Intelligent Surfaces Empowered Wireless Network: Recent Advances and The Road to 6G
Główne pojęcia
Intelligent surfaces (ISs) are a key technology empowering wireless networks with low cost, high energy efficiency, and advanced functionalities.
Streszczenie
- Intelligent surfaces (ISs) have emerged as a crucial technology for enhancing wireless networks due to their low cost, energy efficiency, and advanced functionalities.
- Recent advances in IS architectures have expanded their capabilities from passive reflection to active amplification and holographic beamforming.
- This paper provides a comprehensive survey on the recent development and advances of ISs in wireless networks, focusing on use cases in future wireless networks like 6G.
- The paper covers anticipated use cases of ISs in future wireless networks such as 6G, recent standardization activities related to ISs, design issues of reflection-based IS, and advanced IS architectures.
- Applications of ISs in 6G scenarios include immersive communication, massive communication for IoT applications, hyper-reliable and low-latency communication for smart factories and transportation, integrated sensing and communication (ISAC), integrated AI and communication, and ubiquitous connectivity.
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Intelligent Surfaces Empowered Wireless Network
Statystyki
"The global mobile traffic in the next decade is envisaged to increase explosively and reach over 5000 exabytes per month in 2030."
"6G is envisioned to provide global seamless coverage, expand spectrum resources beyond millimeter wave frequency bands."
"Three new usage scenarios identified in 6G are integrated sensing and communication (ISAC), integrated artificial intelligence (AI) and communication, ubiquitous connectivity."
Cytaty
"Intelligent surfaces have emerged as a key technology to empower a wide range of appealing applications for wireless networks."
"Recent advances in IS architectures have expanded their electromagnetic functionalities from passive reflection to active amplification."
Głębsze pytania
How can the deployment of intelligent surfaces impact the overall energy consumption of wireless networks?
Intelligent surfaces (ISs) have the potential to significantly reduce the energy consumption of wireless networks. By strategically deploying ISs in environments where signal propagation is challenging, such as areas with high interference or signal blockage, ISs can enhance signal quality and coverage. This improvement allows for more efficient communication between devices, reducing the need for higher power transmissions that consume more energy. Additionally, ISs can enable beamforming techniques that focus signals directly towards intended receivers, minimizing wasteful broadcast transmissions and further lowering energy usage in network operations.
What potential challenges might arise from integrating artificial intelligence with communication technologies through intelligent surfaces?
Integrating artificial intelligence (AI) with communication technologies through intelligent surfaces presents several challenges. One major challenge is ensuring seamless coordination between AI algorithms and communication protocols to optimize network performance effectively. The complexity of managing AI-driven decisions within dynamic networking environments may lead to issues related to latency, reliability, and scalability. Furthermore, maintaining data privacy and security while leveraging AI capabilities on intelligent surfaces poses a significant challenge due to the sensitive nature of communications data.
How can the concept of ubiquitous connectivity be extended beyond traditional network coverage areas using intelligent surfaces?
Intelligent surfaces offer a unique opportunity to extend ubiquitous connectivity beyond traditional network coverage areas by providing targeted signal enhancement in hard-to-reach locations. By strategically placing ISs in remote or underserved regions where conventional infrastructure is limited or absent, these smart reflective panels can redirect signals towards desired destinations efficiently. Moreover, mobile platforms equipped with IS technology like drones or satellites can act as relay points to bridge connectivity gaps in challenging terrains or isolated regions. This approach enables continuous wireless access across diverse landscapes and enhances connectivity options for users regardless of their location.