Integral imaging-based tabletop light field 3D display with large viewing angle

Light field 3D display technology is considered a revolutionary technology to address the critical visual fatigue issues in the existing 3D displays.Tabletop light field 3D display provides a brand-new display form that satisfies multi-user shared viewing and collaborative works,and it is poised to become a potential alternative to the traditional wall and portable display forms.However,a large radial viewing angle and correct radial perspective and parallax are still out of reach for most current tabletop light field 3D displays due to the limited amount of spatial information.To address the viewing angle and perspective issues,a novel integral imaging-based tabletop light field 3D display with a simple flat-panel structure is proposed and developed by applying a compound lens array,two spliced 8K liquid crystal display panels,and a light shaping diffuser screen.The compound lens array is designed to be composed of multiple three-piece compound lens units by employing a reverse design scheme,which greatly extends the radial viewing angle in the case of a limited amount of spatial information and balances other important 3D display parameters.The proposed display has a radial viewing angle of 68.7°in a large display size of 43.5 inches,which is larger than the conventional tabletop light field 3D displays.The radial perspective and parallax are correct,and high-resolution 3D images can be reproduced in large radial viewing positions.We envision that this proposed display opens up possibility for redefining the display forms of consumer electronics.

基于3D打印的负泊松比材料结构及其在医疗领域中的应用

首先对3D打印的整体框架进行简要的介绍,其中包括了增材制造制程的基本原理,七大制程的分类及小结。其次对常见的负泊松比结构进行简介,与一般传统结构相比,负泊松比结构的能量吸收能力更强,抗断裂性能更好,耐压痕性能更好,这些都是其在打印制造方面所具有的优势。最后对3D打印,负泊松比结构的应用以及两者的结合应用,从医疗领域的不同角度进行介绍,包括心血管支架的应用、生物医用材料结构制备应用研究、腰椎间盘植入物应用等。该文对3D打印负泊松比的结构设计思路,对医疗领域的新应用方向有指导作用。负泊松比材料的应用领域非常广泛,不仅可用于医疗领域,也可用于机械设备、汽车制造与航空航天等高科技领域。

3D打印混凝土技术概述

3D打印混凝土技术是一种新兴技术,可以以高效、精准和可持续的方式生产建筑结构。该技术已经在许多领域得到应用,包括建筑、基础设施和土木工程等领域。文章将从3D打印混凝土技术的基本流程、相关技术与其优缺点、应用领域和未来展望进行论述。

3D场景渲染技术——神经辐射场的研究

神经辐射场(NeRF)是一种面向三维隐式空间建模的深度学习模型,在表示和渲染三维场景领域具有重要价值。然而由于神经辐射场算法训练过程复杂、需要大量的计算资源和时间等,其可用性和实用性受到一定限制,如何针对神经辐射场的痛点问题进行优化是当前计算机视觉等领域研究的热点之一。此研究旨在对神经辐射场的优化和应用进行全面综述。首先,在深入解析神经辐射场基本原理的基础上,从渲染质量、计算复杂度、位姿等方面对现阶段神经辐射场的优化情况进行概述;其次,列举神经辐射场应用状况,为未来更高效和实用的算法优化设计提供参考;最后,总结神经辐射场的优势与局限性,并提出未来可能的发展方向,以期发挥神经辐射场在三维渲染、场景合成等方面的巨大潜力。

磁控触变流体的3D打印工艺研究

针对现有磁控智能流体无法应用于3D打印的问题,本文制备了一种在磁场调控下能够实现溶胶-凝胶可逆转变的新型磁控触变流体,并对其打印工艺进行了研究。采用全系统损耗润滑油、有机膨润土和Fe_(3)O_(4)颗粒制备了不同配比的打印样品,搭建了直写式3D打印实验平台,研究其可打印性。流变学实验表明:磁控触变流体有机膨润土含量越高,触变性越强,剪切变稀越明显;磁场强度越强,屈服应力越高,储存模量越高。3种挤出方式下的打印实验结果表明,采用匀料恢复挤出方式打印的结构具备最高分辨率和最大高度。磁控触变流体在根据其流变特性设计的挤出装置下具有良好可打印性,为该材料应用于柔性传感、软体机器人个性化复杂结构设计与驱动、微流控检测等领域奠定了基础。

