Your search keyword '"Qiming Yu"' showing total 8 results

1. Ultrathin and Ultra-wideband P-band Absorber Using Magnetic Material and Fan-shaped Resonators

Author

Qiming Yu, Xuewei Zhang, Shaobin Liu, Wenhui He, Yukun Yang, Ziyan Zhou, and Shining Sun

Published

2021

2. Water-Body Type Classification in Dual PolSAR Imagery Using a Two-Step Deep-Learning Method

Author

Qiming Yuan, Jing Lu, Lin Wu, Yabo Huang, Zhengwei Guo, and Ning Li

Subjects

Deep learning, feature fusion, hyperparameter optimize, polarization decomposition method, synthetic aperture radar (SAR), water-body types classification, Ocean engineering, TC1501-1800, Geophysics. Cosmic physics, QC801-809

Abstract

Water-body type problems classification plays a vital role in ecological conservation, water resource management, and urban planning. Accurate classification can aid decision-makers in understanding the functions of different water-body types, providing key information for urban planning and promoting harmony between human activities and the natural environment. Despite extensive research in the field of water-body segmentation, exploration in the water-body type classification community is not as widespread. Therefore, this article proposes a novel water-body type classification method based on a two-step deep-learning model, decomposing water-body type classification into water-body segmentation and water-body type identification. Especially, this method constructs a unique data strategy by organically integrating backscatter features, polarimetric features, and DEM features, providing the model with rich and comprehensive information. In the first step, the segmentation network uses the fused feature to extract all water-body from synthetic aperture radar images. Subsequently, the extracted water-body are combined with the input data, forming a multifeature input for the identification network to distinguish between natural and artificial water-body. During this process, a swarm intelligence optimization algorithm is employed to explore the optimal hyperparameters of the network, including those of the segmentation and identification networks. Finally, the proposed method is assessed using extensive experiments on water-body segmentation tasks, water-body type identification tasks, and joint water-body type classification tasks. This article not only provides a new perspective in the field of water-body type classification but also demonstrates the immense potential of deep-learning network hyperparameter optimization and feature fusion in solving such.

Published

2024

3. A Theoretical Investigation of Three-dimensional All-dielectric Dual-band Polarization Based on Multi-folds Arrow Structure

Author

Zheng-Yu Huang, Yongdiao Wen, Shaobin Liu, Ling-Ling Wang, Haifeng Zhang, Xiangkun Kong, and Qiming Yu

Subjects

Physics, Narrow band, business.industry, Optoelectronics, Multi-band device, Dielectric, Wideband, business, Polarization (waves)

Abstract

In this work, an all-dielectric three-dimensional (3D) dual-band polarization conversion device was proposed, the proposed device was designed by multi-folds arrow structure under the copper background. The proposed device can offer two line-line polarization conversion bands via a single simple structure, the dual-band including a wideband (FBW = 24.58%) and a narrow band (FBW = 4.77%), the polarization conversion rate (PCR) of two bands can reach to over than 95% by adjusting the parameters of the structure.

Published

2019

4. Frequency Selective Rasorber with a Wideband Transmission and Two-sided Absorption Bands

Author

Shaobin Liu, Haifeng Zhang, Zheng-Yu Huang, Qiming Yu, Xiangkun Kong, Yongdiao Wen, and Ling-Ling Wang

Subjects

Lossless compression, Materials science, business.industry, Lossy compression, Selective surface, law.invention, Capacitor, Transmission (telecommunications), law, Optoelectronics, Insertion loss, Wideband, business, Absorption (electromagnetic radiation)

Abstract

In this work, a frequency selective rasorber with a wideband transmission and two-sided absorption bands was proposed. The rasorber is consisted of lossy and lossless frequency selective surfaces (FSS). The two cascaded interdigital capacitors and intuctances are served as the lossy FSS. The rasorber can achieve the 90% absorption between 4-7 GHz and 12.8-17 GHz as well as a transmission window between 8.6-10.8 GHz with the insertion loss less than -1 dB.

