Multi-Stream Fast Fourier Convolutional Neural Network for Automatic Target Recognition of Ground Military Vehicle

Awujoola, Olalekan J; Odion, Philip O.; Evwiekpaefe, Abraham E.; Obunadike, Georgina Nkolika

doi:10.47852/bonviewaia2202412

Cited by 3 publications

(2 citation statements)

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“…Awujoola et al [72] proposed a technique for SAR image recognition using multi-stream fast Fourier Convolutional Neural Network (MS-FFCNN) to address the challenge of target recognition in SAR image interpretation. The proposed method utilizes the fast Fourier transformation to lower the computational cost of image convolution and multiple streams of FFCNN to improve recognition accuracy and reduce training time.…”

Section: Related Workmentioning

confidence: 99%

Dynamic learning for imbalanced data in learning chest X-ray and CT images

Iqbal

Qureshi

et al. 2023

Heliyon

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Section: Related Workmentioning

confidence: 99%

Dynamic learning for imbalanced data in learning chest X-ray and CT images

Iqbal

Qureshi

et al. 2023

Heliyon

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“…Therefore, the fast Fourier transform (FFT) is an effective way to extract the global feature responses from satellite image time series (Nguyen et al, 2020). For example, Awujoola et al (2022) proposed a multi-stream fast Fourier convolutional neural network (MS-FFCNN) by utilizing the FFT instead of the traditional convolution; it lowers the computing cost of image convolution in CNNs, which lowers the overall computational cost. Lingyun et al (2022) designed a spectral deep network combining fast Fourier convolution (FFC) and classifier by extending the receptive field.…”

Section: Introductionmentioning

confidence: 99%

A fast Fourier convolutional deep neural network for accurate and explainable discrimination of wheat yellow rust and nitrogen deficiency from Sentinel-2 time series data

Shi,

Han,

González-Moreno

et al. 2023

Front. Plant Sci.

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IntroductionAccurate and timely detection of plant stress is essential for yield protection, allowing better-targeted intervention strategies. Recent advances in remote sensing and deep learning have shown great potential for rapid non-invasive detection of plant stress in a fully automated and reproducible manner. However, the existing models always face several challenges: 1) computational inefficiency and the misclassifications between the different stresses with similar symptoms; and 2) the poor interpretability of the host-stress interaction.MethodsIn this work, we propose a novel fast Fourier Convolutional Neural Network (FFDNN) for accurate and explainable detection of two plant stresses with similar symptoms (i.e. Wheat Yellow Rust And Nitrogen Deficiency). Specifically, unlike the existing CNN models, the main components of the proposed model include: 1) a fast Fourier convolutional block, a newly fast Fourier transformation kernel as the basic perception unit, to substitute the traditional convolutional kernel to capture both local and global responses to plant stress in various time-scale and improve computing efficiency with reduced learning parameters in Fourier domain; 2) Capsule Feature Encoder to encapsulate the extracted features into a series of vector features to represent part-to-whole relationship with the hierarchical structure of the host-stress interactions of the specific stress. In addition, in order to alleviate over-fitting, a photochemical vegetation indices-based filter is placed as pre-processing operator to remove the non-photochemical noises from the input Sentinel-2 time series.Results and discussionThe proposed model has been evaluated with ground truth data under both controlled and natural conditions. The results demonstrate that the high-level vector features interpret the influence of the host-stress interaction/response and the proposed model achieves competitive advantages in the detection and discrimination of yellow rust and nitrogen deficiency on Sentinel-2 time series in terms of classification accuracy, robustness, and generalization.

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Research on the DCT vehicle starting process evaluation based on LSTM neural network with attention mechanism

Xu,

Liu

2024

J Mech Sci Technol

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Multi-Stream Fast Fourier Convolutional Neural Network for Automatic Target Recognition of Ground Military Vehicle

Cited by 3 publications

References 20 publications

Dynamic learning for imbalanced data in learning chest X-ray and CT images

Dynamic learning for imbalanced data in learning chest X-ray and CT images

A fast Fourier convolutional deep neural network for accurate and explainable discrimination of wheat yellow rust and nitrogen deficiency from Sentinel-2 time series data

Research on the DCT vehicle starting process evaluation based on LSTM neural network with attention mechanism

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