特征融合下田径录像3D人体动作DTW捕捉算法

由于不同运动员的动作风格和速度不同,导致田径录像中记录的不同运动员的人体动作序列在时间长度上存在差异,从而产生不同长度序列之间的不对齐问题。为此,提出特征融合下田径录像三维(3D)人体动作动态时间规整(DTW)捕捉算法。将田径录像中提取的人体动作数据转换为3D坐标序列,表示人体各部位的位置和动作,获取人体动作的深度图序列,利用梯度局部各向异性系数(GLAC)和稀疏时间梯度自相关(STACOG)分析深度图局部区域的梯度特性以及时间自相关性。利用Canny算子提取每帧深度图的边缘轮廓,结合小波变换和k-means聚类分析人体轮廓的动态变化特征。通过Kinect设备获取人体骨骼点的3D坐标信息,采用主成分分析(PCA)方法将3D空间坐标、关节角度等多个特征融合到一个特征空间中,通过补帧和删帧操作进行预处理,选择最重要的主成分构建新的低维特征空间。利用DTW计算视频序列的相似性,从而捕捉田径录像中不同长度序列的3D人体动作。实验结果表明,该算法捕捉田径录像3D人体动作的准确程度高达99.07%,面对复杂程度较高的动作时,该算法捕捉到的人体动作与实际动作的相似度始终保持在97%以上。此外,所提算法提取到的人体动作轮廓特征线条流畅、连续,且与实际动作高度一致。

基于NeRF的3D场景动画风格迁移及其技术美学价值研究

针对传统3D动画场景建模技术存在操作困难,相关行业对3D模型需求量大、计算机硬件要求较高等诸多问题,本文提出一种改进的神经辐射场(NeRF)技术,通过对拍摄影像进行3D重构,进而完成动画风格迁移,借此形成独特3D动画场景艺术效果的解决方案。作为一种新颖的3D重建方法,NeRF受到计算机图像合成领域广泛关注。本文将NeRF引入3D场景动画制作中,在验证本方案可行性与科学性的同时,也为3D动画场景创建提供新思路,充实技术美学价值。

基于电场驱动喷射微3D打印的曲面透明电加热玻璃技术

为了解决高性能曲面透明电加热玻璃制造工艺复杂和制备成本高的问题,提出了一种基于电场驱动喷射微3D打印制造曲面透明电加热玻璃的新方法,并阐述了该工艺流程;通过实验揭示了主要打印参数对制造曲面透明电加热玻璃银线线宽的影响规律;使用优化的打印参数在曲面透明玻璃上制备了有效加热面积为35 mm×40 mm,线宽为90μm,周期为3000μm,附着力为4B,透光率为90%,电阻为1.6Ω,银线为金属网栅结构的曲面透明电加热玻璃。实验结果表明,该打印方法工艺简单,利用该方法制造的曲面透明电加热玻璃具有附着力好、透光率高和加热性能良好等优点,为实现低成本、高性能的曲面透明电加热玻璃的工业化制造提供了一种全新的解决方案。

融入3D打印技术的工业设计制造研究

分析了3D打印技术在工业设计制造中的优势与局限性,并提出改进措施。通过3D打印技术,设计师可以更加自由地发挥想象力,实现更加创新的设计理念,提高产品性能和质量。同时,3D打印技术还可以实现快速生产、降低生产成本、减少废料和减少模具制作成本等优势,为企业带来更多的商业机会和竞争优势。

Present-day 3D deformation field of Northeast China,observed by GPS and leveling

A broad view of present-day 3D deformation field around the Northeast China region was derived from GPS and leveling observations. We draw the following conclusions： First, the Northeast China region moved towards northwest with an average velocity of 5 ram/a, with respect to South China. The entire Northeast China region was in a low strain state from the strain rate field. Second, we processed two periods of first- order leveling data in 1970s and 1990s, showing the vertical deformation of the Northeast China region is ＂uplift in western part and subsidence in eastern part＇

基于光斑投影3D-DIC的动态液面波高场测量方法研究

动态液面波高场测量与面型三维重建是流体力学、晃荡动力学等研究领域中的重要问题,但目前仍缺乏一种简易且高效的高精度全场测量手段.基于光斑投影和三维数字图像相关(3D digital image correlation,3DDIC)原理,提出了一种动态液面波高场的测量方法.通过液体染色和光斑投影,在液体表面形成光斑纹理,设置双目相机拍摄动态液面的散斑图像.运用交比不变性标定板及张正友标定法获得双目相机内外参矩阵,并基于反向组合高斯牛顿(inverse-compositional Guass-Newton,IC-GN)的3D-DIC算法实现动态液面波高场的高精度三维重构.进一步建立光斑投影的几何光学模型,模拟规则波液面的双目图像,开展数值模拟测量以验证本方法的理论精度,同时开展真实液面波高场的测量验证.结果表明,本方法可实现动态液面波高场的高精度全场测量,模拟液面测量的均方差为0.004 mm,真实静态液面抬升测量的均方差为0.022 mm,真实动态液面测量的均方差小于0.037 mm.本文方法具有高精度、非接触和全场测量等优势,可在实验室流体测量和相关工程场景中推广应用.