Published

2019

5. A Miniaturized Low-profile Dual-polarization Frequency-selective Rasorber with Swastika Structure and Interdigital Resonator

Author

Shaobin Liu, Yongdiao Wen, Qiming Yu, Zheng-Yu Huang, Xing Zhao, and Xiangkun Kong

Subjects

Physics, Resistive touchscreen, Resonator, Wavelength, Dual-polarization interferometry, Optics, business.industry, Miniaturization, Equivalent circuit, Insertion loss, business, Passband

Abstract

The miniaturized dual-polarization low-profile frequency selective rasorber (FSR) with interdigital resonator is proposed, which exhibits two absorption bands on either side of the pass band. The lossy layer is a cross-shaped structure that two resistive sheets are loaded on both sides of the interdigital resonator. The lossless layer is a square ring gap structure. The design guideline is proposed to analyze its operating principle with the aid of an equivalent circuit model. The methods of meandering and interdigital resonator are used to achieve miniaturization. The dimension of element is $0.087\lambda_{L}$ and the thickness is $0.084\lambda_{L}$ where $\lambda_{L}$ is the wavelength corresponding to the lowest working frequency. It is shown that an insertion loss of about −0.38dB is obtained at 10.6 GHz under normal incidence. The −3 dB transmission bandwidth is about 17% and the fractional bandwidth for reflection less than −10 dB is about 103%. The FSR show stable incident angles response from 0 to 30 degrees for both TE and TM polarizations.

Published

2019

6. Wideband Focusing Gradient Meta-surface for High-gain Planar Lens Antenna Application

Author

Hu Yuehong, Xiangkun Kong, Shaobin Liu, Yongdiao Wen, Zheng-Yu Huang, and Qiming Yu

Subjects

Patch antenna, Surface (mathematics), Materials science, business.industry, 020206 networking & telecommunications, 02 engineering and technology, Dielectric, 01 natural sciences, law.invention, Lens (optics), Optics, Planar, law, 0103 physical sciences, Broadband, 0202 electrical engineering, electronic engineering, information engineering, Wideband, 010306 general physics, business, Focus (optics)

Abstract

A broadband transmitting focusing gradient meta-surface (FGMS) has been designed, which is used in application of lens antenna. The element of FGMS is composed of four metallic layers separated by three layers of dielectric, which can achieve high transmitting efficiencies and sufficient phase compensation in the wide operating band. The antennas are placed the focus of FGMS to build a broadband planar lens antenna system. The simulation results show that the lens achieves a gain of 15.6 dBi and achieves 8.44 dB higher than the bare patch antenna at 9.1 GHz. Furthermore, it enhanced the gain of the bare patch antenna from 8.2 GHz to 10 GHz.

Published

2019

7. A Dual-Band, Highly Selective Bandpass Frequency Selective Surface Using Coupling Resonance

Author

Qiming Yu, Yongdiao Wen, Shaobin Liu, and Xiangkun Kong

Subjects

Frequency response, Materials science, Hexagonal crystal system, business.industry, Tunable metamaterials, Physics::Classical Physics, Highly selective, Polarization (waves), Condensed Matter::Disordered Systems and Neural Networks, Band-pass filter, Optoelectronics, Multi-band device, Wideband, business

Abstract

A highly selective dual-band bandpass frequency-selective surface (FSS) is proposed by using coupled resonance, which consisted of 3-layer double hexagonal loops (DHLs). The FSS shows stable incident angles response with polarization insensitive.

Published

2018

8. Frequency and Absorptivity Reconfigurable Plasma Absorber

Author

Xiangkun Kong, Qiming Yu, Shaobin Liu, Yongdiao Wen, and Zhiming Liu

Subjects

010302 applied physics, Materials science, business.industry, 0103 physical sciences, Optoelectronics, Plasma, Molar absorptivity, 010306 general physics, Plasma column, Plasma oscillation, business, 01 natural sciences, Glass tube

Abstract

A frequency and absorptivity reconfigurable plasma absorber has been proposed, which consisted of 3-layer plasma column which is encircled by glass tube and metallic ground. The proposed absorber works in a particular polarized mode (TM mode). The results show that the absorber owns an excellent reconfigurable performance, no matter the operation frequency or the absorptivity can be refactored by the changed plasma frequency.

Published

2018