From 5G to beyond: Passive optical network and multi-access edge computing integration for latency-sensitive applications
A recent paradigm shift in support of 5G-and-beyond (5GB), Human-to-Machine/Robot
(H2M/R), and the Tactile Internet has resulted in a surge of latency-sensitive applications …
(H2M/R), and the Tactile Internet has resulted in a surge of latency-sensitive applications …
URLLC for 5G and beyond: Requirements, enabling incumbent technologies and network intelligence
The tactile internet (TI) is believed to be the prospective advancement of the internet of
things (IoT), comprising human-to-machine and machine-to-machine communication. TI …
things (IoT), comprising human-to-machine and machine-to-machine communication. TI …
Federated learning in robotic and autonomous systems
Autonomous systems are becoming inherently ubiquitous with the advancements of
computing and communication solutions enabling low-latency offloading and real-time …
computing and communication solutions enabling low-latency offloading and real-time …
QoS Provisioning: Key Drivers and Enablers Toward the Tactile Internet in Beyond 5G Era
The Tactile Internet has become a revolution for Internet technology, greatly improving the
transmission of skill sets (audio, video, text, and haptics) over communication channels …
transmission of skill sets (audio, video, text, and haptics) over communication channels …
Machine learning enhanced next-generation optical access networks—challenges and emerging solutions [Invited Tutorial]
Optical access networks are envisioned to become increasingly complex as they support
more and more diverse and immersive services, each with a different capacity, latency, and …
more and more diverse and immersive services, each with a different capacity, latency, and …
Enhancing latency performance through intelligent bandwidth allocation decisions: a survey and comparative study of machine learning techniques
Converged access networks consolidating 5G and beyond and fixed optical fiber access are
expected to support future latency-sensitive human-to-machine applications over the Tactile …
expected to support future latency-sensitive human-to-machine applications over the Tactile …
Towards 6G: fast and self-adaptive dynamic bandwidth allocation for next-generation mobile fronthaul
6G networks will deliver dynamic and immersive applications that bridge the real and digital
worlds. The next-generation passive optical access network is a potential optical transport …
worlds. The next-generation passive optical access network is a potential optical transport …
Addressing concept drift of dynamic traffic environments through rapid and self-adaptive bandwidth allocation
Passive optical networks are envisioned to become increasingly complex as they support
more and more diverse and immersive services that have different capacity, latency, and …
more and more diverse and immersive services that have different capacity, latency, and …
A Transfer Learning Assisted Framework to Expedite and Self-Adapt Bandwidth Allocations in Low-Latency H2M Applications
In view of the aspirations of 6G, networks will soon be expected to support the delivery of
tactile-haptic and kinetic perceptions so that humans can interact with real/virtual …
tactile-haptic and kinetic perceptions so that humans can interact with real/virtual …
Towards 6G: the evolution of passive optical networks
E Wong - 2022 IEEE Photonics Conference (IPC), 2022 - ieeexplore.ieee.org
Next-generation PONs are being considered as an optical transport solution for 6G mobile
networks. Nonetheless, to support a heterogeneity of immersive services, challenges in …
networks. Nonetheless, to support a heterogeneity of immersive services, challenges in …