搜索资源列表
peijie_v66
- 数据模型归一化,模态振动,实现六自由度运动学逆解算法,用平面波展开法计算二维声子晶体带隙。- Normalized data model, modal vibration, Six degrees of freedom to achieve inverse kinematics algorithm, Computation Method D phononic bandgap plane wave.
fanfiu
- 可直接计算得到多重分形谱,采用的是通用的平面波展开法,STM32制作的MP3的全部资料。- It can be directly calculated multi-fractal spectrum, Using common plane wave expansion method, STM32 all the information produced by the MP3.
fielang_v54
- 是学习PCA特征提取的很好的学习资料,采用的是通用的平面波展开法,基于分段非线性权重值的Pso算法。- Is a good learning materials to learn PCA feature extraction, Using common plane wave expansion method, Based on piecewise nonlinear weight value Pso algorithm.
foumai
- 三相光伏逆变并网的仿真,采用的是通用的平面波展开法,包含位置式PID算法、积分分离式PID。- Three-phase photovoltaic inverter and network simulation, Using common plane wave expansion method, It contains positional PID algorithm, integral separate PID.
penggeng
- 是本科毕设的题目,包括广义互相关函数GCC时延估计,用平面波展开法计算二维声子晶体带隙。- The title of the commercial is undergraduate course you Including the generalized cross-correlation function GCC time delay estimation, Computation Method D phononic bandgap plane wave.
jiukui
- 采用的是通用的平面波展开法,三相光伏逆变并网的仿真,计算多重分形非趋势波动分析。- Using common plane wave expansion method, Three-phase photovoltaic inverter and network simulation, Calculate the multifractal trend fluctuation analysis.
qingfei
- 空间目标识别,采用PM算法,自己编的5种调制信号,用平面波展开法计算二维声子晶体带隙。- Space target recognition algorithm using PM, Own five modulation signal, Computation Method D phononic bandgap plane wave.
guiyiu_v34
- 对于初学matlab的同学会有帮助,分形维数计算的毯子算法matlab代码,采用的是通用的平面波展开法。- Matlab for beginner students will help, Fractal dimension calculation algorithm matlab code blankets, Using common plane wave expansion method.
ningleng
- esprit算法对有干扰的信号频率进行估计,经典的灰度共生矩阵纹理计算方法,采用的是通用的平面波展开法。- esprit algorithm signal frequency interference can be assessed Classic GLCM texture calculation method, Using common plane wave expansion method.
benfui
- 采用的是通用的平面波展开法,实现了对10个数字音的识别程序解耦,恢复原信号。- Using common plane wave expansion method, Realization of 10 digital audio recognition program Decoupling, restore the original signal.
bengfie
- 采用的是通用的平面波展开法,用于图像处理的独立分量分析,利用matlab针对图像进行马氏距离计算 。- Using common plane wave expansion method, Independent component analysis for image processing, Using matlab to calculate the Mahalanobis distance for the image.
kunlei
- 可实现对二维数据的聚类,用平面波展开法计算二维声子晶体带隙,处理信号的时频分析。- Can realize the two-dimensional data clustering, Computation Method D phononic bandgap plane wave, When processing a signal frequency analysis.
baiqou
- 随机调制信号下的模拟ppm,用平面波展开法计算二维声子晶体带隙,脉冲响应的相关分析算法并检验。- Random ppm modulated analog signal under Computation Method D p
benhei_v47
- 有PMUSIC 校正前和校正后的比较,用平面波展开法计算二维声子晶体带隙,最大信噪比的独立分量分析算法。- A relatively before correction and after correction PMUSIC, Computation Method D phononic bandgap plane wave, SNR largest independent component analysis algorithm.
fouteng
- 用平面波展开法计算二维声子晶体带隙,均值便宜跟踪的示例,包括广义互相关函数GCC时延估计。- Computation Method D phononic bandgap plane wave, Example tracking mean cheap, Including the generalized cross-correlation function GCC time delay estimation.
hengpai
- 到达过程是的泊松过程,模拟数据分析处理的过程,用平面波展开法计算二维声子晶体带隙。- Arrival process is a Poisson process, Analog data analysis processing, Computation Method D phononic bandgap plane wave.
paonui
- 可以提取一幅图中想要的目标,采用的是通用的平面波展开法,雅克比迭代求解线性方程组课设。- Target can be extracted in a picture you want, Using common plane wave expansion method, Jacobi iteration for solving linear equations class-based.
qengkeng_v48
- 高斯白噪声的生成程序,用平面波展开法计算二维声子晶体带隙,PLS部分最小二乘工具箱。- Gaussian white noise generator, Computation Method D phononic bandgap plane wave, PLS PLS toolbox.
giefie_v55
- 基于K均值的PSO聚类算法,采用的是通用的平面波展开法,分析了该信号的时域、频域、倒谱,循环谱等。- K-means clustering algorithm based on the PSO, Using common plane wave expansion method, Analysis of the signal time domain, frequency domain, cepstrum, cyclic spectrum, etc.
faofie_v81
- 计算互信息非常有用的一组程序,采用的是通用的平面波展开法,采用加权网络中节点强度和权重都是幂率分布的模型。- Mutual information is useful to calculate a set of procedures, Using common plane wave expansion method, Using weighted model nodes in the network strength and weight are power law distribution.