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实验4
- 一个实现矩阵的基本运算的函数,+,-和*,还用了十字链表实现,包括求逆矩阵.欢迎参考-a matrix to achieve the basic computing functions, - and *, also spent Orthogonal List, including the inverse matrix. Welcome reference
orthogonal_signal_BER
- 以cos(2*pi*k*t/N)信号空间,k=0,1,……N-1, 取N= 4,8,16,32,64等基信号作为传输信号,通过计算机仿真正交信号的误码率。-To cos (2* pi* k* t/N) signal space, k = 0,1, ... ... N-1, take N = 4,8,16,32,64, such as the base signal as a transmission signal, through computer simulation orthogonal s
STBC4C
- 4发射天线1接收天线在QPSK调制下的正交空时编码-4 transmission antennas in a receiving antenna orthogonal QPSK modulation space-time coding
4
- MATLAB程序, 半参数线性回归模型的最小二乘核估计 半参数线性回归模型的最小二乘正交序列估计。-MATLAB program, semi-parametric linear regression model of least squares kernel estimation Semiparametric least squares linear regression model orthogonal sequence estimation.
sync-4-ofdm
- Joint maximum likelihood (ML)symbol-time and carrier-frequency offset estimator in orthogonal frequency-division multiplexing(OFDM) systems.-Joint maximum likelihood (ML)symbol-time and carrier-frequency offset estimator in orthogonal frequency-divi
haha
- 完成M=4正交信号的数字通信系统的蒙特卡罗仿真-The completion of M = 4 orthogonal signals in Monte-Carlo simulation of digital communication systems
zhengjiaoxinhao
- 完成M=4的正交信号的数字通信系统的蒙特卡罗仿真。分析其在加性高斯白噪声下误码率与信噪比之间的关系,绘出误码率-信噪比曲线图,并和物理曲线进行比较。-The completion of M = 4 orthogonal signals in Monte Carlo simulation of digital communication systems. Analysis of the additive white Gaussian noise bit error rate and signal
cFFT
- CFFT is a radix-4 fast Fourier transform (FFT) core with configurable data width and a configurable number of sample points in the FFT. Twiddle factors are implemented using the CORDIC algorithm, causing the gain of the CFFT core to be differen
EOF
- 经验正交函数分解 Empirical Orthogonal Functions (EOF s) eof(m,n,mnl,f,ks,er,egvt,ecof) 求时空场f(m,n)的特征向量egvt(m,mnl),时间系数ecof(mnl,n),特征值er(mnl,1),累积特征值er(mnl,2),解释方差er(mnl,3),累积解释方差er(mnl,4) -Empirical orthogonal function decomposition of Empirical O
s02-4
- This paper analyzes the performance of phase feedback, quasi-orthogonal space-time block codes (QOSTBC) and Extended OSTBC systems in the presence of feedback delay, feedback error and amount of channel feedback. Space-time code constructed f
4-pallale-OFDM
- 4路子载波调制的正交频分复用源代码,以及误比特率的计算,画图-4 way carrier modulation orthogonal frequency division multiplexing source code, and bit error rate calculation, drawing
4
- 本程序为改进后的基于matlab实现的准正交空时分组码的仿真算法,可以分析系统性能-This procedure is based on matlab to achieve improved quasi-orthogonal space-time block code simulation algorithms can analyze system performance
LBP-v0.0.4
- Local Binary Patterns, calculate histogram of LBP (local binary patterns) from an input image,VLBP (volume local binary patterns) -Introduction ============ This is a class to calculate histogram of LBP (local binary patterns) from an input ima
ex7-4
- 非正交二次样条二维二进小波的快速分解和重构-Non-orthogonal quadratic spline rapid two-dimensional dyadic wavelet decomposition and reconstruction
QOSTB-MIMO-4
- :多天线系统中发射端采用准正交空时编码(QOSTC)时,与正交空时编码(OSTC)相比,虽然前者可达到 全速率传输,-: multiple antenna systems used in the launch must orthogonal space-time coding (QOSTC), and the orthogonal space-time code than (OSTC), although the former can achieve The transmission r
Orthogonal-Matching-Pursuit
- 1-D信号压缩传感的实现(正交匹配追踪法Orthogonal Matching Pursuit): 1. 时域测试信号生成 2. 时域信号压缩传感 3. 正交匹配追踪法重构信号 4. 恢复信号和原始信号对比-1-D signal compression sensing implementation (orthogonal matching pursuit method Orthogonal Matching Pursuit): 1. 2. The time-domain test
buntai_V5.4
- 重要参数的提取,匹配追踪和正交匹配追踪,考虑雨衰 阴影 和多径影响。- Extract important parameters, Matching Pursuit and orthogonal matching pursuit, Consider shadow rain attenuation and multipath effect.
beiling_V5.4
- 匹配追踪和正交匹配追踪,窗函数法设计一个数字带通FIR滤波器,具有丰富的参数选项。- Matching Pursuit and orthogonal matching pursuit, A window function design FIR digital band-pass filter, It has a wealth of parameter options.
fen-V6.4
- Complete HMM-based speech recognition system, Matching Pursuit and orthogonal matching pursuit, Chaos indicator for Lyapunov index calculation.
haha
- m=4正交信号数字通信系统进行蒙特卡罗仿真(M=4 orthogonal signal digital communication system for Monte Carlo)