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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
bluetooth
- 蓝牙通信系统仿真设计和代码,分为四部分: 信号传输部分,信号接收部分,谱分析显示部分,误码分析部分-Bluetooth communication system simulation design and code, divided into four parts: part of the signal transmission, signal receiving part, spectral analysis shows that part of the error analysis se
springer_-_mimo.signals.and.systems
- MIMO signal and system 很好的一本书。 -A book on MIMO signal and system
TM320C54x(v2a.asm)
- ECE345, Visual-to-Audio Electronic Travel Aid Code for TM320C54x (v2a.asm) download This project involves the design and implementation of a audio synthesis device that converts moving images into audio signals. The system is built on a TM320C5
rng
- 通信系统中的噪声发生器,可用于CDMA信号源电路。-Communication system noise generator can be used for CDMA signal source circuit.
ssum
- 信号与系统试验仿真,一款交互式信号与系统计算机使用学习软件-Signal and system test simulation, a computer interactive system of signals and the use of learning software
SDR
- A software defined radio is a transmitter and receiver system that uses digital signal processing (DSP) for coding, decoding, modulating, and demodulating data. This project focused on using the IEEE 802.11a specification to create a software radio.T
2
- 此代码为基于USB接口的信号发生器系统软件部分,使用的硬件为PDIUSBD12 -This code is based on the USB interface signal generator system software components and the use of the hardware PDIUSBD12
OFDM-mimo
- MIMO_OFDM系统仿真,包括系统的设定,调制,编码,及信号检测的仿真-MIMO_OFDM system simulation, including system settings, modulation, coding, and signal detection simulation
DTMF5410
- DTMF 编解码器在编码时将击键或数字信息转换成双音信号并发送,解码时在收到的DTMF 信号中检测击键或数字信息的存在性.采用ccs2.2开发。运行在DES5410APP-U开发版上。 子程序_start_ac01,完成AD 及DSP 的多通道缓冲串口(McBSP)初始化。 子程序_iir_to_dtmf,通过由函数set_freq_coff()初始化的系数,分别迭代运算产生行 频和列频,该子程序计算出的两个频率信号样本值分别放入累加器a 和b,相加之 后作为新的一个音频样本发送
fir
- FIR(Finite Impulse Response)滤波器:有限长单位冲激响应滤波器,是数字信号处理系统中最基本的元件,它可以在保证任意幅频特性的同时具有严格的线性相频特性,同时其单位抽样响应是有限长的,因而滤波器是稳定的系统。因此,FIR滤波器在通信、图像处理、模式识别等领域都有着广泛的应用。-FIR (Finite Impulse Response) filters: finite impulse response filter unit, digital signal processi
WSD
- Based on the Duffing equation, a Duffing oscillator algorithm (DOA) to improve the signal-to-noise ratio (SNR) was presented. By simulated and experimental data sets, it was proven that the signal-to-noise ratio (SNR) of the weak signal could be gr
lms_rsl
- 利用lms算法和rls算法,对通过给定系统h的随机信号进行自适应滤波,通过抽头w对系统进行逆辨识与辨识,同时产生MSE 即均方误差,来描述对信号恢复的效果。-Using lms algorithm and rls algorithms h through a given system adaptive filtering of random signals, the system through the tap w reverse identification and recognition,
Ch3
- signal and system lecture note convolution
signal1
- 1、 熟悉理想采样的性质,了解信号采样前后的频谱变化,加深对采样定理的理解。 2、 熟悉离散信号和系统的时域特性。 3、 熟悉线性卷积的计算编程方法:利用卷积的方法,观察、分析系统响应的时域特性。 4、 掌握序列傅氏变换的计算机实现方法,利用序列的傅氏变换对离散信号、系统及系统响 应进行频域分析。 -1, familiar with the nature of the ideal sampling to understand the spectrum of the sign
normal
- 对两点通信系统高斯信号传输系统的仿真,可观察图形效果及添加人为噪声-Communication system of two Gaussian signal transmission system simulation can be observed in graphics and add artificial noise
MIMO-OFDM-Systems-Based-on-Preamble-
- MIMO OFDM 技术将成为第4 代移动通信系统的关键技术, 因MIMO OFDM 对时间和频率偏移非常敏感, 因此MIMO OFDM 同步显得尤为重要。提出了一种新的MIMO OFDM 定时同步和频偏同步技术。以GCL 序列为基础设 计了一个新的符合MIMO OFDM 同步技术的导频序列, 通过对该导频序列进行2 次相关得到频率估计, 并将所得频率 运用到定时同步中, 得到更为准确的时间估计
multipath_channel_pilot_multi_block
- 这是一个ofdm第四代通信过程的仿真,multipath channel, multiblock的signal, 嵌入了pilot.-a simulation of ofdm communication system, with multipath channel, multiblock signal, and with pilot
Prentice-Hall---Signal-Processing-With-Fractals-A
- Signal processing plays a central role of a truly enormous range of modem electronic systems. These include, for example, voice, data and video communication and storage systems medical imaging and diagnostic system radar, sonar and satellite remote
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.