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sx
- MATLAB实现的图像缩小程序,已通过调试
SX-C
- 解决很多地下水数值模拟问题,只需要修改相关参数就能运用-Groundwater numerical simulation to solve many problems, only a need to amend the relevant parameters will be able to use
gabor
- 本站以C语言和Java语言、嵌入式开发、算法实现为主,源码数量达几十万个,有200多个分类,很多都是本站会员的私家珍藏,互联网上其他地方是找不到的-The Gabor filter is basically a Gaussian (with variances sx and sy along x and y-axes respectively) modulated by a complex sinusoid (with centre frequencies U and V along x
bp_sx150s
- models the BP SX 150S PV module
2D Gabor mfile Version(1,2,3)
- The Gabor filter is basically a Gaussian (with variances sx and sy along x and y-axes respectively) modulated by a complex sinusoid (with centre frequencies U and V along x and y-axes respectively)
Sa
- function [Sx,f,alpha] = Sa(s,fs,M,N,read_f,del_f) 计算信号的循环谱 [Sx,f,alpha] = Sa(s,fs,M,N,read_f,del_f) 输入: s 序列 fs 采用频率 M 滑动频率窗长 N fft计算点数 read_f 可视频率(一般为载频的整数倍) del_f 可视频率间隔 输出: Sx 信号的循环谱 f 频率轴 alpha 循环频率轴-Cyclos
sourceLocation_BSS_MS_CHAN_FENG_SI_algorithm
- This code describes algorithms for Time Delay Estimation (TDE), TDOA (time delay of arrival) between BSS and MS. Algorithm: FANG, SI, CHAN, SX, Taylor serie, Least Square, FWLS were detailed. TESTED and WORKED !!! Cramer-Rao bound for each algorithm
getmswtfeat
- %The Gabor filter is basically a Gaussian (with variances sx and sy along x and y-axes respectively) %modulated by a complex sinusoid (with centre frequencies U and V along x and y-axes respectively) %described by the following equation
多传感器定位算法
- 使用多种算法(DAC、Hyperbolic、DAC、SI、SX、Taylar)实现多传感器对单点定位(采用高斯噪声),其中Hyperbolic与SI为3d定位,其他的为平面定位(Using a variety of algorithms (DAC, Hyperbolic, DAC, SI, SX, Taylar) to achieve single point positioning (using Gauss noise), Hyperbolic and SI are 3D location,