▍1. 信噪比-误比特率曲线
说明: 使用Labview平台计算误码率,绘制误码率曲线,用于通信系统仿真。(Calculate the bit error rate and reconstruct the bit error rate curve)
说明: 使用Labview平台计算误码率,绘制误码率曲线,用于通信系统仿真。(Calculate the bit error rate and reconstruct the bit error rate curve)
说明: 主要包含BPSK信号产生,成形滤波,调制,加噪,下变频,解调(It mainly includes BPSK signal generation, shaping filtering, modulation, noise adding, down conversion and demodulation)
一个UWB发送与接收端仿真程序,文件为M File(Sending and receiving a UWB terminal emulation program, documents for M File)
几个关于MIMO雷达的仿真程序,对学习相关内容的人有些帮助。(Several of the simulation program about MIMO radar to the study of relevant content people some help.)
BSPK QPSK 8PSK调制与解调的matlab程序,已经经过测试,可稳定运行,具有很高的使用价值(BSPK QPSK 8PSK modulation and demodulation matlab program, has been tested and stable operation with high use value)
5G 网络 matlab 仿真 5G网络场景模拟 仿真 matlab代码,可运行(Matlab simulation of 5G network)
说明: 5G 网络 matlab 仿真 5G网络场景模拟 仿真 matlab代码,可运行(Matlab simulation of 5G network)
在理想情况下和干扰存在情况下,JP和CBF性能对比(the differencebetween JP and CBF)
本代码介绍了OFDM/OQAM 多径信道下,理想信道估计的系统仿真,给出了不同信噪比下的ber性能。介绍了多载波系统的均衡。(This code describes the OFDM/OQAM multipath channel, system simulation, ideal channel estimation, given the ber performance under different signal to noise ratio. The equilibrium of the multi-carrier system.)
仿真MIMO信道容量与信噪比和发收天线数目的关系,(Simulated MIMO Channel Capacity)
说明: 仿真MIMO信道容量与信噪比和发收天线数目的关系,(Simulated MIMO Channel Capacity)
最基础的检测概率;虚警概率;漏检概率与门限的关系。(Energy detection;Single threshold.)
对LTE中信道估计算法的仿真,包括LS,MMSE,LMMSE等(Simulation of the LTE channel estimation algorithm, including LS, MMSE, LMMSE and so on)
说明: 最基础的检测概率;虚警概率;漏检概率与门限的关系。(Energy detection;Single threshold.)
在AWGN信号下,实现pi-4 QPSK调制解调(pi-4 QPSK modulation and demodulation)
无线电定位算法 算法对TOA的估计,相信对大家非常有用(TOA-Based Self-localization Technology in Wireless Sensor Networks)
基于BD-SVD分解的下行CoMP预编码算法仿真(Based on the BD-SVD decomposition of the downlink the CoMP pre-coding algorithm simulation)
该算法是迄今为止我找到的最好的最完整的单载波频域均衡的原理。众所周知,时域均衡一直是接收机的瓶颈能估,频域均衡则要简单的多。频域均衡使用基于块传输的机制,类似于OFDM,并且是单载波的。接收机十分完整,包含载波同步、帧同步等,最重要的均衡处理。(This algorithm is the best and the most complete single carrier frequency domain equalization principle I have found so far. As we all know, time domain equalization is always the bottleneck of the receiver, and frequency domain equalization is much simpler. Frequency domain equalization is based on block transmission mechanism, which is similar to OFDM and is single carrier. The receiver is very complete, including carrier synchronization, frame synchronization, and so on, the most important equalization processing.)