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37 results on '"Yang, Xinge"'

1. End-to-End Hybrid Refractive-Diffractive Lens Design with Differentiable Ray-Wave Model

Author

Yang, Xinge, Souza, Matheus, Wang, Kunyi, Chakravarthula, Praneeth, Fu, Qiang, and Heidrich, Wolfgang

Subjects
Computer Science - Graphics, Computer Science - Computer Vision and Pattern Recognition, Physics - Optics
Abstract

Hybrid refractive-diffractive lenses combine the light efficiency of refractive lenses with the information encoding power of diffractive optical elements (DOE), showing great potential as the next generation of imaging systems. However, accurately simulating such hybrid designs is generally difficult, and in particular, there are no existing differentiable image formation models for hybrid lenses with sufficient accuracy. In this work, we propose a new hybrid ray-tracing and wave-propagation (ray-wave) model for accurate simulation of both optical aberrations and diffractive phase modulation, where the DOE is placed between the last refractive surface and the image sensor, i.e. away from the Fourier plane that is often used as a DOE position. The proposed ray-wave model is fully differentiable, enabling gradient back-propagation for end-to-end co-design of refractive-diffractive lens optimization and the image reconstruction network. We validate the accuracy of the proposed model by comparing the simulated point spread functions (PSFs) with theoretical results, as well as simulation experiments that show our model to be more accurate than solutions implemented in commercial software packages like Zemax. We demonstrate the effectiveness of the proposed model through real-world experiments and show significant improvements in both aberration correction and extended depth-of-field (EDoF) imaging. We believe the proposed model will motivate further investigation into a wide range of applications in computational imaging, computational photography, and advanced optical design. Code will be released upon publication.

Published
2024

7. Image Quality Is Not All You Want: Task-Driven Lens Design for Image Classification

Author

Yang, Xinge, Fu, Qiang, Nie, Yunfeng, and Heidrich, Wolfgang

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Graphics, Physics - Optics
Abstract

In computer vision, it has long been taken for granted that high-quality images obtained through well-designed camera lenses would lead to superior results. However, we find that this common perception is not a "one-size-fits-all" solution for diverse computer vision tasks. We demonstrate that task-driven and deep-learned simple optics can actually deliver better visual task performance. The Task-Driven lens design approach, which relies solely on a well-trained network model for supervision, is proven to be capable of designing lenses from scratch. Experimental results demonstrate the designed image classification lens (``TaskLens'') exhibits higher accuracy compared to conventional imaging-driven lenses, even with fewer lens elements. Furthermore, we show that our TaskLens is compatible with various network models while maintaining enhanced classification accuracy. We propose that TaskLens holds significant potential, particularly when physical dimensions and cost are severely constrained., Comment: Use an image classification network to supervise the lens design from scratch. The final designs can achieve higher accuracy with fewer optical elements

Published
2023

8. Aberration-Aware Depth-from-Focus

Author

Yang, Xinge, Fu, Qiang, Elhoseiny, Mohammed, and Heidrich, Wolfgang

Subjects
Computer Science - Computer Vision and Pattern Recognition, Electrical Engineering and Systems Science - Image and Video Processing, Physics - Optics
Abstract

Computer vision methods for depth estimation usually use simple camera models with idealized optics. For modern machine learning approaches, this creates an issue when attempting to train deep networks with simulated data, especially for focus-sensitive tasks like Depth-from-Focus. In this work, we investigate the domain gap caused by off-axis aberrations that will affect the decision of the best-focused frame in a focal stack. We then explore bridging this domain gap through aberration-aware training (AAT). Our approach involves a lightweight network that models lens aberrations at different positions and focus distances, which is then integrated into the conventional network training pipeline. We evaluate the generality of pretrained models on both synthetic and real-world data. Our experimental results demonstrate that the proposed AAT scheme can improve depth estimation accuracy without fine-tuning the model or modifying the network architecture., Comment: [ICCP & TPAMI 2023] Considering optical aberrations during network training can improve the generalizability

Published
2023

9. Curriculum Learning for ab initio Deep Learned Refractive Optics

Author

Yang, Xinge, Fu, Qiang, and Heidrich, Wolfgang

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning, Electrical Engineering and Systems Science - Image and Video Processing, Physics - Optics
Abstract

