核心概念
Optimizing forwarding and computation offloading in edge computing networks for service chain tasks is crucial for minimizing network costs.
摘要
The content discusses the challenges of delay-optimal forwarding and computation offloading in edge computing networks, proposing a solution that outperforms baselines in congested scenarios. It introduces collaborative edge computing (CEC) and service chain applications, providing a detailed framework and algorithm for global optimization. The paper emphasizes the importance of efficient resource utilization to enhance computation-intensive services at the edge.
统计
"Emerging edge computing paradigms enable heterogeneous devices to collaborate on complex computation applications."
"Numerical evaluation shows that our method significantly outperforms baselines in multiple network instances."
"Mobile devices running these applications generate a huge amount of data traffic, which is predicted to reach 288EB per month in 2027."
"We propose a distributed algorithm that converges to the global optimum."
"Our model captures the fact that in practical edge networks, the workload for a certain task may be very different depending on where it is computed."
引用
"Recent years have seen an explosion in the number of mobile and IoT devices."
"Edge computing has been proposed as a promising solution to provide computation resources and cloud-like services in close proximity to mobile devices."
"We demonstrate that our non-convex objective is geodesically convex under the assumption that input rates are strictly positive."