1.Texture synthesis methods can be divided into the following three categories: Texture Mapping, Procedural Texture Synthesis and Texture Synthesis from Samples.
纹理合成大体上可以分为纹理映射(Texture Mapping)、过程纹理合成(Procedural Texture Synthesis)和基于采样的纹理合成(Texture Synthesis from Samples)三类。
2.STUDY ON SYNTHESIS, CHARACTERIZATION AND CATALYSIS OF PILLARED ANION CLAY(Ⅲ) ──SYNTHESIS OF ZnAl-BW_(11)O_(39)Z(H_2) ̄(n-)
STUDY ON SYNTHESIS,CHARACTERIZATION AND CATALYSIS OF PILLARED ANION CLAY(Ⅲ)──SYNTHESIS OF ZnAl-BW_(11)O_(39)Z(H_2)~(n-)
3.CS consists of Self-propagating High-temperature Synthesis and Low-temperature combustion Synthesis. Thedifference an the similarity between SHS and LCS were described in this chapter.
自蔓延燃烧合成分高温自蔓延(Self-Propagating High-temperature Synthesis,缩写为SHS)和低温自蔓延(Low-temperature Combustion Synthesis,缩写为LCS)。
4.Texture Synthesis from Sample(TSFS) is one of the new techniques for texture generation in recent years. TSFS can eliminate some defects of Texture Mapping technique, such as texture seams and texture distortions, moreover, it can avoid the boring processes of parameter optimization of Procedural Texture Synthesis(PTS).
基于样图的纹理合成技术(Texture Synthesis from Samples,TSFS)是近年来发展起来的一项新的纹理生成技术,它既克服了传统纹理映射技术可能带来的纹理接缝和纹理扭曲的缺陷,也避免了过程纹理合成(Procedural Texture Synthesis,PTS)参数选择的繁琐过程,因而成为计算机图形学、计算机视觉领域的研究热点之一。
5.Based on μ-synthesis theory,the robust ASAC(active structure acoustic control) model for the system of structural acoustical coupling is established and the design method of robust μ-synthesis controller is presented. The main idea is as follows: First,the robust performance problem of this system is transformed into the robust stability problem of an augment system via the introduction of a fictive uncertainty. Then the robust stability controller for this augment system is solved by standard D-K iteration.
基于鲁棒结构奇异值理论,以工程中普遍存在的封闭空间结构———声耦合模型不确定性系统为对象,提出了设计鲁棒控制器的方法,建立了结构-声耦合系统鲁棒主动控制模型,与鲁棒H∞控制结果相比,μ-synthesis方法对模型不确定性具有良好的稳定鲁棒性和性能鲁棒性。
6.The Synthesis of 1 O β D (5 Aryl 2 furoyl) Acetylated Sugars by Phase Transfer CatalysisReceived October 29,1995.
The Synthesis of 1-O-β-D-(5-Aryl-2-furoyl)AcetylatedSugarsbyPhaseTransferCatalysis
7.Synthesis and Structure of Ion-pairComplex [Mo (dtc)_4][Sm (dtc)_4]
Synthesis and Structure of Ion-pairComplex[Mo (dtc)_4][Sm (dtc)_4]
8.Synthesis and Crystal Structure of[Lu(NO_3)_3(H_2O)_2(CH_3CN)](Benzo-15-C-5)·CH_3CN
Synthesis and Crystal Structure of[Lu(NO_3)_3(H_2O)_2(CH_3CN)](Benzo-15-C-5)·CH_3CN
9.Synthesis and Crystal Structure of[(n-Bu)_4N]_2[Mo_4O_(10) (OC_(10)H_6 O)_2 (OCH_3 )_2]
Synthesis and Crystal Structure of[(n-Bu)_4N]_2[Mo_4O_(10)(OC_(10)H_6O)_2(OCH_3)_2]
10.Equal weight endosperm of Jatropha curcas (Linnaeus) at different development stage was used as experimental materials. Total RNA is extracted and purified. Jalropha curcas L. endosperm cDNA library was constructed using cDNA Synthesis Kit, Gigapack III Gold Packaging Extract and Uni-ZAP XR vector.
以等质量比的不同发育阶段的麻疯树(Jatropha curcas L.)胚乳为材料,提取纯化mRNA,使用Stratagene公司生产的cDNA Synthesis Kit、Gigapack Ⅲ Gold Packaging Extract,用Uni-ZAP XR载体构建麻疯树胚乳cDNA文库。
