1) parity vector
奇偶矢量
1.
The correspondence of numbers with parity vectors.
关于数集与奇偶矢量集的对应问题 ;b 。
2.
The relation between the natural numbers and the parity vectors is discussed.
讨论了自然数与奇偶矢量间的关系 ,证明了数集Mk ={ 1,2 ,3,… ,2 k}与长为k的子奇偶矢量vk ={x0 ,x1,x2 ,… ,xk-1}的集合间存在一一映射 ,并由此得到 :设V表示所有奇偶矢量v ={x0 ,x1,x2 ,… }的集合 ,则映射σ :N→V 是一一映
3.
In particularly in this paper,pairs of consecutive integers of the same height is investigated using an algorithm for reconstracting the trajectory of a number from the parity vector of the number.
指出了 Collatz猜想中 ,某些连续的整数串具有相同的高 ,专门研究了同高连续数对 ,提出了它是通过利用一个算法从数的奇偶矢量重建数的轨迹来实现的 。
2) Singular vector
奇异矢量
1.
The singular vectors(SVs) is calculated with one Meiyu front mesoscale low simulation trajectory as base state,then the initial error is discussed with the pseudo-inverse perturbation:one kind of special perturbation formed with SVs.
以一个江淮梅雨锋低涡的48h模拟结果为基态计算了奇异矢量,并利用奇异矢量构造了假反扰动。
2.
Firstly, only the errors related with singular vectors are corrected while all others are ignored that are not about the singular vectors.
就江淮梅雨锋低涡预报基于奇异矢量目标观测作了观测系统模拟试验,目的在于对基于奇异矢量目标观测实际实施作预先研究,寻找目标观测中所要遵循原则和实施细节,以及用奇异矢量确定目标观测区的恰当方法。
3) Dual vector
对偶矢量
1.
This treatise attempts to explain the application of dual vector calculating the pole at the end in open loop mechanism to the calculation of poles in mechanism, and examples are given to illustrate the caluclation of the close loop mechanism of various types.
论述了用对偶矢量计算开环机构末杆自由度在机构自由度计算中的应用,并给出以这种方法计算各种不同类型闭环机构自由度的算例。
2.
The reaction on an end pole for permissible relative motion of all pairs in the open loop mechanism is quantitatively analysed using the dual vector theory.
运用对偶矢量理论定量地分析开环机构中各运动副所容许的相对运动在末杆上的反映,通过计算末杆独立对偶对速度来确定末杆独立运动的数目,从而给出一种求解末杆自由度的方
3.
Lagrange s equation of multi9rigidbody openchain system is described simply and compactly through dual numbers,dual vectors,dual angles,dual mass operator,momentproduct operation and moment product derivative.
通过对偶数、对偶矢量、对偶角、对偶质量运算符、矩积运算和矩积导数描述了简洁紧凑的开环多刚体系统的拉格朗日方程,并给出了一个算例。
4) Parity Vector
奇偶向量
1.
Based on parity vector, generalized likelihood test is used to detect satellite faults.
该方法在奇偶向量的基础上利用广义似然比法检测卫星故障 ,再利用神经网络进行故障诊断以提高卫星故障诊断的准确性。
2.
The neural network is trained to eliminate the effects of input axis misalignment, scale factor error and biases on parity vector.
提出采用神经网络对多传感器斜置组件的奇偶向量进行补偿 ,从而消除安装误差、刻度系数误差以及常值偏差对奇偶向量的影响 ,提高系统对小幅值故障检测与隔离的准确性 。
3.
An approach of fault detection and isolation using optimal parity vector is proposed.
提出了一种利用对特定传感器故障敏感的最优奇偶向量进行故障检测与隔离的方法。
5) odd-even quantification
奇偶量化
1.
An improved watermarking algorithm of odd-even quantification based on chaotic map is proposed.
提出了一种基于混沌映射的改进奇偶量化水印算法。
2.
An audio watermark algorithm based on odd-even quantification is proposed which has the features as follows(.
提出一种基于奇偶量化的音频水印算法,算法具有如下特点:(1)在音频信号的时间域上检索满足条件的同步信号区,同步信号区是一段具有一定长度且能量较大的音频信号;这种时间域上的同步检索具有较高的效率;(2)水印图像划分成若干块,把每一个水印分块及其分块编号嵌入在一个同步信号区的小波变换低频系数上,水印图像划分成分块循环嵌入到检索到的同步信号区,当含水印的音频信号被裁剪后,可以确保在其他音频段提取出正确的水印分块;(3)水印检测不需要参考原始音频信号,是一种盲检测水印算法。
6) odd-even quantization
奇偶量化
1.
Odd-Even Quantization Watermarking Embedding and Blind Detection Algorithm for Digital Image Using DWT;
基于小波变换的奇偶量化水印嵌入盲检算法
2.
In this paper,an image adaptive RST invariant watermark(AWPZM) is proposed by using the rotation invariant property of pseudo-Zernike moments and odd-even quantization.
针对旋转、缩放和平移等几何攻击能够破坏水印检测的同步性,容易使常规水印算法检测失败的问题,利用图像伪Zernike矩的幅度具有旋转不变的性质,结合奇偶量化,提出了一种图像自适应旋转、缩放和平移不变水印算法。
3.
The main methods adopted include:1) watermark synchronization is achieved by invariant local circular regions which can be generated using image locally most stable feature points;2) fan-shaped sub-regions are generated in a rotation invariant pattern by partitioning the local region,and the watermark bits are embedded in spatial domain by odd-even quantization;3) an .
采取的主要方法有:1)利用图像中的局部最稳定特征点生成具有几何不变性的圆形特征区域,用于水印的同步;2)将特征区域分解为具有旋转不变性的扇形区域,并在空域利用奇偶量化嵌入水印;3)设计了一种奇偶检测器盲提取水印。
补充资料:奇偶校验(奇jī)
一种校验代码传输正确性的方法。根据被传输的一组二进制代码的数位中“1”的个数是奇数或偶数来进行校验。采用奇数的称为奇校验,反之,称为偶校验。采用何种校验是事先规定好的。通常专门设置一个奇偶校验位,用它使这组代码中“1”的个数为奇数或偶数。若用奇校验,则当接收端收到这组代码时,校验“1”的个数是否为奇数,从而确定传输代码的正确性。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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