English

Reinforcement Learning for Admission Control in Wireless Virtual Network Embedding

Networking and Internet Architecture 2021-10-05 v1 Machine Learning

Abstract

Using Service Function Chaining (SFC) in wireless networks became popular in many domains like networking and multimedia. It relies on allocating network resources to incoming SFCs requests, via a Virtual Network Embedding (VNE) algorithm, so that it optimizes the performance of the SFC. When the load of incoming requests -- competing for the limited network resources - increases, it becomes challenging to decide which requests should be admitted and which one should be rejected. In this work, we propose a deep Reinforcement learning (RL) solution that can learn the admission policy for different dependencies, such as the service lifetime and the priority of incoming requests. We compare the deep RL solution to a first-come-first-serve baseline that admits a request whenever there are available resources. We show that deep RL outperforms the baseline and provides higher acceptance rate with low rejections even when there are enough resources.

Keywords

Cite

@article{arxiv.2110.01262,
  title  = {Reinforcement Learning for Admission Control in Wireless Virtual Network Embedding},
  author = {Haitham Afifi and Fabian Sauer and Holger Karl},
  journal= {arXiv preprint arXiv:2110.01262},
  year   = {2021}
}
R2 v1 2026-06-24T06:35:53.677Z