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zuixiaoyueshu
- 用最小约束阵实现频率、二维到达角和极化的联合估计,大家可以参考一下了.-binding matrix with the minimum frequency, two-dimensional arrival angle and polarization of the joint estimation, we can make reference to the.
L_Azimuth_Elevation_f
- 基于L型线阵的信号频率,方位角,俯仰角联合估计,采用MUSIC
P_Azimuth_Elevation_f
- 基于平行等距均匀线阵的信号频率,方位角,俯仰角联合估计,采用MUSIC算法
ULA_Azimuth_Fre
- 基于均匀线阵的,利用延迟的方法进行信号方位角与频率的联合估计,采用MUSIC算法
Plane_Azimuth_Fre
- 基于面阵的信号方位角与频率的联合估计,采用MUSIC算法
11
- 基于时空处理的盲二维角度和频率的联合估计,对阵列信号处理的有一定的帮助-Blind space-time processing based on two-dimensional angle and frequency of joint estimation of array signal processing is certainly helpful
frency_estiamte
- OQPSK信号的频率估计,用的是相位与时钟联合估计算法,适用于突发的卫星信号等-OQPSK signal frequency estimation, using a phase estimation algorithm combined with the clock for emergency satellite signals
12344555555
- 基于圆阵的方位角频率联合估计,基于圆阵的方位角频率联合估计-Azimuth frequency circular array based on joint estimation of frequency based on the joint circular array azimuth estimation
Untitled
- 用FFT联合CZT 算法进行频率估计,检测突发频率-CZT algorithm combined with the FFT frequency estimation, detection of burst frequency
MLTimeFrequencyOffsetOFDM
- OFDM联合极大似然法,符号和载波频偏估计,利用循环前缀的冗余信息实现ML估计,不需额外插入导频,其频率估计用于跟踪模式,时间估计用于捕获模式。-OFDM ML estimator for time and frequency
esprit_jafe
- 阵列信号处理 频率和角度联合估计 JAFE算法-Array signal processing frequency and angle joint estimation algorithm JAFE
WIMAXsource
- WIMAX_WZ_withencoding:信道估计,相位噪声补偿,频偏估计,编解码都有 WIMAX_WZ_withoutencoding:在上面的工程基础上,去掉编解码部分 WIMAX_WZ_withoutprocessing:在上面的工程基础上,再去掉相位噪声补偿,频偏估计 WIMAX_WZ_withoutprocessing2:在上面的工程基础上,改用新的前导和导频联合信道估计方案,参考文档《基于802_16d标准的OFDM信道估计技术的研究与实现.kdh》 因为白噪
ESPRIT-paper
- 这是一篇研究利用旋转不变技术实现方向、频率联合估计的文章-This is a study using rotational invariance techniques to achieve the joint estimation of frequency, direction
duopulepinlvguji
- 提出了一种基于子空间的目标方向角和多普勒频率联合估计算法,该方法引入改进的粒子群优化思想-Proposed based child Target Angle and Doppler frequency space for joint estimation, the method introduces an improved PSO thought Want
music_two
- 述是经典MUSIC算法的基本原理,许多限制是可以放宽或取消的。首先,关于均匀线阵的限制不是必须的,实际中可采用几乎是任意形状的阵列形式,只要满足在个独立信号源的条件下,矩阵具有个线性无关的列就可以了。其次,天线阵元在观测平面内无方向性这一点也不是必要的,而且还可以考虑三维空间的DOA估计问题,即不仅估计信号的方位角,还要估计它的俯仰角,当然MUSIC算法还用于频率、方位和俯仰的联合估计。-Above is the basic principle of the classical MUSIC al
can-cofsult
- 用最小约束阵实现频率,二维到达角和极化的联合估计,大家可以参考一下了-With minimum constraint matrix to realize frequency, two-dimensional arrival angles and polarization of joint estimation, everybody can consult,,
jpint
- 用最小约束阵实现频率,二维到达角和极化的联合估计,大家可以参考一下了-With minimum constraint matrix to realize frequency, two-dimensional arrival angles and polarization of joint estimation, everybody can consult,,
afrival
- 用最小约束阵实现频率,二维到达角和极化的联合估计,大家可以参考一下了,,(With minimum constraint matrix to realize frequency, two-dimensional arrival angles and polarization of joint estimation, everybody can consult,,)
FMCW_Radar_24G_v1
- 算法主要用于雷达测距,含FFT 和 CZT算法,联合估计频率值(Radar signal processing)
无源感知中频率与DOA的联合估计
- 利用时空欠采样技术,在互质阵列中多个sensor上放置两路ADC采样,结合中国余数定理与频谱校正技术,实现频率与波达方向的联合估计。发表在IEEE TSP上2区,很新,很有创新性。