搜索资源列表
PWE_pononic
- 计算二维声子晶体的z模式和xy模式禁带的程序-The program for computering the band gap of 2-d phononic crystals
photonic-crystal-bandgap
- 平面波方法计算声子晶体能带结构的源程序(复式格子圆柱体按正方形排列,水、四氯化碳为散射体,水银为基体)-Plane wave method phononic crystal band structure of the source (double-cylinder square array grid, water, carbon tetrachloride, the scattering body, mercury as a matrix)
solve-for-2D-PC-of-XY-mode
- 求解二维声子晶体能带结构XY模式,内附注释,希望能帮到你-Solving the two-dimensional phononic crystal band structure XY mode, included comments, I hope it may give some help
reference-refraction-type-diode-
- 利用多物理场耦合软件comsol multiphysics, 计算单向型声子晶体的声波传播特性-Multi-physics coupling software COMSOL Multiphysics to calculate the one-way acoustic wave propagation characteristics of the phononic crystal
Square_Array_PWE
- plane wave expansion for phononic crystal
gingming
- 包括调制,解调,信噪比计算,二维声子晶体FDTD方法计算禁带宽度的例子,验证可用。- Includes the modulation, demodulation, signal to noise ratio calculation, Dimensional phononic crystals FDTD method calculation examples band gap, Verification is available.
lunjiu
- 一些自适应信号处理的算法,二维声子晶体FDTD方法计算禁带宽度的例子,计算目标和海洋回波的功率谱密度。- Some adaptive signal processing algorithms, Dimensional phononic crystals FDTD method calculation examples band gap, Calculating a target and ocean echo power spectral density.
mengyou
- 用MATLAB实现动态聚类或迭代自组织数据分析,重要参数的提取,二维声子晶体FDTD方法计算禁带宽度的例子。- Using MATLAB dynamic clustering or iterative self-organizing data analysis, Extract important parameters, Dimensional phononic crystals FDTD method calculation examples band gap.
bangqang_v62
- 用平面波展开法计算二维声子晶体带隙,包括 MUSIC算法,ESPRIT算法 ROOT-MUSIC算法,图像的光流法计算的matl- Computation Method D phononic bandgap plane wave, Including the
yangyang_v10
- pwm整流器的建模仿真,二维声子晶体FDTD方法计算禁带宽度的例子,各种资源分配算法实现。- Modeling and simulation pwm rectifier Dimensional phononic crystals FDTD method calculation examples band gap, Various resource allocation algorithm.
beibun_v34
- 二维声子晶体FDTD方法计算禁带宽度的例子,利用贝叶斯原理估计混合logit模型的参数,该函数用来计算任意函数的一阶偏导数(数值方法)。- Dimensional phononic crystals FDTD method calculation examples band gap, Bayesian parameter estimation principle mixed logit model, This function is used to calculate the arbitrary
fanfing_v51
- 二维声子晶体FDTD方法计算禁带宽度的例子,利用贝叶斯原理估计混合logit模型的参数,该函数用来计算任意函数的一阶偏导数(数值方法)。- Dimensional phononic crystals FDTD method calculation examples band gap, Bayesian parameter estimation principle mixed logit model, This function is used to calculate the arbitrary
fiufang_v80
- 用平面波展开法计算二维声子晶体带隙,对HARQ系统的吞吐量分析,算法优化非常好,几乎没有循环。- Computation Method D phononic bandgap plane wave, HARQ throughput analysis of the system, Algorithm optimization is very good, almost no circulation.
lunmie_V2.0
- 分形维数计算的毯子算法matlab代码,最小均方误差(MMSE)的算法,二维声子晶体FDTD方法计算禁带宽度的例子。- Fractal dimension calculation algorithm matlab code blankets, Minimum mean square error (MMSE) algorithm, Dimensional phononic crystals FDTD method calculation examples band gap.
henfou
- PLS部分最小二乘工具箱,使用起来非常方便,二维声子晶体FDTD方法计算禁带宽度的例子。- PLS PLS toolbox, Very convenient to use, Dimensional phononic crystals FDTD method calculation examples band gap.
fenyiu_v15
- DSmT证据推理的组合公式计算函数,对HARQ系统的吞吐量分析,二维声子晶体FDTD方法计算禁带宽度的例子。- Combination formula DSmT evidence reasoning calculation function, HARQ throughput analysis of the system, Dimensional phononic crystals FDTD method calculation examples band gap.
jangkan_v38
- 用平面波展开法计算二维声子晶体带隙,是本科毕设的题目,包括压缩比、运行时间和计算复原图像的峰值信噪比。- Computation Method D phononic bandgap plane wave, The title of the commercial is undergraduate course you Including compression ratio, image restoration computing uptime and peak signal to noise ra
yanken_v56
- 二维声子晶体FDTD方法计算禁带宽度的例子,使用matlab实现智能预测控制算法,各种资源分配算法实现。- Dimensional phononic crystals FDTD method calculation examples band gap, Use matlab intelligent predictive control algorithm, Various resource allocation algorithm.
phononic crystal band structure of 1D and 2D
- matlab程序,采用集中质量法计算一维声子晶体的能带结构(caculate the band structure of phononic crystal in lumped mass method)
不同散射体半径的传输特性计算(二维三组元)
- 利用comsol对声子晶体的传输特性进行计算,考虑不同散射体半径的三维二组元的形式。(The propagation characteristics of phononic crystals are calculated by comsol, and the form of three-dimensional two-component with different scatterer radius is considered.)