Phase Error Compensation of Three-Dimensional Reconstruction Combined with Hilbert Transform

Nonlinear response is an important factor affecting the accuracy of three-dimensional image measurement based on the fringe structured light method.A phase compensation algorithm combined with a Hilbert transform is proposed to reduce the phase error caused by the nonlinear response of a digital projector in the three-dimensional measurement system of fringe structured light.According to the analysis of the influence of Gamma distortion on the phase calculation,the algorithm establishes the relationship model between phase error and harmonic coefficient,introduces phase shift to the signal,and keeps the signal amplitude constant while filtering out the DC component.The phase error is converted to the transform domain,and compared with the numeric value in the space domain.The algorithm is combined with a spiral phase function to optimize the Hilbert transform,so as to eliminate external noise,enhance the image quality,and get an accurate phase value.Experimental results show that the proposed method can effectively improve the accuracy and speed of phase measurement.By performing phase error compensation for free-form surface objects,the phase error is reduced by about 26%,and about 27%of the image reconstruction time is saved,which further demonstrates the feasibility and effectiveness of the method.

Three-dimensional tidal current numerical model of the Oujiang Estuary

The characteristics of three-dimensional （3-D） tidal current in the Oujiang Estuary are investigated according to in situ observations. The Oujiang Estuary has features of irregular coastline, complex topography, many islands, moveable boundary, and submerged dyke, therefore, σ 3-D numerical model oil an unstructured triangular grid has been degeloped. The σ coordinate transforination, the moveable boundary and submerged dyke treatment techniques were employed in the model so it is suitable for the tidal simulations in the Oujing Estuary with submerged dyke and moveable boundary problems. The model is evaluated with the in situ data, and the results show that the calculated water elevations at 19 stations and currents at 19 profiler stations are in good agreement with measured data both in magnitude and phase. This numerical model is applied to the 3-D tidal circulation simulations of experiments in stopping flow transport through the South Branch of the Oujiang Estuary, and the feasibility to cutoff the flow in the South Branch of the Oujiang Estuary is demonstrated by numerical simulation experiments. The developed numerical model simulated the 3-D tidal current circulations in complicated coastal and estuarine waters very well.

Numerical Solutions of Three-Dimensional Coupled Burgers’ Equations by Using Some Numerical Methods

In this paper, we found the numerical solution of three-dimensional coupled Burgers’ Equations by using more efficient methods: Laplace Adomian decomposition method, Laplace transform homotopy perturbation method, variational iteration method, variational iteration decomposition method and variational iteration homotopy perturbation method. Example is examined to validate the efficiency and accuracy of these methods and they reduce the size of computation without the restrictive assumption to handle nonlinear terms and it gives the solutions rapidly.

Special Relativity in Three-Dimensional Space-Time Frames

In Newton’s classical physics, space and time are treated as absolute quantities. Space and time are treated as independent quantities and can be discussed sepa-rately. With his theory of relativity, Einstein proved that space and time are de-pendent and must be treated inseparably. Minkowski adopted a four-dimensional space-time frame and indirectly revealed the dependency of space and time by adding a constraint for an event interval. Since space and time are inseparable, a three-dimensional space-time frame can be constructed by embedding time into space to directly show the interdependency of space and time. The formula for time dilation, length contraction, and the Lorenz transformation can be derived from graphs utilizing this new frame. The proposed three-dimensional space-time frame is an alternate frame that can be used to describe motions of objects, and it may improve teaching and learning Special Relativity and provide additional insights into space and time.

3D simultaneous seismic data reconstruction and noise suppression based on the curvelet transform

Seismic data contain random noise interference and are affected by irregular subsampling. Presently, most of the data reconstruction methods are carried out separately from noise suppression. Moreover, most data reconstruction methods are not ideal for noisy data. In this paper, we choose the multiscale and multidirectional 2D curvelet transform to perform simultaneous data reconstruction and noise suppression of 3D seismic data. We introduce the POCS algorithm, the exponentially decreasing square root threshold, and soft threshold operator to interpolate the data at each time slice. A weighing strategy was introduced to reduce the reconstructed data noise. A 3D simultaneous data reconstruction and noise suppression method based on the curvelet transform was proposed. When compared with data reconstruction followed by denoizing and the Fourier transform, the proposed method is more robust and effective. The proposed method has important implications for data acquisition in complex areas and reconstructing missing traces.