Deep optical optimization has recently emerged as a new paradigm for designing computational imaging systems using only the output image as the objective. However, it has been limited to either simple optical systems consisting of a single element such as a diffractive optical element (DOE) or metalens, or the fine-tuning of compound lenses from good initial designs. Here we present a DeepLens design method based on curriculum learning, which is able to learn optical designs of compound lenses ab initio from randomly initialized surfaces without human intervention, therefore overcoming the need for a good initial design. We demonstrate the effectiveness of our approach by fully automatically designing both classical imaging lenses and a large field-of-view extended depth-of-field computational lens in a cellphone-style form factor, with highly aspheric surfaces and a short back focal length., Comment: Automatically design computational lenses from scratch with differentiable ray tracing

Published
2023
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15. Coherent Manipulation with Resonant Excitation and Single Emitter Creation of Nitrogen Vacancy Centers in 4H Silicon Carbide

Author

Mu, Zhao, Zargaleh, S. A., von Bardeleben, H. J., Fröch, Johannes E., Cai, Hongbing, Yang, Xinge, Yang, Jianqun, Li, Xingji, Aharonovich, Igor, and Gao, Weibo

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Quantum Physics
Abstract

Silicon carbide (SiC) has become a key player in realization of scalable quantum technologies due to its ability to host optically addressable spin qubits and wafer-size samples. Here, we have demonstrated optically detected magnetic resonance (ODMR) with resonant excitation, and clearly identified the ground state energy levels of the NV centers in 4H-SiC. Coherent manipulation of NV centers in SiC has been achieved with Rabi and Ramsey oscillations. Finally, we show the successful generation and characterization of single nitrogen vacancy (NV) center in SiC employing ion implantation. Our results are highlighting the key role of NV centers in SiC as a potential candidate for quantum information processing.

Published
2020
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16. An Improved Two‐Step Method for Inverse Eigenvalue Problems.

Author

Yang, Xinge, Shen, Weiping, Guo, Rui, and Lou, Enping

Subjects
*INVERSE problems, *MOTIVATION (Psychology)
Abstract

ABSTRACT In this article, we investigate the numerical solutions of the inverse eigenvalue problem (IEP). Motivated by the techniques of Aishima in 2018, we propose here an improved two‐step method for the IEP. Compared with other existing methods, the proposed method has higher convergence order and/or requires less operations. Under the assumption that the relative generalized Jacobian matrices at a solution are nonsingular, the proposed method is proved to be convergent with cubic root‐convergence rate. Numerical examples demonstrate the effectiveness of the improved method. [ABSTRACT FROM AUTHOR]

Published
2024
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17. Integrating Rooftop Agriculture and Atmospheric Water Harvesting for Water‐Food Production Based on Hygroscopic Manganese Complex.

Author

Shan, He, Poredoš, Primož, Qu, Hao, Yang, Xinge, Zhou, Mengjuan, Bai, Lulu, Shi, Jiadong, Chen, Wenshuai, Wang, Ruzhu, and Tan, Swee Ching

Subjects
MUNICIPAL water supply, AGRICULTURAL development, WATER harvesting, SUSTAINABLE agriculture, AGRICULTURAL water supply, URBAN agriculture
Abstract

The integration of atmospheric water harvesting and rooftop agriculture presents a promising solution for decentralized water and food supply in urban areas. However, the degradation of adsorption material kinetics after scaling up, coupled with fluctuations in solar energy, results in reduced and unstable water production. Herein, a composite adsorbent composed of manganese (II)‐ethanolamine complexes incorporated into a hierarchical and interconnect polypyrrole‐doped matrix is developed. This structure significantly reduces vapor diffusion resistance—a crucial factor impeding rapid scale‐up kinetics, enabling water uptake of 2.54 g g−1 at 90% RH, with 62% of water released within 30 min, facilitating daily multiple capture‐release cycles. Incorporating a hybrid desorption mode that combines PV electrical and solar heating further achieves stable and high‐yield water production. Ultimately, through simulation and feasibility verification, the atmospheric water‐irrigated rooftop farm realizes water and food production yield of 879.9 gwater m−2sorbent day−1 and 1.28 kgfood m−2device within 14 days without human intervention and independent of external water inputs. These findings highlight the potential of integrating AWH technology with rooftop farming as a pathway to sustainable urban development through decentralized water and food co‐production. [ABSTRACT FROM AUTHOR]

Published
2024
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24. Automatic Lens Design based on Differentiable Ray-tracing

Author

Yang, Xinge

Subjects
ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, ComputingMethodologies_COMPUTERGRAPHICS
Abstract

