-------- Weitergeleitete Nachricht -------- Betreff: [CFP] (Extended Deadline: 15 December 2024) IEEE WCNC 2025 7th Workshop on Sustainable and Intelligent Green Internet of Things for 6G and Beyond Datum: Fri, 6 Dec 2024 16:13:44 +0000 Von: Aryan Kaushik Aryan.Kaushik@sussex.ac.uk An: Aryan Kaushik a.kaushik@mmu.ac.uk
Dear Colleagues,
*Apologies if you have received multiple copies of this Call for Papers*
We are pleased to invite you to submit original contributions to the* IEEE WCNC 2025 7th Workshop on Sustainable and Intelligent Green Internet of Things for 6G and Beyond - WS13.*
*Website: *https://wcnc2025.ieee-wcnc.org/workshop/ws13-workshop-sustainable-and-intell... https://wcnc2025.ieee-wcnc.org/workshop/ws13-workshop-sustainable-and-intelligent-green-internet-things-6g-and-beyond-6gsiot
*Paper Submission Link:*https://edas.info/newPaper.php?c=32909&track=127541 https://edas.info/newPaper.php?c=32909&track=127541
*Paper Submission Deadline:* *15 December 2024 (Extended)* *Notification of Acceptance:* 15 January 2025 *Camera Ready:* 01 February 2025 *Workshop Date:* 24 March 2025
*SCOPE* 6G, the next generation communication system, is expected to satisfy unprecedented requirements on system performance in terms of throughput, latency, massive connections, and so on. In the 6G era, with the hyper-connectivity among humans and everything, we are anticipating Internet of Things (IoT) applications in various fields, including smart city, smart factory, smart home, smart grid, e-health, smart farming, and smart transportation, accompanied by new services with rich experiences, such as truly immersive VR/AR/MR (XR), etc. However, considering the diversity of networking entities, different application requirements, and resource constraints in IoT environments, there is a need for sustainable and innovative hardware and software upgrades. Future IoT systems will feature a larger number of devices and multi-access environments where different types of wireless spectrum, including Sub-6 GHz, Millimetre-wave, and Terahertz technologies, should be efficiently utilized. The increase in the number of IoT devices also increases the challenges of maintaining a net zero carbon emission rate, hence creating difficulties in meeting COP26 goals. To tackle these challenges, it is crucial to develop an IoT architecture that optimizes resource utilization and can cope with the constraints of IoT devices. Numerous appealing options exist for creating and executing energy-efficient communication networks.
Topics of interest include, but are not limited to, the following:
* Agent theory and Green IoT applications in the 6G era. * Backscatter communications for Green IoT systems. * Energy harvesting, wireless information, and power transfer for Green IoT systems. * Wakeup radios and other low-power radio designs for Green IoT systems. * Intelligent reflecting surface design for IoT systems in the 6G era. * MIMO/massive MIMO upgrades for IoT systems in the 6G era. * Mm-Wave and THz enabled antenna designs for IoT systems in the 6G era. * Cognitive modelling of Green IoT systems in the 6G era. * Collaborative and distributed IoT systems and control. * Collaborative Green IoT frameworks in the 6G era. * Collaborative intelligence security of IoT in the 6G era. * Computation-efficient collaborative intelligence approaches for IoT systems in the 6G era. * Data driven collaborative intelligence for Green IoT. * Energy-efficient collaborative intelligence approaches for IoT. * Group decision making for Green IoT systems. * Human-machine cooperation for Green IoT systems. * Intelligent collaborative processing for Green IoT. * Multi-agent systems for Green IoT in the 6G era.
*Workshop Chairs: *
Muhammad Ali Jamshed, University of Glasgow, UK Chehri Abdellah, Royal Military College, Canada Aryan Kaushik, Manchester Metropolitan University, UK Mona Jaber, Queen Mary University of London, UK
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