[Tccc] ITC 2011 Student Poster Track

Caterina Scoglio caterina
Tue May 24 12:29:50 EDT 2011


            ITC 2011(23rd International Teletraffic Congress)
                          September 6-8, 2011
                         San Francisco, CA
              Technically Co-sponsored by IEEE Communications Society
                   In cooperation with ACM SIGCOMM
             Corporate Sponsors: AT&T, IBM, Ericsson, Orange Labs

                    Call for Student Posters

The ITC 2011 Students poster track showcases research-in-progress presented
by students. Topics of interests are the same as topics in the ITC 2011
conference call for papers.

The general requirements are:
        - The primary contribution is from a student or students (your
advisor may be a co-author)
        - The topic list is the same as ITC 2011 Call for papers (see below)
        - If accepted, a student must present the student poster at the
conference
        - Students with accepted posters pay students registration rate to
attend ITC 2011
        - A two page extended abstract must be submitted (in IEEE two-column
format PDF format) to EDAS http://edas.info/N10847

Here is the general guideline for the extended abstract (certainly, you can
name your sections as appropriate):
                - Abstract (not more than 250 words)
                - Introduction
                - Approach/Method/Scheme
                - Preliminary Results/Evaluation
                - Conclusion/Future Work
                - References

Important Dates:

     Submission Deadline:            June 10, 2011
http://edas.info/N10847
     Acceptance Notification:        July  8, 2011
     Camera-ready Version:           July 15, 2011
     Author Registration deadline:   July 15, 2011


Topics of interest, but not limited to:
=======================================

 Network Architectures, Paradigms, and Technologies:
        Cognitive Radio Networking
        Content Delivery and Storage Area Networks
        Data Center Networks
        Delay Tolerant and Opportunistic Networking
        Energy-Aware Networking
        Future Internet Design
        IP/MPLS/Carrier Ethernet
        Multi-Carrier Networks
        Optical Networks
        Sensor networks
        UMTS, WiFi, WiMAX, LTE, 4G Networks
        Wireless Adhoc and mesh networks

Network Planning, QoS, and Performance:
        Capacity Planning Methods and Tools
        Network Design Methods
        Performance and Design over Wireless and Wireline Transport
Technologies
        Performance and Reliability Tradeoffs
        Planning for Multi-Carrier Networks
        Pricing and billing, business models for QoS
        QoS Provisioning
        Regulatory and Public Policy - QoS Issues
        SLA Monitoring

 Traffic Management and Measurement:
        Admission Control
        Application and Content Traffic Management
        Dynamic Bandwidth Management
        Location and Mobility Management
        Multi-Domain Issues
        Network Tomography Analysis of Traffic Matrices
        Overload and Congestion Control Protocols and Mechanisms
        Protection, Restoration, and Reliability
        Regulatory and Public Policy - Traffic Management Issues
        Routing
        Traffic and Performance Monitoring, Measurements and Forecasting.

 Applications:
        Application Layer Networks and Overlays, including Network
virtualization
        Cloud, Distributed, and Grid Computing
        Efficient Content Delivery Technologies
        Internet of Things
        P2P and Distributed Lookup
        Social Networks
        Tele-Medicine, -Education, -Metry
        Web Services and Service-Oriented Architectures

 Security Issues:
        Anomaly Detection, Detection of DoS Attacks
        Attack Mitigation Methods
        Epidemiological Models, Worm and Virus Propagation
        Privacy and Trust

 Models and Techniques:
        Cross-Layer Design and Optimization Mechanisms
        Game-Theoretic Models
        Optimization Algorithms, Self-Optimization Approaches
        Performance Models and Queueing theory
        Random Graph Models
        Resource Allocation and Management, Scheduling Algorithms
        Simulation methods and Tools

 Type of Work:
        Practice-oriented
        Systems-oriented
        Theory-oriented



 Student Poster Evaluation Committee:

        Masaki Aida, Tokyo Metropolitan University, Japan
        Markus Fiedler, Blekinge Institute of Technology, Sweden
        Tobias Ho?feld, University of W?rzberg, Germany
        Dijiang Huang, Arizona State University, USA
        Deep Medhi, University of Missouri-Kansas City, USA
        Yi Qian, University of Nebraska-Lincoln, USA
        Kurt Tutschku, University of Vienna, Austria





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