资源列表
autobizhangrobot
- 人工势场法路径规划matlab源代码,适用于机器人路径规划。-Artificial potential field path planning matlab source code for robot path planning.
FdWaveModel
- 双相介质的交错网格有限差分波场模拟与AVO属性分析程序,包含了不同精度的交错网格程序,特征值分析法边界吸收条件,双相介质的弹性参数计算程序,以及AVO属性计算分析程序-Two-phase media of the staggered-grid finite-difference wave field simulation and AVO attribute analysis program, including the different precision staggered grid pro
Lynch_R2009b
- 如何计算随机时滞微分方程,主要是高斯白噪声的情况-numerical solution of stochastic delay differential equation
zonghe
- 该程序实现了基于小波模极大值,阈值去噪算法,并比较了各种方法的去噪效果。-The program achieved a de-noising based on wavelet modulus maxima algorithm, and effectively removes the signal in Gaussian white noise.
LFM_radar_simulation
- 文件中包含word文档报告 设雷达采用匹配滤波完成脉冲压缩,采集频率fs=420MHz,仿真雷达回波,并绘出家Hamming窗前后的脉压波形。(提示:通过正确设定采集波门,减少数据量) 设雷达采用Dechirp方式完成脉冲压缩,其中参考距离位于(0,0),采集频率为10MHz,距离采样点数512点,仿真雷达回波,并绘出加Hamming窗前后的脉压波形(提示:通过正确设定采集波门,减少数据量)。-Word document file contains the report of the
STFT
- 对信号进行短时傅里叶变换,可以方便的调节各种短时傅里叶变换的影响因素。-Short-time Fourier transform of the signal, you can easily adjust a variety of short-time Fourier transform of the influencing factors.
ICA
- 基于负熵最大的独立分量分析算法,可以将独立的混合信号分离-Based on the negative entropy of the largest independent component analysis algorithm can be a separate mixed-signal separation
tdoa
- 时延估计算法 互相关 自适应滤波法 -TDE TIME DELAY ESTIMATION
drive_4wd_dynamics
- 四轮驱动的混合动力车辆仿真的Simulink模型,-Simulink Model for HEV
matlab1
- 偏微分方程的数值解法的MATLAB程序介绍了应用最为广泛的椭圆型、双曲型、抛物型偏微分方程的数值解法,而且还详细编程实现了每种方程的多种常见数值解法。 附件使用MATLAB编程来实现这些算法。 -The numerical solution of partial differential equations of the MATLAB program, introduced the most widely used elliptic, hyperbolic, parabolic partia
Generation-of-artificial-seismic-waves
- 生成人工地震波,主要用于ANSYS等软件中需要输入人工地震波以便于研究-Generation of artificial seismic waves
SIRP
- 基于SIRP方法的相干相关K分布雷达杂波的建模与仿真程序,包含三个文件。主文件为K_distribution.m,两个函数文件nonline_eq_sirp.m,fseries.m。-K-distribution radar clutter simulation code based on SIRP method,including three files. The main file is K_distribution.m, the two function files are nonline