融合3D对极平面图像的光场角度超分辨重建

针对光场成像中因硬件限制而造成的光场图像角度分辨率低的问题,提出一种融合3D对极平面图像的光场角度超分辨重建方法。该方法首先将输入图像按不同的视差方向排列分别进行特征提取,以充分利用输入图像的视差信息,提高深度估计的准确性。利用深度图将输入图像映射到新视角位置,生成初始合成光场。为了使重建光场图像能够保持更好的细节信息及几何一致性,先通过水平3D对极平面图像融合重建分支和垂直3D对极平面图像融合重建分支,分别对初始合成光场进行水平融合重建和垂直融合重建,再将两个结果进行混合重建,生成最终的高角度分辨率光场图像。实验结果表明:相比于现有方法,本文方法在合成光场数据集和真实光场数据集上的重建效果均得到了提高,峰值信噪比的提升幅度最高达1.99%,有效地提高了重建光场的质量。

小视场下基于可移动3D-DIC的全场应变测量方法

由于试件工作环境空间有限,全场应变分析面临着相机光轴和试件表面不垂直和不同区域图像拼接获得的全景图像中存在拼接缝的问题。基于此,提出了基于可移动三维数字图像相关法(3D-digital image correlation,3D-DIC)全场应变测量方法,用于高分辨率形变和应变测量。该方法将双目相机安装在稳定的滑动台结构上,通过控制相机采集叶片不同位置图像,重建试件表面完整图像。提出基于散斑点匹配融合算法,将不同区域图像拼接为叶片全景图像。静态误差分析试验和均匀应变场分析试验被设计验证该方法的有效性。试验结果表明,该方法的横向和轴向应变误差分别为0.98%和1.03%,表明应变分析中具有较高的精度。该方法有效地实现了小视场环境下样本的全场应变测量。

New Method for 3D Transient Eddy Current Field Calculation and Its Application in Magneto-Acoustic Tomography

A new method of 3D transient eddy current field calculation is proposed. The Maxwell equations with time component elimination （METCE） are derived under the assumption of magnetic quasi static approximation, especially for the sample of low conductivity. Based on METCE, we deduce a more efficient reconstruction algorithm of a 3D transient eddy current field. The computational burden is greatly reduced through the new algorithm, and the computational efficiency is improved. This new algorithm decompounds the space-time variables into two individual variables. The idea is to solve the spatial vector component firstly, and then multiply it by the corresponded time component. The iterative methods based on METCE are introduced to recover the distribution of conductivity in magneto-acoustic tomography. The reconstructed images of conductivity are consistent with the original distribution, which validate the new method.

3D-DIC技术在SHPB实验教学中的应用与实践

为了优化传统分离式霍普金森压杆(SHPB)实验教学内容,帮助学生理解实验原理和变形概念,将三维数字图像(3D-DIC)相关技术引入到SHPB实验教学中。分析了SHPB实验原理和3D-DIC基本原理,介绍并演示了基于3D-DIC技术的SHPB实验流程,并以混凝土动态压缩实验为例,指导学生进行散斑场布置、动态实验和数据处理分析等。结合3D-DIC技术的动态压缩实验,获得了试样在动态荷载作用下的破坏过程,揭示了试样中裂纹的扩展及应变场的变化规律,弥补了应变片单点测量的不足,激发了学生的学习兴趣和主观能动性,加深了学生对动态力学中变形和破坏机理的理解,取得了较好的教学效果。

