Further investigation on bifurcation and their control of fractional‐order bidirectional associative memory neural networks involving four neurons and multiple delays

Xu, Changjin; Zhang, Wei; Aouiti, Chaouki; Liu, Zixin; Liao, Maoxin; Li, Peiluan

doi:10.1002/mma.7581

Cited by 47 publications

(28 citation statements)

References 53 publications

(102 reference statements)

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“…FPDS spacecraft are dynamic systems with complex characteristics, especially during pursuit maneuvers with the use of rocket engine thrust and change in direction, nonlinear vibrations appear. For this reason, during the analysis of the issues of simulation and control of autonomous operations of space vehicles, problems arose with their proper modeling and the development of signals for space vehicle actuators while solving systems of nonlinear dynamics equations of bifurcation problems [ 29 , 30 ] and used neural network algorithms [ 31 ].…”

Section: Initial Assumptions Of the Future Planetary Defense System: ...mentioning

confidence: 99%

Hydrocode Investigations of Terminal Astroballistics Problems during the Hypothetical Future Planetary Defense System’s Space Mission

2022

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The article is devoted to the preliminary concept of the Future Planetary Defense System (FPDS) emphasizing astroballistics. This paper is intended to support international efforts to improve the planetary security of Earth. The work covers three areas of knowledge: astronautics, astrodynamics, and astroballistics. The most important part of the presented article is dynamic, contact combat modeling against small, deformable celestial bodies. For these purposes, the original, proprietary hydrocode of the free particle method (HEFPM-G) with gravity was used. The main aim of combat is to redirect potentially hazardous objects (PHOs) to orbits safe for Earth or destroy them. This concept’s first task is to find, prepare, and use dynamic three-dimensional models of the motion of celestial bodies and spacecraft or human-crewed spaceships in the solar system’s relativistic frame. The second task is to prepare the FPDS’ architecture and computer simulation space missions’ initial concepts in the internal part of the solar system. The third and main task covers simulating, using hydrocodes, and selected methods of fighting 100 m diameter rock material asteroids.

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Section: Initial Assumptions Of the Future Planetary Defense System: ...mentioning

confidence: 99%

Hydrocode Investigations of Terminal Astroballistics Problems during the Hypothetical Future Planetary Defense System’s Space Mission

2022

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“…Additionally, other resources were used, such as optimizers, dropouts, and activation functions, as mentioned later. Subsequently, although the parameters of each of the classes were balanced in quantity, an adjustment of the weights was made [28][29][30] to match the values obtained by the network for each of the classes. The model's architecture showed the order of the layers and the number of values that entered and exited each one (Figure 6).…”

Section: Computational Analysis: Lstm Nnmentioning

confidence: 99%

Rapid Detection of Cardiac Pathologies by Neural Networks Using ECG Signals (1D) and sECG Images (3D)

et al. 2022

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Usually, cardiac pathologies are detected using one-dimensional electrocardiogram signals or two-dimensional images. When working with electrocardiogram signals, they can be represented in the time and frequency domains (one-dimensional signals). However, this technique can present difficulties, such as the high cost of private health services or the time the public health system takes to refer the patient to a cardiologist. In addition, the variety of cardiac pathologies (more than 20 types) is a problem in diagnosing the disease. On the other hand, surface electrocardiography (sECG) is a little-explored technique for this diagnosis. sECGs are three-dimensional images (two dimensions in space and one in time). In this way, the signals were taken in one-dimensional format and analyzed using neural networks. Following the transformation of the one-dimensional signals to three-dimensional signals, they were analyzed in the same sense. For this research, two models based on LSTM and ResNet34 neural networks were developed, which showed high accuracy, 98.71% and 93.64%, respectively. This study aims to propose the basis for developing Decision Support Software (DSS) based on machine learning models.

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“…Ke [25] proded into the Mittag-Leffler stability and asymptotic ω-periodicity of fractional-order delayed inertial neural networks. In details, one can see [26][27][28][29][30][31][32][33][34][35][36][37].…”

Section: Introductionmentioning

confidence: 99%

Dynamic Analysis and Bifurcation Study on Fractional-Order Tri-Neuron Neural Networks Incorporating Delays

Yan

et al. 2022

Fractal Fract

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A single paragraph of about 200 words maximum. For research articles, abstracts should provide a pertinent overview of the work. We strongly encourage authors to use the following style of structured abstracts, but without headings: (1) Background: place the question addressed in a broad context and highlight the purpose of the study; (2) Methods: describe briefly the main methods or treatments applied; (3) Results: summarize the article’s main findings; (4) Conclusion: indicate the main conclusions or interpretations. The abstract should be an objective representation of the article, it must not contain results which are not presented and substantiated in the main text and should not exaggerate the main conclusions.

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Further investigation on bifurcation and their control of fractional‐order bidirectional associative memory neural networks involving four neurons and multiple delays

Cited by 47 publications

References 53 publications

Hydrocode Investigations of Terminal Astroballistics Problems during the Hypothetical Future Planetary Defense System’s Space Mission

Hydrocode Investigations of Terminal Astroballistics Problems during the Hypothetical Future Planetary Defense System’s Space Mission

Rapid Detection of Cardiac Pathologies by Neural Networks Using ECG Signals (1D) and sECG Images (3D)

Dynamic Analysis and Bifurcation Study on Fractional-Order Tri-Neuron Neural Networks Incorporating Delays

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