Kehai Qiu scite author profile

Kehai Qiu

4Publications

35Citation Statements Received

115Citation Statements Given

How they've been cited

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115

Affiliations

University of Cambridge, UK Power Networks

Publications

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DeepRay: Deep Learning Meets Ray-Tracing

Bakirtzis

Qiu

Zhang

et al. 2022

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Efficient and accurate indoor radio propagation modeling tools are essential for the design and operation of wireless communication systems. Lately, several attempts to combine radio propagation solvers with machine learning (ML) have been made. In this paper, motivated by the recent advances in the area of computer vision, we present a new ML propagation model using convolutional encoder-decoders. Specifically, we couple a ray-tracing simulator with either a U-Net or an SDU-Net, showing that the use of atrous convolutions utilized in SDU-Net can enhance significantly the performance of an ML propagation model. The proposed data-driven framework, called DeepRay, can be trained to predict the received signal strength in a given indoor environment. More importantly, once trained over multiple input geometries, DeepRay can be employed to directly predict the signal level for unknown indoor environments. We demonstrate this approach in various indoor environments using long range (LoRa) devices operating at 868 MHz.

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EM DeepRay: An Expedient, Generalizable, and Realistic Data-Driven Indoor Propagation Model

Bakirtzis

Chen

Qiu

et al. 2022

IEEE Trans. Antennas Propagat.

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Efficient and realistic indoor radio propagation modelling tools are inextricably intertwined with the design and operation of next generation wireless networks. Machine learning (ML)-based radio propagation models can be trained with simulated or real-world data to provide accurate estimates of the wireless channel characteristics in a computationally efficient way. However, most of the existing research on ML-based propagation models focuses on outdoor propagation modelling, while indoor data-driven propagation models remain site-specific with limited scalability. In this paper we present an efficient and credible ML-based radio propagation modelling framework for indoor environments. Specifically, we demonstrate how a convolutional encoder-decoder can be trained to replicate the results of a ray-tracer, by encoding physics-based information of an indoor environment, such as the permittivity of the walls, and decode it as the path-loss (PL) heatmap for an environment of interest. Our model is trained over multiple indoor geometries and frequency bands, and it can eventually predict the PL for unknown indoor geometries and frequency bands within a few milliseconds. Additionally, we illustrate how the concept of transfer learning can be leveraged to calibrate our model by adjusting its pre-estimate weights, allowing it to make predictions that are consistent with measurement data.

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An Expedient, Generalizable and Realistic Data-Driven Indoor Propagation Model

Bakirtzis¹,

Chen²,

Qiu³

et al. 2023

Preprint

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Pseudo Ray-Tracing: Deep Leaning Assisted Outdoor mm-Wave Path Loss Prediction

Qiu

Bakirtzis

Song

et al. 2022

IEEE Wireless Commun. Lett.

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Kehai Qiu

DeepRay: Deep Learning Meets Ray-Tracing

EM DeepRay: An Expedient, Generalizable, and Realistic Data-Driven Indoor Propagation Model

An Expedient, Generalizable and Realistic Data-Driven Indoor Propagation Model

Pseudo Ray-Tracing: Deep Leaning Assisted Outdoor mm-Wave Path Loss Prediction

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