Thursday, March 26, 8:30 AM – 9:30 AM Title: Concept and Implementation of Disaster-­‐free Networks Speaker: Hiroshi Saito, NTT Network Technology Laboratories, Japan Abstract: This talk presents the concept Disaster-­‐free Network. This concept is implemented by the proposed network design and control. Through a method for evaluating metrics such as the probability of network components (such as the main route and its backup) intersecting/encountering a disaster area, network design, such as geographical physical route configuration and placement of servers or backups for optimizing the metrics, has become possible. In addition to the network design, a disaster avoidance control against forecastable disasters, such as typhoons, is also proposed. This control relocates objects, such as data and software, in the network based on the disaster forecast. Bio: Hiroshi Saito received the B.E. degree in mathematical engineering in 1981, the M.E. degree in control engineering in 1983, and the Dr.Eng. degree in teletraffic engineering in 1992 from the University of Tokyo, Tokyo, Japan. He joined NTT in 1983. He is currently an Executive Research Engineer at NTT Network Technology Labs, Tokyo, Japan. His research interests include traffic technologies of communications systems, network architecture, and ubiquitous systems. He received the Young Engineer Award of the Institute of Electronics, Information and Communication Engineers (IEICE) in 1990, the Telecommunication Advancement Institute Award in 1995 and 2010, and the excellent papers award of the Operations Research Society of Japan (ORSJ) in 1998.He was an Editor and a Guest Editor of technical journals such as Performance Evaluation, IEEE Journal of Selected Areas in Communications, and IEICE Transactions Communications. He was the Director of Journal and Transactions of IEICE, the organizing committee/program committee Chairman of a few international conferences, and a program committee member of more than 30 international conferences. He is currently an Editorial Board Member of Computer Networks. He is a Fellow of IEEE, IEICE, and ORSJ, and a Member of IFIP WG 7.3. KEYNOTE – 3 Friday, March 27, 8:30 AM – 9:30 AM Title: Automated Planning and Provisioning for Carrier Metro Networks Speaker: Robert Doverspike, AT&T Labs -­‐ Research, USA Abstract: Carrier metropolitan area (metro) networks pose a uniquely challenging setting in which to automate network management and control. With the recent explosion of interest in both Software Defined Networking (SDN) and Network Functions Virtualization (NFV), the time appears ripe. Yet, metro networks are relatively poorly understood by the wider research community. Consequently, we describe the characteristics of metro networks, explain how carriers can benefit from increased automation, highlight some of the key technical challenges, and describe our approach to leverage these technologies to achieve this goal. Bio: Robert Doverspike has his Ph.D. from Rensselaer Polytechnic Institute. He did research at Bell Labs (1979), Bellcore (1984), and AT&T Labs Research (1997-­‐present), where he is now Executive Director, Network Evolution Research. Dr. Doverspike has made extensive contributions to the field of optimization of multi-­‐layered networks, pioneered the concept of packet-­‐aware transport in carrier networks and is a world-­‐renowned expert in network restoration of IP/Optical-­‐Layer networks. He is an IEEE Fellow, INFORMS Fellow, Member OSA, Member OFC Steering Committee. He has published extensively and is a holder of many patents. 13 Panel: Thursday, March 26, 4:00PM – 5:00PM Title: Network Resilience for Massive Failures and Attacks Abstract: As the Internet becomes increasingly important to all aspects of society, the consequences of disruption are increasingly severe. Thus it is critical to increase the resilience and survivability of the future networks in general, and the Internet in particular. Resilience is the ability of the network to provide accpetable service even when the network is challenged by attacks, large-­‐scale disasters, and other failures. Attacks challenge networks by causing distributed correlated failures on its most vulnerable parts. The goal is doing the most damage, including network partition and failure of critical infrastructure servers and protocols, such as DNS and BGP. Large-­‐scale disasters such as hurricanes and power blackouts cause a large area of the network to fail. This panel will discuss vulnerabilities in the current Internet and other networks, as well the challenges and research directions to make the Future Internet and interdependent critical infrastructures robust to such challenges. Moderator: James P.G. Sterbenz, The University of Kansas, Lancaster University & The Hong Kong Polytechnic University
