搜索资源列表
viterbi_binary_hard
- (3,1,4)卷积码的viterbi硬判决的源代码,通过高斯信道的误码率-(3,1,4) Convolutional Codes Viterbi hard decisions source code, the Gauss channel BER
script_ber_bpsk_convolutional_code_viterbi_decode
- scr ipt for computing the BER for BPSK modulation in AWGN with Hard and Soft decision Viterbi decoding with traceback
8aryQAM
- scr ipt for computing BER with Binary Convolutional Code and Viterbi decoding. Convolutional code of Rate-1/2, Generator polynomial - [7,5] octal Hard decision and soft decison decoding is used. -scr ipt for computing BER with Binary Conv
BharrddecisiiP
- 使用汉明码的BPSK仿真程序源码,译码使使用硬判决,仿真给出误码率曲线 -Hamming BPSK simulation program source code, decoding using hard decision, the simulation shows that the BER curves
217viterbi(matlab)
- matlab实现217 viterbi译码(硬判决,可直接运行,得到BER曲线)-matlab codes achieve 217 viterbi decoding (hard decision,can be run directly to obtain BER curve)
217viterbi-decoding(C-language)
- C语言实现217卷积码的viterbi译码(软、硬判决的代码都有,运行时先在VC中分别运行软、硬判决的C程序,产生误比特率的数据并存储在.txt文件中,之后在matlab中读取数据,画出误比特率曲线,matlab程序也已给出)-C language achieve 217 viterbi decoding (including hard and soft decision,and the codes should be run in VC to generate and store the BE
huigan
- 基于matlab GUI界面设计,给出接收信号眼图及系统仿真误码率,比较了软阈值,硬阈值及当今各种阈值计算方法。- Based on matlab GUI interface design, The received signal is given eye and BER simulation systems, Comparison of soft threshold and hard threshold and today various threshold calculation metho