Interference Suppression for Satellite Navigation Based on Neural Network and Wavelet Packets Transform

Shi, Yu; Liu, You Bao

doi:10.4028/www.scientific.net/amr.457-458.1111

Cited by 3 publications

(2 citation statements)

References 9 publications

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“…Finally, Shi et al [79] proposed an approach to suppress interference in a direct sequence spread spectrum (DSSS) system using a combination of a power distributing predominance wavelet packet transform (PDP-WPT) and an extended backpropagation neural network (EBPNN) in a satellite navigation system. The process involves a step that first tracks the interfering signal effectively and then identifies the transmitted signal using the EBPNN based on its structural simplicity.…”

Section: Contributions For Interference Suppression Using Dnnsmentioning

confidence: 99%

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Interference Suppression Using Deep Learning: Current Approaches and Open Challenges

Oyedare,

Shah,

Jakubisin

et al. 2021

Preprint

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In light of the finite nature of the wireless spectrum and the increasing demand for spectrum use arising from recent technological breakthroughs in wireless communication, the problem of interference continues to persist. Despite recent advancements in resolving interference issues, interference still presents a difficult challenge to effective usage of the spectrum. This is partly due to the rise in the use of license-free and managed shared bands for Wi-Fi, long term evolution (LTE) unlicensed (LTE-U), LTE licensed assisted access (LAA), 5G NR, and other opportunistic spectrum access solutions. As a result of this, the need for efficient spectrum usage schemes that are robust against interference has never been more important. In the past, most solutions to interference have addressed the problem by using avoidance techniques as well as non-AI mitigation approaches (for example, adaptive filters). The key downside to non-AI techniques is the need for domain expertise in the extraction or exploitation of signal features such as cyclostationarity, bandwidth and modulation of the interfering signals. More recently, researchers have successfully explored AI/ML enabled physical (PHY) layer techniques, especially deep learning which reduces or compensates for the interfering signal instead of simply avoiding it. The underlying idea of ML based approaches is to learn the interference or the interference characteristics from the data, thereby sidelining the need for domain expertise in suppressing the interference. In this paper, we review a wide range of techniques that have used deep learning to suppress interference. We provide comparison and guidelines for many different types of deep learning techniques in interference suppression. In addition, we highlight challenges and potential future research directions for the successful adoption of deep learning in interference suppression.

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Section: Contributions For Interference Suppression Using Dnnsmentioning

confidence: 99%

“…Also, the mean square error (MSE) of the proposed technique is smaller compared with other conventional techniques. Another benefit of the technique is its higher convergence rate when compared to other time-domain interference suppression methods [79].…”

Section: Contributions For Interference Suppression Using Dnnsmentioning

confidence: 99%

Interference Suppression Using Deep Learning: Current Approaches and Open Challenges

Oyedare,

Shah,

Jakubisin

et al. 2021

Preprint

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Applications and prospects of artificial intelligence in covert satellite communication: a review

Liu

Zeng

et al. 2023

Sci. China Inf. Sci.

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Interference Suppression Using Deep Learning: Current Approaches and Open Challenges

2022

View full text Add to dashboard Cite

In light of the finite nature of the wireless spectrum and the increasing demand for spectrum use arising from recent technological breakthroughs in wireless communication, the problem of interference continues to persist. Despite recent advancements in resolving interference issues, interference still presents a difficult challenge to effective usage of the spectrum. This is partly due to the rise in the use of license-free and managed shared bands as well as other opportunistic spectrum access solutions. As a result of this, the need for efficient spectrum usage schemes that are robust against interference has never been more important. In the past, most solutions to interference have addressed the problem by using avoidance techniques as well as mitigation approaches based on expert systems. More recently, researchers have successfully explored artificial intelligence/machine learning enabled physical layer techniques, especially deep learning which reduces or compensates for the interfering signal instead of simply avoiding it. In this paper, we address the knowledge gap in literature with respect to the state-of-the-art in deep learning-based interference suppression. Specifically, we review a wide range of techniques that have used deep learning to suppress interference by learning interference characteristics directly from data, rather than relying on expert systems. We provide a thorough technical discussion of the prominent deep learning algorithms that have been proposed in the literature and provide comparison and guidelines regarding their successful implementation in this application. In addition, we highlight challenges and potential future research directions for the successful adoption of deep learning in this critical field.

show abstract

Interference Suppression for Satellite Navigation Based on Neural Network and Wavelet Packets Transform

Cited by 3 publications

References 9 publications

Interference Suppression Using Deep Learning: Current Approaches and Open Challenges

Interference Suppression Using Deep Learning: Current Approaches and Open Challenges

Applications and prospects of artificial intelligence in covert satellite communication: a review

Interference Suppression Using Deep Learning: Current Approaches and Open Challenges

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