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The Tenth International Conference on Communication Theory, Reliability, and Quality of Service

CTRQ 2017
April 23 - 27, 2017 - Venice, Italy


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Details:

  • Colocated with other events part of NexComm 2017
  • Posters will be presented during the conference
  • A Work in Progress track is available for preliminary work
  • A Research Ideas track is available for ideas in early stages
  • A Doctoral Forum track is available for discussing and publishing early PhD thesis research
Submission (full paper)

Dec. 5 January 18, 2017

Notification

February 20, 2017

Registration

March 5, 2017

Camera ready

March 15, 2017

ISSN: 2308-4022
ISBN: 978-1-61208-550-0

Published by IARIA XPS Press

Archived in the free access ThinkMindTM Digital Library
Prints available at Curran Associates, Inc.
Authors of selected papers will be invited to submit extended versions to a IARIA Journal
Articles will be submitted to appropriate indexes.

conference contact: mp@iaria.org

All tracks/topics are open to both research and industry contributions.

Special Tracks:

IONCOMM: Identity Oriented Networks-based Infrastructure and Communications
Chair: Dr. Richard Li, Future Networks, Huawei Technologies, USA Renwei.Li@huawei.com
Coordinator: Kiran Makhijani, Future Networks, Huawei Technologies, USA kiran.makhijani@huawei.com

IoTRTTT: Internet of Things - Recent Trends, Technologies and Techniques
Chair and Coordinator: Dr. Wail Mardini, Associate Professor of Computer Science,
Jordan University of Science and Technology, Jordan mardini@just.edu.jo

QQMC: QoS and QoE in Multimedia Communications
Chair and Coordinator: Dr. Luis Sequeria Villarreal, University of Zaragoza, Spain sequeira@unizar.es

 

Tracks:

Communication theory
Fundamentals in communication theory; Communications switching and routing; Communications modeling; Communications security; Autonomic communications; Performance in communications; Computer communications; Distributed communications; Wired and wireless communications; Signal processing in communications; Multimedia and multicast communications; High-speed communications; Delay-tolerant communications; Fault-tolerant networks; Reliable and safe communications; Iterative coding and decoding techniques

Quality and reliability in smart environments
Quality in advanced wireless networks (LTE, 3/4G, 4.5G -LTE Advanced Pro-, 5G); Quality and reliability in high velocity mobile networks; Quality and reliability in mobile (big, huge) data processing; Quality and reliability in data collection and dissemination; Quality and reliability on dense sensor networks; Quality and reliability in vehicular and transportation systems; Quality and reliability in aerial an underwater vehicles; Quality and reliability evaluation in new computing paradigms (fog computing, cloudlets, mobile edge); Quality and reliability in smart cities; Quality and reliability of elderly patient alarms and e-health systems; Quality and reliability enforcement in nano/femto cells; Quality and reliability on energy harvesting in Green environments; Quality and reliability metrics via Quality-of-Experience and customer reports; Quality and reliability testbeds for smart environments

Assessing quality and reliability
Assessing data dissemination accuracy in opportunistic networks; Assessing Internet traffic on high speed railways; Assessing the guidelines for energy-aware software for wearable devices;  Offloading floating car data; Interference mitigation in body-to-body area networks; Spatial correlation for heterogeneous cameras in multimedia sensor networks; Managing applications with different delay sensitivities; Assessing quality and reliability for off-the-shelf devices; Assessing quality and reliability of Handover protocols; Assessing context correctness for secure mobile collaboration; Assessing security and reliability through linked data in cloud and fog computing; Assessing reliability and quality for context and social-aware recommender systems; Assessing reliability of vehicular density estimation using vehicular communications; Assessing quality of service of VoIP over high velocity networks

Reliability and maintenance
Reliability modeling; Reliability stress analysis; Dependency-related reliability; Reliability prediction technologies; Reliability-aware topology control; Reliability in highly dynamic networks and distributed systems; Reliability of storage systems; Reliability in sensitive networks (ehealth, financial, etc.); Service versus network reliability; Reliability and human-related risks; Software reliability; Software-based safety kernels; Reliability testing; Maintenance tools for system reliability; QoS-driven reliability; Reliability in processing Big Data

Quality of Service
QoS design and architectures for networks and distributed systems; QoS modeling, adaptation and monitoring; QoS policy assessment; QoS metrics and measurement; QoS-based routing; QoS-aware applications and services; Provisioning and monitoring QoS constraints; QoS-based admission control; QoS negotiation and mediation; User-profile QoS-aware mechanisms; QoS-network device mechanisms (scheduling, queue management, traffic engineering, etc.); QoS and opportunistic scheduling; QoS-aware resource management; QoS in WLAN, WPAN, WMAN and WiMAX (IEEE 802.11/15/16/20); QoS in wireless sensor and ad hoc networks; QoS support in wireless networks for MAC protocols; QoS and survivability in mobile environments

Quality
Quality of Experience (QoE); QoS/QoE relationship; QoS/QoE mapping; QoS/QoE management; QoS/QoE issues in wireless networks; Quality of Handoff; Quality of Diagnosis; Quality of Context; Quality of Big Data; Quality in advanced wireless networks (4/5G); Quality in SDN

Reliability and QoS for future mobile networks
Mobile network expansion solutions; Quality in 5G radio-access networks; End-to-end network architecture and infrastructure; Interworking between heterogeneous networks and technologies; Automated management, orchestration and operation of network functions; Software defined networking (SDN); Mobility management, energy efficiency, power cost reduction; Network function virtualization (NFV) of small cells; Self-organizing network functionalities for virtualized small cells; Reliability of open source software in future mobile networks; Accuracy in Indoor/outdoor positioning; Reliability on massive connectivity handling

 
 

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