Introduction

The International Workshop on Computer-Aided Modeling Analysis and Design of Communication Links and Networks (CAMAD) provides a forum for discussion of recent developments on analytical and simulation tools and techniques for the performance evaluation of communications systems. It was launched in 1986, being held every 2 years until 2006, often in cooperation with flagship IEEE Communication Society conferences (Int. Conference on Communications - ICC, Global Telecommunication Conference - GLOBECOM). Since 2006, the workshop has been held once every year motivated by the ever increasing interest in this hot research and development field with last venues organized in Trento (CAMAD‘06) and Pisa (CAMAD‘09) as a stand-alone events, in conjunction with IEEE PIMRC 2007 in Athens, Greece (CAMAD‘07) and co-located with the ICC 2008 in Beijing, China. From 2009, CAMAD is an IEEE Communications Society portfolio event. 

The 22nd IEEE CAMAD will be held as a stand-alone event on June 19-21, 2017, in Lund, Sweden.
The focus of CAMAD this year will be on on communication aspects of 5G Networking and beyond. It is intended to cover a wide range of topics on different communication layers from cooperative network coded and cognitive techniques to lightweight security mechanisms which fulfill the required QoS and QoE. 
CAMAD will be co-located with several closely related workshops, and special sessions and will bring together scientists, engineers, manufacturers and service providers to exchange and share their experiences, new ideas, and research results surrounding all aspects on energy saving and the solutions adopted to envisage an environmentally friendly internet of the future. In addition to contributed papers, the meeting will also include keynotes speeches, panel sessions, and a demo session.

Call for paper

Important date

2017-03-19
Draft paper submission deadline
2017-04-09
Draft paper acceptance notification
2017-04-23
Final paper submission deadline

Submission Topics

  • Wireless PHY layers for 5G: design, analysis, and optimization 

  • Wireless MAC protocols for 5G: design, analysis, and optimization 

  • 5G IoT networks for urban applications 

  • Adaptive content distribution in on-demand services 

  • Backhaul/fronthaul for multi-tier ultra-dense heterogeneous small cell networks 

  • Cognitive and Cooperative Communications 

  • Commercial and Societal Impact of Networks, Data, and Adaptive Services 

  • Context and location-aware wireless services and applications 

  • Cross-layer design for massive MIMO and multiuser MIMO networks 

  • End-to-End Network slicing 

  • Efficient integration of multiple novel 5G air interfaces 

  • Energy harvesting wireless networks 

  • Mobile big data and network data analytics 

  • Mobile cloud and fog networking 

  • Mobile social networks 

  • Mobility, location, and handoff management 

  • Multimedia QoS, and traffic management 

  • Multiple access in machine-to-machine communication 

  • Network estimation techniques 

  • Optical Communications & Fiber Optics for 5G 

  • QoS support and energy efficient MAC 

  • Quality of Experience: Framework, Evaluation and Challenges 

  • Simulation Techniques for Large-Scale Networks 

  • Smart Grids: Communication, Modeling and Design 

  • Software-defined wireless networks 

  • Testbed, experiments, and prototype implementations of systems & services 

  • Traffic Engineering, Modeling and Analysis 

  • Ultra low-latency and ultra high-reliability 

  • Validation of Simulation Models with Measurements 

  • Wireless body area networks and e-health services 

  • Wireless broadcast, multicast and streaming 

Submit Comment
Verify Code Change Another
All Comments