A Study on the Translation of Love in a Fallen City from the Perspective of Three Dimensional Transformation of Eco-Translatology

Love in a Fallen City is one of Eileen Chang’s representative works and translated by Karen Kingsbury.The ecological environment of translation restricts and influences the translator’s choice of translation strategies,methods and techniques in the process of translation.According to the eco-translatology,translation is a transformation from language dimension,culture dimension and communication dimension.This article analyzes the three-dimensional transformation between the source language and the target language in the English version of Love in a Fallen City,and holds that a good translation must be the translator’s effective adaptation to the ecological environment including the source language,the source culture and the target culture.

Generic and flexible self-correction method for nonlinearity-induced phase error in three-dimensional imaging

In three-dimensional imaging employing phase-shifting profilometry(PSP), the nonlinear response of projector and camera makes the fringe gray distribution non-sinusoidal, which further leads to phase error. Although the double 3-step phaseshifting method is simple and effective, it needs to add an additional set of fringe sequences, which reduces the measurement efficiency. To this end, this paper introduces a generic and flexible self-correction method for nonlinearity-induced phase error.First, according to the nonlinearity-induced phase error model, we introduce an additional wrapped phase with a phase difference of π/3. The error waveform of the two wrapped phases is opposite but not coincident. Then, we introduce an estimation algorithm for the additional wrapped phase offset. Finally, we fuse the two wrapped phases to correct the phase error. Experiments confirm that the root mean squared error of the proposed method is 64.1% lower than that of the traditional method and 13.3% lower than that of the Hilbert transform method. The proposed method does not require any additional fringes or hardware assistance and can be easily extended to 4-step or 5-step PSP.

Three-dimensional beam propagation method based on the variable transformed Galerkin's method

A novel three-dimensional beam propagation method (BPM) based on the variable transformed Galerkin's method is introduced for simulating optical field propagation in three-dimensional dielectric structures. The infinite Cartesian x-y plane is mapped into a unit square by a tangent-type function transformation. Consequently, the infinite region problem is converted into the finite region problem. Thus, the boundary truncation is eliminated and the calculation accuracy is promoted. The three-dimensional BPM basic equation is reduced to a set of first-order ordinary differential equations through sinusoidal basis function, which fits arbitrary cladding optical waveguide, then direct solution of the resulting equations by means of the Runge-Kutta method. In addition, the calculation is efficient due to the small matrix derived from the present technique. Both z-invariant and z-variant examples are considered to test both the accuracy and utility of this approach.

Multispectral image compression and encryption method based on tensor decomposition in wavelet domain

Multispectral image compression and encryption algorithms commonly suffer from issues such as low compression efficiency,lack of synchronization between the compression and encryption proces-ses,and degradation of intrinsic image structure.A novel approach is proposed to address these is-sues.Firstly,a chaotic sequence is generated using the Lorenz three-dimensional chaotic mapping to initiate the encryption process,which is XORed with each spectral band of the multispectral image to complete the initial encryption of the image.Then,a two-dimensional lifting 9/7 wavelet transform is applied to the processed image.Next,a key-sensitive Arnold scrambling technique is employed on the resulting low-frequency image.It effectively eliminates spatial redundancy in the multispectral image while enhancing the encryption process.To optimize the compression and encryption processes further,fast Tucker decomposition is applied to the wavelet sub-band tensor.It effectively removes both spectral redundancy and residual spatial redundancy in the multispectral image.Finally,the core tensor and pattern matrix obtained from the decomposition are subjected to entropy encoding,and real-time chaotic encryption is implemented during the encoding process,effectively integrating compression and encryption.The results show that the proposed algorithm is suitable for occasions with high requirements for compression and encryption,and it provides valuable insights for the de-velopment of compression and encryption in multispectral field.

