- 更多网络例句与可逆变换相关的网络例句 [注:此内容来源于网络,仅供参考]
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Two steganography security definitions fitted for images are proposed from different points of view. One is in terms of the relative entropy based on the reversible de-correlation transform. The other is in terms of the conditional relative entropy using the markov random field model for images.
分别从两个不同的角度提出了新的适合图像载体的掩密安全性定义:基于可逆去相关变换的相对熵安全性定义和基于Markov图像模型的条件相对熵安全性定义,并分别以不同的图像模型对这两个定义进行了讨论。
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By using the Euclidean algorithm and invertible linear transformation over a polynomial ring, the solutions of polynomial indeterminate equations of first degree was investigated in theory, and its matrix solution based on the elementary matrix transformation was proposed.
利用欧几里德算法和多项式环上的可逆线性变换,从理论上对多项式环上的一次不定方程组的解进行深入的研究,给出了用矩阵的初等变换求解多项式环上的一次不定方程组的矩阵解法,并利用MATLAB数学软件开发了相应的计算机程序。
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By using the Euclidean algorithm and invertible linear transformation over an integral ring, the solution of integral indeterminate equations of the first degree was investigated in theory, and its matrix solution based on the elementary matrix transformation was proposed.
用欧几里德算法和整数环上的可逆线性变换,从理论上对整数一次不定方程组的解进行了深入研究,提出了用矩阵的初等变换求解整数一次不定方程组的矩阵解法,并利用MATLAB数学软件开发了相应的计算机程序。
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We analyse the Lewy theorem and the provement idea of the theorem, and find the equation (7)and (8)are not equivalent under the reversible transformation, this lead to the absurdity in the provement does not come into existence .
分析Lewy定理及定理的证明思想,发现在证明中所述的可逆变换下,方程(7)与(8)并不等价,导致Lewy定理证明中归谬不成立。
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The diffusion structure has important impact on the rate of the diffusion and safety intensity for block cipher.Using the linear transform which has branch numbers as large as possible as the diffusion structure is a main method to devise block cipher.The linear transform is usually achieved by constructing the invertible matrix.
扩散结构的好坏直接影响了分组密码的扩散速度和安全强度,以分支数尽可能大的线性变换为分组密码算法的扩散结构是设计分组密码的一种重要方法,线性变换的构造可通过可逆矩阵的构造完成。
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The way of solving matrix equation directly with primary transformation method is discussed with the premise of the matrix of coefficients being reversible, which makes the solving procedures more simple.
讨论了在系数矩阵可逆的前提下,如何用初等变换的方法直接求解矩阵方程,使求解过程更简化,同时给出一般线性方程组的初等变换直观解
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The methods of analysis and evaluation of thermodynamics of LiBr-H2O absorption cycles are set up. Firstly, Based on the utilization of The First and Second Law of thermodynamics, the ideal combined Camot Cycle model is set up. Secondly, Aimed at the insufficient of the classical thermodynamics analysis method, the popular method-- Finite Time Thermodynamics analysis is applied to set up the model of endo-reversible combined Carnot cycle. Finally, the optimization relationships between the specific heating load and operating parameters and between SHL and COP are conducted according to the characteristics of the function and investment of AHT.
在首先利用热力学第一、二定律分析方法的基础上,建立了吸收式热变换器的理想联合卡诺循环模型,然后针对经典热力学分析方法的不足,利用了当前很流行的有限时间热力学分析手段,建立了AHT系统内可逆联合卡诺模型,根据热变换器的功能、投资等方面的特点,导出了吸收式热变换器比供热率与操作参数、比供热率与热力学性能系数的优化体系。
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The First Law of thermodynamics and exergy analysis method were used to construct factors such as coefficient of performance , exergy efficiency and exergy index according to the AHT combined Carnot cycle model established. Aimed at the insufficient of the classical thermodynamics analysis method, the optimization relationships between the specific heating load and operating parameters, and between SHL and COP, was reasoned out using the Finite Time Thermodynamics method according to the characteristic of investment and capacity of AHT, and endo-reversible combined Carnot cycle model. Hence, the rationality of the energy utilization and the economic index, which related to the total heat transfer area, were both taken into account.
首先利用热力学第一定律分析法和〓分析方法,按照建立的吸收式热变换器理想联合卡诺模型,构建包括性能系数、热力学效率、〓效率、〓指数在内的吸收式热变换器热力学评价体系;然后针对经典热力学分析方法的不足,根据热变换器的功能、投资等方面的特点,按照内可逆联合卡诺模型,利用有限时间热力学理论方法,导出了吸收式热变换器比供热率与操作参数、比供热率与热力学性能系数的优化关系,从而使优化结果兼顾了系统用能的合理性和与总传热面积相关的反映设备投资回报的经济性指标。
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These matrices are the inversive constant ones and have the size as the same as the length of the signal.
利用基于推选体制的小波变换实现算法,构造出了与具有紧支集的双正交小波滤波器对应的小波变换和逆小波变换的算子矩阵,这些矩阵是大小与信号长度相等的可逆常数矩阵。
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A lossless data compression algorithm takes a string of symbols and translates it reversibly into another string, one that is on the average of shorter length.
一个无损压缩算法就是将代表字符的序列通过可逆变换变化成为一个新的序列,通过这样的变换使它的平均长度变短。
- 更多网络解释与可逆变换相关的网络解释 [注:此内容来源于网络,仅供参考]
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inverse matrix:逆矩阵
(矩阵的标量乘积),(矩阵的乘积),(零因子),(标量矩阵(scalar matrix)),(矩阵的多项式);(退化的(degenerate)方阵),(非退化的(non-degenerate)方阵),(退化的线性变换),(非退化的线性变换),(逆矩阵(inverse matrix)),(可逆的(invertible),
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invertible sheaf:可逆层
invertible operator 可逆算子 | invertible sheaf 可逆层 | invertible transformation 可逆变换
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invertible transformation:可逆变换
invertible sheaf 可逆层 | invertible transformation 可逆变换 | involute 渐伸线
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Operation:运算
"运算"(operation) 是皮亚杰的智力成长理论的核心概念. 所谓运算是指为了某种目的而变换信息的一种特殊的智力程序, 而且它是可逆的. 如我们为了求64而给 8平方,
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Hydraulic torque converter:传动系
矩阵变换器:Matrix-Converter | 传动系:hydraulic torque converter | 可逆变流器:reversible converter
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reversible transit circle:转镜子午仪
reversible transformation 可逆变换 | reversible transit circle 转镜子午仪 | reversing clutch 反向离合器
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reversible transit circle:可反转式子午仪,回转子午仪
reversible transformation ==> 可逆变换 | reversible transit circle ==> 可反转式子午仪,回转子午仪 | reversible transition ==> 可逆跃迁
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Legendre:勒让德
第二定律熵 3.1 不可逆过程 3.2 热力学第二定律 3.3 卡诺定理 3.4 热力学温标 3.5 态函数--熵 3.6 熵流和熵产生 3.7 特殊情况下的熵产生计算第4章 热力学函数和应用热力学第三定律 4.1 引言 4.2 勒让德(Legendre)变换 4.3 麦克