Call for Papers

ICC 2021 Communication QoS, Reliability and Modeling Symposium

Paper Submission: 12 October 2020
Notification: 25 January 2021
Camera Ready and Registration: 22 February 2021

How to Submit: https://edas.info/newPaper.php?c=27230

Symposium co-chairs
Chikara Ohta, Kobe University, Japan, ohta@port.kobe-u.ac.jp
Christos Verikoukis, CTTC, Spain, cveri@cttce.es
Imad Elhajj, American University of Beirut, Lebanon, ie05@aub.edu.lb

Scope:

The Communication QoS, Reliability and Modeling (CQRM) Symposium aims at providing an international venue for the discussion of research advances in communications service provisioning, quality of service/experience technologies, modeling and formal methods, and analytical and experimental techniques to allow the design of communication networks as a reliable information infrastructure with QoS capability. The scope of this symposium is agnostic to network technologies. Specifically, the goal is to address the key challenges to provide the required level of QoS, security, and reliability to coexisting networks that are heterogeneous in nature, in size, and in the type of information transmitted.

Topics of interest for the CQRM Symposium include, but are not limited to:

Metrics and Models for Quality of Experience (QoE) and Quality of Service (QoS)
Human Perception Aware QoE
QoS Provisioning in Machine Communications
Design and Evaluation of Energy Efficient Networks and Services
Design and Evaluation of Software Defined Networking (SDN) Architectures and Networks
Design and Evaluation of Application / Service Oriented Networking
Cross-layer Design, Modeling and Optimization
Design and Evaluation of Content Distribution Networks (CDNs)
Design and Evaluation of Smart Cities
Design of Networks and Network Services
Cooperative Networking and Unified Management of Connectivity
Tradeoff Between Performance and Energy Efficiency in Network Design
Design of Network Architectures/Technologies for Ubiquitous 5G Multitenant Networks
Performance Evaluation Techniques
Quality and Performance for Network and Services
Quality, Scalability and Performance in the Internet
Quality, Reliability and Performance in Optical and Multi-layer Networks
Quality and Performance in Autonomic Systems
TCP/IP Variants and Performance
Multimedia Streaming, Adaptive Streaming, MPEG-DASH
Quality and Efficiency for Web browsing, HTTP 2.0
Quality in Multimedia Networks including Voice over IP, IPTV, and Gaming
Quality and Performance in Wireless and Mobile Networks
Wireless and Mobile Networks Performance
Modeling and Performance of 5G Wireless Radio Networks
Performance of Mobile Cloud Networks
Modeling and Performance of Socially-Aware Wireless and Mobile Networks
Performance and Efficiency of Energy Harvesting
Network Measurement and Monitoring Techniques
Network Measurement for Smart Cities and Internet of Things (IoT)
Network Simulation Techniques
Measurement and Evaluation Techniques of Energy Efficient Communication Systems
Performance Evaluation and Design of Cognitive Network Architectures
Performance Evaluation and Design of AI/ML Networks
Performance Evaluation and Integration in Smart Grids Communications and Demand Response Techniques
Performance Evaluation and Design of Connected Autonomous Electric Vehicles
Network Traffic Characterization and Measurement
Machine Learning and Artificial Intelligence for Traffic and QoE Management
Performance evaluation of machine learning based techniques for communications and networks
Machine Learning and Artificial Intelligence for Real-time Monitoring and Network Management
Performance evaluation of new RAN architectures
Integrated Multitenant 5G Platforms
Quality and Performance in Grid, Distributed and Cloud Computing
Quality and Performance in Overlay (including Peer-to-Peer) Networks
Quality and Resource Allocation for Network Services, VPN, Web
Performance Evaluation and Design of Cloud Networks
Performance Evaluation and Design of Vehicular Cloud Networks
Resource Allocation for Networks and Their Services
Software-Defined Networking (SDN) and Network Functions Virtualization (NFV)
Quality and Performance in Mobile Edge and Fog Computing Systems
Quality, Measurements and Performance in IoT and Big Data Applications
IoT Platforms, Integration and Service Provisioning
Design and Scalability of Smart Cities and Crowd Sensing Applications
Quality, Measurements and Performance in Cyber Physical Systems
Scalability and Performance of Edge Computing and Distributed Computing Systems
Integration of Objects, Devices and Systems in an IoT Environment
Security, Reliability, Privacy and Trust by Design and Performance Evaluation
Scalability, Robustness and Resilience
Integration of Behavioral (or Soft) Biometrics into IoT Environments
Standardization Aspects of QoS and Reliability
Dependable Communication Networks
Formal Verification Methods for QoS and Reliability
Innovative Modeling Techniques for Large Scale and Emerging Netw