Welcome to the
2026 Global Congress on Networking and Communications (GC-NetCom 2026). This event is intended to represent a major forum for researchers, professionals and students from all over the world to meet in the beautiful and culturally rich city of Irbid in Jordan to present their latest research results and to exchange new ideas and practical experiences.
Scope
GC-NetCom 2026 main scope includes, but is not limited to the following areas: Internet of Vehicles; Quality of Service in Communications; Cognitive Radio Communications; Optical Devices and Components; Optical Signal Processing; Optical Communication Systems and Networks; Photonics and Optoelectronics; Wireless Optical Communications; Modeling and Simulation of Wireless Communication Systems and Networks; Wireless Services and Applications; Wireless Communication Systems; Wireless Communication Networks; 6G Communications; Indoors Communication Systems; Physical Layer Technologies for Next Generation Communications; Channel Coding for Next Generation Communications; Communication Network Security; Mesh, Ad Hoc and Sensor Networks; Green and Sustainable Communication Networks; Software-Defined Networks; Network Operations and Management; Communication and Computer Networks; Vehicular Communication Systems; Vehicular Communication Networks; Vehicular Electronics and Electric Vehicles; Unmanned Vehicular Systems; Vehicular System Security; Industrial Internet of Things; Consumer Internet of Things; Internet of Things for Smart Cities; Green Internet of Things; Signal Processing for the Internet of Things; Internet of Things Security and Privacy; Internet of Things Enabling Technologies;
GC-NetCom 2026 is planned to feature special sessions, keynote talks and tutorial sessions by leading experts, paper presentations, poster shows, demo shows, discussion panels, as well as other interesting technical activities.
Jordan
Coming to Jordan represents a unique opportunity to witness the embrace of history and future. As small in area as it is, Jordan has a rich history spanning thousands of years, a history that a tourist can only admire. Places like Petra and the Dead Sea are only examples of the many one-of-a-kind places to visit in Jordan. On top of all that, Jordan, as a peaceful country in a turbulent area, enjoys extreme levels of safety and security. Jordanian people are internationally known for generosity, hospitality and cultural awareness and tolerance.
Enjoy attending GC-NetCom 2026 at Seven Days Hotel, in Irbid, Jordan.
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Enjoy moderate registration fees, and register up to two papers for the same registration fee. Students receive substantial registration discounts.
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Have the possiblity to extend and publish your conference papers with some of the top journal publishers.
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Only full paper submissions are allowed at all our conferences. No summary or abstract submissions are allowed. Conference topic coverage includes the most current and exciting fields of knowledge and research.
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Papers can be accepted to our conferences only after rigorous peer reviewing.
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Our outstanding reviewing process is facilitated by careful selection of technical program committee members from among the best international experts. Each submitted paper is subject to no less than two peer reviews before it can be considered for acceptance.
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Published papers of GC-NetCom 2026 are indexed by Google Scholar. More indexing is on the way.
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At each conference, and based on paper review scores, the paper with the highest scores receives the Best Paper Award. This is an award to which only presented papers are eligible. The best paper award is usually delivered to the presenter of the winning paper at the main conference dinner.
Are you preparing a paper to submit to GC-NetCom 2026?
If so, please help the organizing committee make good predictions about the potential size of GC-NetCom 2026 participation. To do so, please indicate your plan to submit a contribution by clicking here. This does not imply any commitment on your side. Kindly note that clicking the above link does not involve submission of any contribution.
Millimeter wave (mmWave) has emerged as a key technology enabler for high-data-rate wide-bandwidth applications in next generation communication networks. Vehicular networks are highly sensitive to delay and delay jitter making mmWave a natural choice. The speaker is engaged in several collaborative research efforts in the domain of millimetre wave vehicular communication between international groups in Europe, Asia and North America. The keynote talk provides a summary of such efforts to provide the user with the current state-of-the-art. Channel sounding campaigns conducted under different vehicle-to-everything (V2X) scenarios, such as intra-vehicle (InV), vehicle-to-vehicle (V2V) and vehicle-to-infrastructure (V2I), are described. The experimental data obtained are analysed and used for subsequent modelling of V2X wireless channels. Finally, the lessons learned during the sounding and modelling phases are applied in developing internationally accredited standards.
Motivation:
- Understand the role of vehicular communication in smart cities
- Appreciate the high bandwidth demand of vehicular communication
- Develop a systematic approach for designing next generation vehicular communication links
Aniruddha Chandra received BE, ME, and PhD degrees from Jadavpur University, Kolkata, India in 2003, 2005, and 2011 respectively. He joined Electronics and Communication Engineering Department, National Institute of Technology, Durgapur, India in 2005. He is currently serving as an Associate Professor there. In 2011, he was a Visiting Lecturer at Asian Institute of Technology, Bangkok. From 2014 to 2016, he worked as a Marie Curie fellow at Brno University of Technology, Czech Republic. Dr. Chandra has published about 80 research papers in refereed journals and peer-reviewed conferences. He is a co-recipient of best short paper award at IEEE VNC 2014 held in Paderborn, Germany and delivered a keynote lecture in IEEE MNCApps 2012 held in Bangalore, India. His primary area of research is physical layer issues in wireless communication.
