搜索资源列表
ESPRIT-MATLAB
- esprit算法,基于均匀线阵的阵列信号处理波达方向的matlab程序。-this is a malab about esprit.
MUSIC
- 运用music方法实现了阵列信号处理中的波束形成,包括线阵和平面阵。-Music beamforming in array signal processing, including line array and planar array.
TCD1251UD
- TCD1251UD是一种高灵敏度、低暗电流、2700像元的线阵CCD图像传感器,该芯片需要四路驱动脉冲,分别为转移脉冲SH、复位脉RS、时钟脉冲Φ1、Φ2,OS与DOS分别为信号输出和补偿信号输出,如图1所示。由于芯片结构上的安排,CCD在输出有效信号前先有64个哑元输出,然后才输出2700个有效像元,之后输出12个哑元,接下来便是空驱动,空驱动数目可以是任意的。 TCD1251UD是两列并行,分奇偶输出的器件,因此为了将所有像元信号输出,在一个SH有效脉冲期间至少需要1388个Φ脉冲。 -
CRB
- 均匀线阵的CRB曲线,适用于阵列信号处理问题-CRB curve of the uniform linear array
doubleDOA
- 多目标DOA估计,均匀线阵,波达方向,线形调频信号,-many DOA estimation,ULA,Driection of arrival,LFM
multiple_DOA_estimate
- 采用10阵元的阵元间距为1/2波长的均匀线阵,估计2个不相干的信号源的波打方向。其中样本数为100,S/N分别为10dB,20dB。信号源来自-10°和40°。程序里面包含用MUSIC,RootMUSIC,ESPRIT,MVDR,F-SAPES算法实现的DOA估计-A 10-element array element spacing of 1/2 wavelength of the uniform linear array, it is estimated that two unrelated
MIMO-radar-signal-modeling
- 均匀线阵方向图, MIMO雷达信号建模、波束形成和目标检测-Uniform linear array pattern MIMO radar signal modeling, beamforming and target detection
MATLAB-music
- 阵列信号处理MATLAB代码,music算法,含有均匀圆阵、均匀线阵、均匀平面阵的代码;doa估计,来预测波达方向,信号的相关参数;-Array signal processing MATLAB code, music algorithm containing uniform circular array, uniform linear array, the uniform planar array code of doa estimated to predict the direction
beamform
- 波束形成,一均匀排列的5元线阵,阵元间距15cm。设入射信号为单凭正弦波,幅度为Acos(wt)。声速设为c=1500m/s.在入射信号频率f为4k、5k、6k时,求以下三种加权系数下的波束图。 1)均匀加权时的波束图,入射信号范围-90°~90°,幅度归一化处理,下图。 2)阵元加权系数为[1,2,4,2,1] 3) 阵元加权系数为[4,2,1,2,4] -Beamforming, an arrangement of five yuan uniform linear arr
MUSIC_L
- 运用MUSIC算法对L型线阵的窄带信号频率方位角和俯仰角进行估计,实现目标定位-MUSIC algorithm using L-shaped linear array of narrow-band signal frequency to estimate the azimuth and elevation to achieve targeting
array-signal-pattern-simulation
- 阵列信号方向图仿真 包括线阵 平面阵 圆阵 直角阵-Array signal pattern simulation including linear array of rectangular planar array circular array
MVDR
- 奇异值分解波束形成,自适应波束形成仿真。由均匀线阵形式,确定阵列的导向矢量;由阵列导向矢量,对接收信号进行建模仿真;根据约束条件,实现自适应波束形成算法;考察算法性能与信噪比,采样率,观测时间等参数的关系。 -SVD beamforming, adaptive beamforming simulation. Form by the ULA to determine the array steering vector by the array steering vector, the rec
test_xian1
- 信号与信息处理——均匀线阵方向图,加切比雪夫权-ULA pattern, right Chebyshev
BOSHUCHENGXING
- 一8个阵元的均匀线阵,假设一功率为1的单频信号,假设信号从10度方向入射到基阵。不考虑噪声和其他干扰信号-An 8 element array ULA, assuming a power of single-frequency signal 1, assuming 10 degrees from the direction of the incident signal to the base matrix. Without considering noise and other interfer
ULA
- 简单的均匀加权线阵的仿真,有出方向图,权值与入射信号干扰噪声都无关,直接就是【1,1,1……】-a simple simulation of ULA
MUSIC1
- 模拟2个独立窄带信号分别以20°,60°的方向入射到均匀线阵上,信号间互不相关,与噪声相互独立,噪声为理想高斯白噪声,阵元间距为入射信号波长的1/2,信噪比为20dB,阵元数为10,采样快拍次数为200。-Simulate two independent narrowband signals in the direction of 20 °, 60 ° of the incident on the ULA, among signal unrelated, independent noise, t
music2
- 模拟2个独立窄带信号分别以20°,60°的方向入射到均匀线阵上,信号间互不相关,与噪声相互独立,噪声为理想高斯白噪声,阵元间距为入射信号波长的1/2,快拍数为200,信噪比为20dB,阵元数分别为10,50,100。 -Simulate two independent narrowband signals in the direction of 20 °, 60 ° of the incident on the ULA, among signal unrelated, independent
music3
- 模拟2个独立窄带信号分别以20°,60°的方向入射到均匀线阵上,信号间互不相关,与噪声相互独立,噪声为理想高斯白噪声,阵元数为10,快拍数为200,信噪比为20dB,阵元间距分别为 tambada/6 tambada/2、tambada。-Simulate two independent narrowband signals in the direction of 20 °, 60 ° of the incident on the ULA, among signal unrelat
music4
- 模拟2个独立窄带信号分别以20°,60°的方向入射到均匀线阵上信号间互不相关,与噪声相互独立,噪声为理想高斯白噪声,阵元数为10,阵元间距为入射信号波长的1/2,信噪比为20dB,快拍数分别为5,50,200。-Simulate two independent narrowband signals in the direction of 20 °, 60 ° of the incident on the ULA between signal uncorrelated with independe
music5
- MUSIC算法DOA估计与信噪比的关系模拟2个独立窄带信号分别以20°,60°的方向入射到均匀线阵上,信号间互不相关,与噪声相互独立,噪声为理想高斯白噪声,阵元数为10,阵元间距为入射信号波长的1/2,快拍数为200,信噪比分别为-20dB,0dB,20dB。-MUSIC DOA estimation algorithm relationship with SNR