James P.G. Sterbenz is Professor of Electrical Engineering & Computer Science and a member of technical staff at the Information & Telecommunication Technology Center at The University of Kansas, Visiting Professor of Computing and Communications in InfoLab 21 at Lancaster University in the UK, Adjunct Professor of Computing at The Hong Kong Polytechnic University, and has been a Visiting Guest Professor in the Communication Systems Group at ETH Zürich. He has previously held senior staff and research management positions at BBN Technologies, GTE Laboratories, and IBM Research. His research interests include resilient, survivable, and disruption tolerant networking, future Internet architectures, active and programmable networks, and high-­‐speed networking and components. He is director of the ResiliNets Research Group, and has been PI in a number of projects including the NSF FIND and GENI programs, the EU FIRE ResumeNet project, leads the GpENI international programmable network testbed project, and has lead a US DoD project in highly-­‐dynamic ad hoc disruption-­‐tolerant networking. He received a DSc in computer science from Washington 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 board of IEEE Network. He is principal author of the book High-­‐Speed Networking: A Systematic Approach to High-­‐Bandwidth Low-­‐Latency Communication. Panelists: Poul E. Heegaard received his Siv.ing. degree (M.S.E.E. ) in 1989 from the Norwegian Institute of Technology (NTH), Trondheim, Norway. He was awarded the degree Dr. Ing. (PhD) from NTH, University of Trondheim in 1998. The title of the thesis is: "Efficient simulation of network performance by importance sampling". His research interests cover performance, dependability and survivability evaluation and management of communication systems, and communication system interacting with other technical infrastructures such as Smart Grids. Special interests is monitoring, routing and management in dynamic networks. He has developed a java-­‐based traffic generator called GenSyn. He has worked on rare event simulation techniques, and on distributed, autonomous and adaptive management and routing in communication networks and services. Heegaard has been active in several national (Norwegian Research Council) and international (EU-­‐IST, COST, Celtic) research projects and collaborations. Biswanath Mukherjee (Bio see Keynote-­‐1) 14 Rudra Dutta received a B.E. in Electrical Engineering from Jadavpur University, Kolkata, India, in 1991, a M.E. in Systems Science and Automation from Indian Institute of Science, Bangalore, India in 1993, and a Ph.D. in Computer Science from North Carolina State University, Raleigh, USA, in 2001. From 1993 to 1997 he worked for IBM as a software developer and programmer in various networking related projects. He has been employed from 2001 -­‐ 2007 as Assistant Professor, from 2007 -­‐ 2013 as Associate Professor, and since 2013 as Professor, in the department of Computer Science at the North Carolina State University, Raleigh. During the summer of 2005, he was a visiting researcher at the IBM WebSphere Technology Ins titute in RTP, NC, USA. His current research interests focus on design and performance optimization of large networking systems, Internet architecture, wireless networks, and network analytics. His research is supported currently by grants from the National Science Foundation, the National Security Agency, and industry, including a recent GENI grant and a FIA grant from NSF. He has served as a reviewer for many premium journals, on NSF, DoE, ARO, and NSERC (Canada) review panels, as part of the organizing committee of many premium conferences, including Program Co-­‐chair for the Second International Workshop on Traffic Grooming. Most recently, he has served as Program Chair for the Optical Networking Symposium at IEEE Globecom 2008, General Chair of IEEE ANTS 2010, Steering Committee of IEEE ANTS 2011-­‐13, and as guest editor of a special issue on Green Networking and Communications of the Elsevier Journal of Optical Switching and Networking. He currently serves on the editorial board of the Elsevier Journal of Optical Switching and Networking. David Tipper is a graduate of the University of Arizona (Ph.D. Electrical Engineering 1988, M.S. Systems Engineering 1984) and Virginia Tech (B.S. Electrical Engineering 1980). His research interests include network design, virtual network design, methods for improving network survivability, the development of efficient algorithms for nonstationary/transient queueing analysis, and the design and analysis of network controls (e.g. routing, admission control, scheduling, etc.) and communication networks for smart grid His research has been supported by grants from various government and corporate sources such as the National Science Foundation, ARO, IBM, DARPA and MCI. He is a Senior member of IEEE. He is an Associate Professor and Director of the Graduate Telecommunications and Networking Program at the University of Pittsburgh. He has a secondary appointment in the Electrical Engineering Department.
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