A Study of English Translation Strategies of Subtitles of the Domestic Animated Film Chang’an from the Perspective of Eco-translatology

This article conducts an analysis and exploration of the English subtitles translation of the domestic animated film Chang’an from the perspective of eco-translatology.Taking three-dimensional transformation as the entry point,it analyzes the adaptation and selection of subtitle translators in the translation process from the dimensions of language,culture,and communication in Chang’an,aiming to enrich the practical analysis of eco-translatology and provide valuable insights and references for the theoretical construction and practical application of eco-translatology.This article enriches the practical analysis of eco-translatology and also validates to a certain extent the applicability of“three-dimensional”transformation.

混沌流微混合器的性能优化

为提高低雷诺数层流条件下被动式微混合器的效率,依据"三维马蹄变换"数学模型,对流体进行"挤压拉伸""弯曲折叠""二次折叠"和"逆变换-交集"操作,得到了一款包含6个混合单元,总长度为15 mm的混沌流微混合器。仿真研究表明:在"低流速-扩散主导"阶段u=2×10^(-4)m/s时,t=300 s后混合器进入稳定混合状态,出口处的混合指数α_(Outlet)=97.82%;在"中流速-湍流发展"阶段u=5×10^(-3)m/s时,t=70 s后进入稳定混合状态,经3个混合单元后混合指数α_(Inlet4)=98.89%;在"高流速-湍流主导"阶段u=8×10^(-2)m/s时,t=22 s后进入稳定混合状态,经2个混合单元后混合指数α_(Inlet3)=99.35%。采用基于面投影微立体光刻的3D打印技术整体制备了混合器芯片,借助显微镜用可视化方法对不同进样流速下的混合器性能进行了验证,示踪剂颜色变化实验结果与表面浓度云图的仿真结果一致。

依据马蹄变换的混沌流微混合器

为了实现微流控芯片对痕量试样的快速、均匀混合,依据"马蹄变换"数学模型,对流体进行"挤压拉伸"、"弯曲折叠"和"逆变换-交集"操作.基于此借助符号动力学系统计算出了"马蹄变换"后的李雅普诺夫指数,从理论上证明了,当满足"挤压"幅度0<λ<1/2且"拉伸"幅度μ>2时,上述操作能够在低雷诺数的层流条件下,成功诱发混沌流.在此基础上,设计并制作了一款由4个"马蹄变换"混合单元组成,有效混合距离为13 mm的微混合器.利用COMSOL软件得到的数值仿真结果表明:当Re≥1时,流体的佩克莱数Pe≥10,此时微混合器诱发的混沌流将随着流速的加快而增强,并逐步成为促进混合的主要因素;当Re=10时,经4个混合单元后,试样的浓度方差σ=0.054,混合效果接近均匀.对微混合器芯片进行的可视化测试结果表明,荧光显微镜拍摄到的示踪剂颜色变化与仿真结果中的表面浓度云图一致;而不同pH试样的混合测试结果则证明了,基于"马蹄变换"数学模型设计的微混合器能够产生混沌流且实际效果理想.

平方阻尼Josephson结的混沌探讨

用Melnikov函数法和微扰法讨论了平方阻尼Josephson结存在Smale马蹄变换意义下的混沌，结果揭示了异宿混沌在经常性扰动下的稳定性．

基于遥相关的NAO位相转换影响机理研究分析

利用NCEP-NCAR再分析位势高度、风矢量、海表面热通量数据,HadSST1再分析海温资料、CPC逐月北大西洋涛动(NAO)指数等,通过滞后回归分析了北大西洋海温异常对NAO的影响。结果显示,夏秋季北大西洋马蹄型海温通过海洋-大气相互作用导致冬季大气呈现NAO型气压场特征;与此同时,秋季大气场表现出反位相的NAO型环流形势突变,ECHAM4大气环流模型数值试验和观测资料统计分析均发现:热带大西洋海温异常(对流异常)可激发向中高纬度传播的遥相关波列,且具有秋季锁相的特征。马蹄型海温对大气的局地强迫联合热带大西洋异常海温的遥相关作用使得秋季NAO完成一次正负位相转换。

