搜索资源列表
pic_mud(qpsk)
- 联合检测技术 可用于3G/B3G系统 而且采用了QPSK调制技术 并能生成与传统检测技术的对比图样 -detection technology can be used to 3G/B3G system and adopted a QPSK modulation technology and can generate and mass EC Detection Technology contrast images
digitalmod.rar
- 数字通信调制信号信号模拟系统 信号种类: MASK:2ASK,4ASK,8ASK MPSK:2PSK、4PSK、8PSK MFSK:2FSK、4FSK、8FSK 分连续相位CPFSK和离散相位DPFSK两种 MQAM:16QAM、32QAM、64QAM、128QAM OFDM:子载波数可任意选定,映射方式有BPSK、QPSK、4QAM、16QAM、32QAM、64QAM ,Digital communication system signal-signal analog modul
OFDM-QPSK-Modulation.rar
- 使用QPSK调制的正交频分复用(OFDM)系统的Simulink仿真OFDM Implementation using QPSK Modulation。,QPSK modulation using orthogonal frequency division multiplexing (OFDM) system in Simulink simulation of OFDM Implementation using QPSK Modulation.
AWGN-Rayleigh-BPSK-DSSS.rar
- 程序仿真了关于扩频系统在两种信道下的误码率,Process simulation of the spread spectrum system in about two channel BER
OFDM_SIM.rar
- OFDM系统仿真,采用各种调制方式(BPSK,QPSK,QAM8,QAM16,QAM32,QAM64),OFDM system simulation, using a variety of modulation (BPSK, QPSK, QAM8, QAM16, QAM32, QAM64)
threeway
- 对3条固定路径的AWGN多径信道中的QPSK系统进行BER性能仿真(不同p和delay 的取值来分别定义莱斯(瑞利)平坦衰落信道、莱斯(瑞利)频率选择性衰落信道).-For three fixed-path multipath AWGN channel of the QPSK system BER performance simulation (different values for p and the delay are defined Rice (Rayleigh) flat fading
QPSK_BPSK
- 这个源程序代码包提供了通信系统中BPSK,QPSK调制解调方式 用matlab的实现,误码率性能-The source code package provides a communication system BPSK, QPSK modulation and demodulation method using matlab implementation, bit error rate performance
threeray
- 仿真具有三条固定信道的AWGN多径信道的QPSK系统的BER性能,并与理想信道进行比较-The simulation has three fixed AWGN channel multi-path channel of QPSK system BER performance and the ideal channel for comparison
DCS
- 用VC模拟数字通信系统,包括信源产生、噪声产生、QPSK调制,16PSK调制和计算误码率等。-VC simulated using digital communications system, including the letter of the source of generation, noise, QPSK modulation, 16PSK modulation and bit error rate calculation.
works
- QPSK系统在无线通信信道中的仿真,通过对有若干条(大于2条)路径的无线多径衰落信道中的QPSK系统进行误码率性能仿真,并在与理想的高斯加性白噪声信道中同样系统的BER性能进行比较,利用SA方法给出本仿真模型的仿真结果-QPSK system in the wireless communications channel simulation, through a number of articles (more than 2) the path of wireless multi-path fa
BERfangzhen
- 在这个例子中,我们对有三条固定路径的AWGN多径信道中的QPSK系统进行BER性能仿真,并与在理想的AWGN信道(没有多径)中同样系统的BER性能进行比较。-In this example, we have three fixed-path multipath AWGN channel QPSK system BER performance simulation, and in an ideal AWGN channel (no multipath) in the same system BER
QPSK_Rayleigh_AWGN
- Rayleigh Fading and AWGN Influence on the QPSK System,using C language to simulate
qpsk
- 通信系统的信道模型,通过此单载波QPSK系统是采用一个正弦形振荡作为载波-Communication system channel model, adopted by the single-carrier QPSK system is used as a carrier and a sinusoidal oscillation
qpsk
- 为了使数字信号在有限带宽的高频信道中传输,必须对数字信号进行载波调制。就频带利用率和抗噪声性能(或功率利用率)两个方面来看, QPSK系统最佳。QPSK是利用载波的四种不同相位差来表征输入的数字信息,是四进制移相键控(QPSK)。本项目用MATLAB软件对四进制移相键控信号在AWQN信道中传输进行了建模和仿真,通过对仿真得到的误码率和理论误码率进行比较和分析,从而证明了MATLAB软件仿真QPSK调制解调的可行性。-In order to make the digital signal in t
QPSK
- QPSK系统的调制与解调与误码率分析附带所有子程序,实现对双极性信号的MATLAB系统仿真。-QPSK system modulation and demodulation and with all subroutine ber analysis, and to realize the dual polarity signal system simulation of MATLAB.
QPSK
- 对QPSK系统进行仿真分析,包括理想信道、高斯白噪声信道、先经过瑞利衰落信道再通过高斯白噪声信道的仿真-QPSK system simulation and analysis, including the ideal channel, white Gaussian noise channel, the first after the Rayleigh fading channel and white Gaussian noise channel simulation
QPSK-system-simulation
- 基于MATLAB的QPSK仿真设计与实现-QPSK simulation design based on MATLAB
QAM and QPSK MATLAB
- Quadrature Amplitude Modulator (QAM) in digital communication system, generation of Quadrature Phase Shift Keyed (QPSK or 4-PSK) signal and demodulation. Introduction: The QAM principle: The QAM modulator.
QPSK&OFDM
- 基于 MATLAB 对移动通信中的 BPSK、QPSK、16QAM 和 OFDM 基带传输系统进行仿真,分析它们在 AWGN 和 Rayleigh 信道下的误码率性能。重点建立了基于 QPSK 和 16QAM 调制方式下 OFDM 系统的仿真,比较两种调制方式在 Rayleigh 信道下的传输性能,分析了系统模型,提出了代码优化方案。(Based on MATLAB, we simulate the BPSK, QPSK, 16QAM and OFDM baseband transmission
Etude sur la simulation QPSK_docx
- Simulation of the program to realize the transmission of the QPSK system