The lens design is a fundamental but challenging problem, while modern lens design processes still follow the classic aberration optimization theory and need preliminary designs and experienced optical engineers to control the optimization process constantly. In this thesis, we develop a differentiable ray-tracing model and apply it to automatic lens design. Our method can do ray-tracing and render images with high accuracy, with the power to use the back-propagated gradient to optimize optical parameters. Different from traditional optical design, we propose to use the rendered images as the training criteria. The rendering loss shows superior results in optimizing lenses while also making the task easier. To remove the requirements of preliminary design and constant operations in conventional lens design, we propose a curriculum learning method that starts from a small aperture and field-of-view(FoV), gradually increases the design difficulty, and dynamically adjusts attention regions of rendered images. The proposed curriculum strategies empower us to optimize complex lenses from flat surfaces automatically. Given an existing lens design and setting all surfaces flat, our method can entirely recover the original design. Even with only design targets, our method can automatically generate starting points with flat surfaces and optimize to get a design with superior optical performance. The proposed method is applied to both spheric and aspheric lenses, both camera and cellphone lenses, showing a robust ability to optimize different types of lenses. In addition, we overcome the memory problem in differentiable rendering by splitting the differentiable rendering model into two sub-processes, which allows us to work with megapixel sensors and downstream imaging processing algorithms.

Published
2022
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28. Coherent Manipulation with Resonant Excitation and Single Emitter Creation of Nitrogen Vacancy Centers in 4H Silicon Carbide

Author

Mu, Zhao, primary, Zargaleh, Soroush Abbasi, additional, von Bardeleben, Hans Jürgen, additional, Fröch, Johannes E., additional, Nonahal, Milad, additional, Cai, Hongbing, additional, Yang, Xinge, additional, Yang, Jianqun, additional, Li, Xingji, additional, Aharonovich, Igor, additional, and Gao, Weibo, additional

Published
2020
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33. A Lightweight Wireless Overpressure Node Based Efficient Monitoring for Shock Waves.

Author

Gao, Shang, Tian, Guiyun, Dai, Xuewu, Zhang, Qing, Wang, Zhiling, Yang, Xinge, Wang, Qiaomu, and Jia, Naishu

Abstract

Overpressure measurement is an important approach to evaluate the power of shock wave (SW) monitoring. Traditional wired monitoring systems exhibit the limitations of high-cost, heavyweight, troublesome maintenance, and big-data transmission in SW monitoring. In this article, a new lightweight FPGA-based wireless overpressure node (LFWON) with the resistance to high-temperature and high-pressure environment for SW monitoring. The proposed LFWON is based on the Spartan-6 XC6SLX9-2TQG144C FPGA circuit, via a serial peripheral interface to the RF transceiver and data bus to the NAND flash chip for data management. To validate the LFWON, experimental tests in terms of dynamic parameters and network quality are performed in a real blast testing with 8-kg trinitrotoluene. This article is conducted to provide new insights into how the antishocking structure and sensing algorithm of wireless sensor node is designed in SW monitoring for acquiring overpressure accurately. The results show that the errors of $\Delta P$ (7  ${\text{m}}$ −12  ${\text{m}}$), ${t_d}$ (>6  ${\text{m}}$), and ${I^ + }$ (3  ${\text{m}}$ −24  ${\text{m}}$) from proposed LFWON are below 20% in comparison with wired system. In addition, the RSSI value of LFWON should be set above −70  ${\text{dBm}}$ for stable communication quality. [ABSTRACT FROM AUTHOR]

Published
2021
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37. HfS 2 /MoTe 2 vdW heterostructure: bandstructure and strain engineering based on first-principles calculation.

Author

Yang X, Qin X, Luo J, Abbas N, Tang J, Li Y, and Gu K

Abstract

In this study, a multilayered van der Waals (vdW) heterostructure, HfS 2 /MoTe 2 , was modeled and simulated using density functional theory (DFT). It was found that the multilayers (up to 7 layers) are typical indirect bandgap semiconductors with an indirect band gap varying from 0.35 eV to 0.51 eV. The maximum energy value of the valence band (VBM) and the minimum energy value of the conduction band (CBM) of the heterostructure were found to be dominated by the MoTe 2 layer and the HfS 2 layer, respectively, characterized as type-II band alignment, leading to potential photovoltaic applications. Optical spectra analysis also revealed that the materials have strong absorption coefficients in the visible and ultraviolet regions, which can be used in the detection of visible and ultraviolet light. Under an external strain perpendicular to the layer plane, the heterostructure exhibits a general transition from semiconductor to metal at a critical interlayer-distance of 2.54 Å. The carrier effective mass and optical properties of the heterostructures can also be modulated under external strain, indicating a good piezoelectric effect in the heterostructure., Competing Interests: There are no conflicts to declare., (This journal is © The Royal Society of Chemistry.)

Published
2020
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