门静脉海绵样变性、马蹄肾病例报告并文献复习

目的探讨门脉海绵样变(cavernous transformation of portal vein,CTPV)的影像表现和预后。方法分析临床诊断CTPV一例并结合相关文献进行复习。结果本例CTPV并发马蹄肾、胆总管结石、巨大附件囊肿,术前B超、CT、MR均未诊断出CTPV,术后复查MRA及CTA发现CTPV。结论 CTPV易漏诊,但B超、CT、MR等仍是门脉海绵样变的有效诊断方法。

GALIN’S THEOREM HOLDS FOR MOVING PUNCH

This paper presents a formulation for solving three-dimensional moving punch problem. It proves that Galin's theorem holds for the punch. As an example, the study offers some results (including numerical data) of dynamic displacement over an ellipse contact region.

A MULTIGRID-ACCELERATED THREE-DIMENSIONAL TRANSIENT-FLOW CODE AND ITS APPLICATION TO A NEW TEST PROBLEM

A multigrid-assisted solver tbr the three-dimensional time-dependent incompressible Navier-Stokes equations on graded Cartesian meshes is developed. The spatial accuracy is third-order for the convective terms and fourth-order for the viscous terms, and a fractional-step strategy ensures second-order time accuracy. To achieve good time-wise efficiency a multigrid technique is used to solve the highly time-consuming pressure-Poisson equation that requires to be solved at every time step. The speed-up achieved by multigrid is shown in tabular form. The performance and accuracy of the code are first ascertained by computing the flow in a single-sided lid-driven cubic cavity with good grid-economy and comparing the results available in the literature. The code, thus validated, is then applied to a new test problem we propose and various transient and asymptotically obtained steady-state results are presented. Given the care taken to establish the credibility of the code and the good spatio-temporal accuracy of the discretization, these results are accurate and may be used for ascertaining the performance of any computational algorithm applied to this test problem.

Fast registration of multisource three-dimensional city models in GeoGlobe

We address the registration problem of multisource three-dimensional(3D)human-made buildings with remote sensing images and the earth’s surface in the context of virtual globes.Challenges include fast transformation of 3D coordinates with different reference systems as well as the efficient use of original model information for rigorous and accurate model registration.This paper introduces a novel fast and scalable registration approach that can establish correspondences between heterogeneous external 3D city models and images/terrain surfaces of virtual globes in an efficient and accurate manner.The approach utilizes the projected 3D feature information of 3D city models to develop robust coordinate transformation and reliable model registration methods.The proposed approach builds a solid foundation for the fusion of multisource geospatial data in a united virtual globe reference framework.We report experimental results of online registration tasks for up to over 13K buildings in an integrated 3D virtual globe platform,namely,GeoGlobe.

Research on Translation Strategies of Political Texts for International Publicity from the Perspective of Eco-Translatology

Eco-translatology provides a new perspective and methodology for the international publicity translation of political texts.This paper applies the viewpoint and methodology of eco-translatology,focuses on the three-dimensional transformation of language,culture,and communication,and discusses how translators can adapt to the eco-environment of political texts through the specific example of the keynote speech of China’s president at the opening ceremony of the Third Belt and Road Forum for International Cooperation and select suitable translation strategies and techniques to achieve an ecological balance of the target text in multiple dimensions.

Duffing方程解的若干性质

本文用摄动法和Ｍｅｌｎｉｋｏｖ法研究Ｄｕｆｆｉｎｇ方程，揭示出非线性系统的若干特性。