基于3D U-Net和DTI模型约束的扩散张量场估计方法

目的为从少量的低信噪比扩散加权(DW)图像中估计得到准确的扩散张量成像(DTI)量化参数,本文提出一种基于3D U-Net和DTI模型约束的扩散张量场估计网络(3D DTI-Unet)。方法3D DTI-Unet的输入为有噪声的扩散磁共振成像(dMRI)数据(包含1幅非扩散加权图像与6幅不同扩散编码方向的DW图像),通过3D U-Net网络预测得到降噪后的非扩散加权图像以及准确的扩散张量场,并通过DTI模型重建得到dMRI数据,将其与dMRI数据的真实值进行比较来优化网络,从而保证dMRI数据与扩散张量场的物理模型一致性。为验证所提方法的有效性,与Marchenko-Pastur主成分分析(MP-PCA)和基于全局指导下的局部高阶奇异值分解(GL-HOSVD)这两种扩散加权图像去噪算法进行实验对比。结果从DW图像、扩散张量场以及DTI量化参数的定量分析结果以及视觉效果来看,所提方法均优于MP-PCA与GL-HOSVD。结论本文所提方法能够从1幅非扩散加权图像和6幅DW图像得到准确的DTI量化参数,可减少临床采集时间,提高临床量化诊断的可靠性。

Quasi-3D Numerical Simulation of Tidal Hydrodynamic Field

Based on the 2D horizontal plane numerical model, a quasi-3D numerical model is established for coastal regions of shallow water. The characteristics of this model are that the velocity profiles;can be obtained at the same time when the equations of the value of difference between the horizontal current velocity and its depth-averaged velocity in the vertical direction are solved and the results obtained are consistent with the results of the 2D, model. The circulating flow in the rectangular area induced by wind is simulated and applied to the tidal flow field of the radial sandbanks in the South Yellow Sea. The computational results from this quasi-3D model are in good agreement with analytical results and observed data. The solution of the finite difference equations has been found to be stable, and the model is simple, effective and practical.

Near-field 3D imaging approach combining MJSR and FGG-NUFFT

A near-field three-dimensional(3 D)imaging method combining multichannel joint sparse recovery(MJSR)and fast Gaussian gridding nonuniform fast Fourier transform(FGGNUFFT)is proposed,based on a perfect combination of the compressed sensing(CS)theory and the matched filtering(MF)technique.The approach has the advantages of high precision and high efficiency:multichannel joint sparse constraint is adopted to improve the problem that the images recovered by the single channel imaging algorithms do not necessarily share the same positions of the scattering centers;the CS dictionary is constructed by combining MF and FGG-NUFFT,so as to improve the imaging efficiency and memory requirement.Firstly,a near-field 3 D imaging model of joint sparse recovery is constructed by combining the MF-based imaging method.Secondly,FGG-NUFFT and reverse FGG-NUFFT are used to replace the interpolation and Fourier transform in MF-based imaging methods,and a sensing matrix with high precision and high efficiency is constructed according to the traditional imaging process.Thirdly,a fast imaging recovery is performed by using the improved separable surrogate functionals(SSF)optimization algorithm,only with matrix and vector multiplication.Finally,a 3 D imagery of the near-field target is obtained by using both the horizontal and the pitching interferometric phase information.This paper contains two imaging models,the only difference is the sub-aperture method used in inverse synthetic aperture radar(ISAR)imaging.Compared to traditional CS-based imaging methods,the proposed method includes both forward transform and inverse transform in each iteration,which improves the quality of reconstruction.The experimental results show that,the proposed method improves the imaging accuracy by about O(10),accelerates the imaging speed by five times and reduces the memory usage by about O(10~2).

基于3D-DIC系统的白砂岩单轴压缩应变率效应的力学性能试验研究

通过选取典型岩样,研究了白砂岩在10^(-5)~10^(-3)s^(-1)应变率范围内的单轴压缩性能,采用3D-DIC系统观测和采集岩样表面位移云图,并分析不同应变率下岩样变形破坏特征差异。结果表明,岩样表面位移场变化反映了破坏面演化规律,剪切破坏面与位移场集中存在对应关系。全局轴向应变差异主要发生在微裂隙压密到弹性变形期间;加载初期,全局径向应变存在差异,在峰值强度时下端部区域径向位移最大,岩样上端部变形受到端部效应影响,径向向外膨胀受端面与垫片间摩擦限制;此外,下端部局部轴向应变大于上端部区域。随着加载速率增大,岩样从延性特征向脆性特征转变。加载速率较低时,岩样破坏过程中孔隙坍塌使得部分裂隙再次闭合、滑移而产生摩擦效应,从而使峰值强度附近的应力-应变曲线出现波动。白砂岩峰值强度、弹性模量、泊松比等力学参数随加载速率增大而增加。

Case History of 3D Seismic Survey in Aershan Oil Field

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