Abstract
Due to its ability to significantly improve the wireless communication efficiency, the intelligent reflective surface (IRS) has aroused widespread research interest. However, it is a challenge to obtain perfect channel state information (CSI) for IRS-related channels due to the lack of the ability to send, receive, and process signals at IRS. Since most of the existing channel estimation methods are developed to obtain cascaded base station (BS)-IRS-user devices (UDs) channel, this paper studies the problem of computation and communication resource allocation of the IRS-assisted federated learning (FL) system based on the imperfect CSI. Specifically, we take the statistical CSI error model into consideration and formulate the training time minimization problem subject to the rate outage probability constraints. In order to solve this issue, the semi-definite relaxation (SDR) and the constrained concave convex procedure (CCCP) are invoked to transform it into a convex problem. Subsequently, a low-complexity algorithm is proposed to minimize the delay of the FL system. Numerical results show that the proposed algorithm effectively reduces the training time of the FL system base on imperfect CSI.
Highlights
In recent years, with the advancement of 5G technology, the internet of things (IoT)has seen rapid development
This paper studies the computation and communication resource allocation problem in intelligent reflective surface (IRS)-assisted Federated learning (FL) systems based on imperfect channel state information (CSI)
We study the FL system assisted by IRS under the imperfect CSI, and outage probability is introduced to characterize the impact of imperfect CSI
Summary
With the advancement of 5G technology, the internet of things (IoT)has seen rapid development. The traditional machine learning (ML) framework stores data on a central node, and its all functions are implemented on this node. Such a centralized learning framework has high latency and poses a great challenge to privacy protection. Due to the significant increase in data processing capabilities of mobile devices, the concept of edge learning has been introduced to solve these problems, which processes data at the edge rather than at the cloud center. Federated learning (FL) is one of the most promising edge learning frameworks, where user devices (UDs) only send local models calculated by local resource to the base station (BS) without sharing local data [1,2]
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