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gold1
- 最大线性反馈移位寄存器产生的m序列和m序列优选对构成的Gold序列,以及matlab仿真程序。-Maximum linear feedback shift register produces m sequence and optimization of the sequence of m Gold sequence, and constitutes matlab simulation program.
cipper
- 随机生成判断条件,生成5级线性反馈移位寄存器,并输出五级的序列-Randomly generated to determine the conditions to generate five linear feedback shift register, and outputs a sequence of five
UHF-RFID-CRC
- 本文首先研究了IsO/IECl8000.6标准中A、B两类短程通讯的前向链路与返回 链路的数据编码方式,对(FMO)双相间隔编码、(PIE)脉冲间隔编码、曼切斯特码 的编解码方式和技术参数进行了深入的分析,并利用FPGA实验平台对这三种编 码的编、解码电路进行了设计和仿真。然后对UHF RFID系统的差错控制技术原理 进行了探讨,重点研究了ISo/IECl8000.6标准中采用的数据保护与校验技术,即 循环冗余校验(
LFSR
- 简单的线性反馈移位寄存器标准C语言实现,采用visual c++2010编写,如果你打不开,请复制里面的.cpp文件采用visual c++6.0打开即可。 详细内容见源码-Simple linear feedback shift register the standard C language, written with visual c++2010, and if you can not open, please copy th
Register
- 实现8位自主线性反馈移位寄存器。自主线性反馈移位寄存器具有二进制的抽头(tap)系数C1,...,CN,这些系数决定Y(N)是否被反馈给寄存器的特定级。-Achieve 8-bit linear feedback shift register independently. Autonomous linear feedback shift register with binary tap (tap) coefficients C1 ,..
prbs-FPGA
- 。本文 给出了基于线性反馈移位寄存器电路,并结合FPGA 的特有结构,设计了一种简捷而又高效的伪随机序列产生方法。-. In this paper, based on linear feedback shift register circuit, combined with the unique structure of the FPGA, the design of a simple and efficient method fo
111
- 用GAL16V8设计可变长度序列信号发生器,在掌握伪随机序列性质的基础上,设计给定长度的伪随机序列信号发生器,也即设计给定n后(n为移位寄存器的级数)最长线性反馈移位寄存器序列。并在给定n产生的最长序列的基础上,截短出课题给出的序列长度,并用FM软件对可编程器件GAL16V8进行编程,以实现长度不同的序列信号发生器。-GAL16V8 design variable-length sequence signal generator bas
msequence
- 利用线性反馈移位寄存器产生周期为2^n-1,任意长度的m序列-The linear feedback shift register cycle is 2 ^ n-1, any length m-sequences
lfsr_beh
- 线性反馈移位寄存器设计源码,用verilog语言描述-linear feedback shift register
rank_int
- Verilog写的产生32位随即数。通过seed产生随即数起始。通过线性反馈移位寄存器产生随机数。 -32 Verilog write the generated random number. Starting seed generated random number. By a linear feedback shift register to generate random numbers.
creater
- 在掌握伪随机序列性质的基础上,设计给定长度的伪随机序列信号发生器,也即设计给定n后(n为移位寄存器的级数)最长线性反馈移位寄存器序列。并在给定n产生的最长序列的基础上,截短出课题给出的序列长度,并用FM软件对可编程器件GAL16V8进 行编程,以实现长度不同的序列信号发生器。-Grasp on the basis of the nature of a pseudo-random sequence, the design given th
lfsr_randgen
- 利用线性反馈移位寄存器产生伪随机数,在通信系统中应用-Using a linear feedback shift register to generate pseudorandom numbers, the application in a communication system
mxulie
- 产生m序列的源代码,为5级线性反馈移位寄存器,有兴趣的可以-Generate the source code of the m-sequence, five linear feedback shift register, interested can look at
LFSR
- 序列密码--线性反馈移位寄存器--是密码学的基础,密码编程的前部分在这-Cipher- a linear feedback shift register- is based on cryptography, passwords in the first part of programming! !
LFSR
- 流密码算法C++实现,使用六级线性反馈移位寄存器,生成64位的密钥,在对数据进行加密,同时整合Socket编程,实现进程间加密通信。-C++ stream cipher algorithm implementation, using six linear feedback shift register to generate a 64-bit key to encrypt data at the same time integratin
eg_xianxing
- 线性反馈移位寄存器产生伪随机序列可编程分频器- Linear feedback shift register programmable divider generate pseudo random sequences
mima
- 基于c++ 的线性反馈移位寄存器的使用-Use c++ based linear feedback shift register
MseqGen
- M序列生成的matlab程序,m序列是目前CDMA系统中采用的最基本的PN序列。 是最长线性反馈移位寄存器序列的简称-M sequence generation matlab program, m sequence is the most basic PN sequence CDMA systems currently used. Is the longest linear feedback shift register sequenc
LFSR_Encryption
- C语言实现简单的线性反馈移位寄存器,并且用于文件的简单加密处理,使用VC6.0编写-C language implementation of a simple linear feedback shift register, and for simple file encryption process using VC6.0 write
geffe
- 标准的Geffe密钥流序列生成器,它由3个LFSR线性反馈移位寄存器和非线性组合子系统组成。供交流和学习。-Standard Geffe key stream sequence generators, which consists of three linear feedback shift register LFSR and nonlinear combination subsystems. For communication and