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[Communication-Mobile] UWB_Channel_model_IEEE_802_15_3a
DL : 0
The IEEE Multipath Channel block simulates an indoor UWB channel as described in \"A Channel Model for Ultrawideband Indoor Communications\" by J.R. Foerster, M. Pendergrass and A.F. Molisch, November 2003, and attempts to incorporate the processes used in their MATLAB scripts.-Multipath Channel block simulates an indoor UWB channel as described in "A Model for Ultrawideband Channel Communications Indoor" by J. R. Foerster, M. and A. Pendergrass F. Molisch EDN 2003, and attempts to incorporate the processes used in their MATLAB scripts.
Date : 2008-10-13 Size : 2.66kb User : 王琼
[Communication-Mobile] 几种编码方式
DL : 0
A. 产生一个长为1000的二进制随机序列,“0”的概率为0.8,”1”的概率为0.2;B. 对上述数据进行归零AMI编码,脉冲宽度为符号宽度的50%,波形采样率为符号率的8倍,画出前20个符号对应的波形(同时给出前20位信源序列);C. 改用HDB3码,画出前20个符号对应的波形;D. 改用密勒码,画出前20个符号对应的波形;E. 分别对上述1000个符号的波形进行功率谱估计,画出功率谱;F. 改变信源“0”的概率,观察AMI码的功率谱变化情况;-have a length of 1,000 random binary sequence, "0" with a probability of 0.8, "a" with a probability of 0.2; B. above zero AMI data coding, and pulse width of symbols width of 50%, waveform sampling rate Symbol rate for the eight times that he painted before the 20 symbols corresponding waveforms (also given before 20 Source sequence); C. HDB3 code switch to depict the former 20 symbols corresponding waveform; D. Miller to switch codes to depict the former 20 symbols corresponding waveform; E. respectively above 1,000 symbols for the power spectrum waveform estimated to depict the power spectrum; F. Change source "0" the probability to observe AMI code changes in the power spectrum;
Date : 2025-12-24 Size : 58kb User : 郭慧勤
[Communication-Mobile] UWB_Channel_model_IEEE_802_15_3a
DL : 0
The IEEE Multipath Channel block simulates an indoor UWB channel as described in "A Channel Model for Ultrawideband Indoor Communications" by J.R. Foerster, M. Pendergrass and A.F. Molisch, November 2003, and attempts to incorporate the processes used in their MATLAB scripts.-Multipath Channel block simulates an indoor UWB channel as described in "A Model for Ultrawideband Channel Communications Indoor" by J. R. Foerster, M. and A. Pendergrass F. Molisch EDN 2003, and attempts to incorporate the processes used in their MATLAB scripts.
Date : 2025-12-24 Size : 2kb User : 王琼
[Communication-Mobile] FM_AM_Modulation
DL : 0
这是一个关于AM和FM调制实现的MATLAB程序,内有详细注释,希望能对大家有所帮助。-on AM and FM modulation to achieve the MATLAB program, with detailed notes, The hope is to help everyone.
Date : 2025-12-24 Size : 3kb User : sun
[Communication-Mobile] Nakagamisim1
DL : 0
这是用matlab中的simulink仿真的Nakagami信道,对UWB研究者很有用。-This is in simulink with matlab simulation of Nakagami channel on UWB researchers useful.
Date : 2025-12-24 Size : 5kb User : crs
[Communication-Mobile] DigitalbasebandtransmissionsystemimplementationMAT
DL : 0
数字基带传输系统的MATLAB仿真实现 function [sampl,re_sampl]=system_1(A,F,P,D,snr,m,N) 输入变量A ,F,P分别为输入信号的幅度、频率和相位,D为量化电平数,snr 为信道信噪比,N为D/A转换时的内插点数;输出变量sampl为抽样后的输入 信号,re_sampl为恢复出的输入信号。 数字基带传输系统的MATLAB仿真实现 [sampl,quant,pcm]=a_d_1(A,F,P,D) [changed_ami]=signal_encod_1(pcm) [ami_after_channel]=channel_1(changed_ami,snr) [adjudged_ami]=adjudg_1(ami_after_channel,m) re_pcm=signal_decod_1(adjudged_ami) [re_voltag,re_sampl,re_sampl1]=d_a_1(re_pcm,sampl,D,N)-Digital baseband transmission system implementation MATLAB simulation function [sampl, re_sampl] = system_1 (A, F, P, D, snr, m, N) input variables A, F, P, respectively, for the input signal amplitude, frequency and phase , D to quantify the number of electric-ping, snr for the channel signal to noise ratio, N to D/A converter when the interpolation points output variables for the sample after Sampl input signal, re_sampl for the restoration of the input signal. Digital baseband transmission system simulation MATLAB implementation [sampl, quant, pcm] = a_d_1 (A, F, P, D) [changed_ami] = signal_encod_1 (pcm) [ami_after_channel] = channel_1 (changed_ami, snr) [adjudged_ami] = adjudg_1 (ami_after_channel, m) re_pcm = signal_decod_1 (adjudged_ami) [re_voltag, re_sampl, re_sampl1] = d_a_1 (re_pcm, sampl, D, N)
Date : 2025-12-24 Size : 4kb User : Joseph
[Communication-Mobile] This_one
DL : 0
Cooperative communication_power control a) Generate random binary sequence of +1’s and -1’s. (b) Given different Power to the source and the relay as well (c) Multiply the symbols with the channel and then add white Gaussian noise. (d) At any receiver(relay or destination), equalize (divide) the received symbols with the known channel (e) Perform hard-decision-decoding and count the bit errors (f) Plot the power given to both source(Ps) and relay(Pr) with both SNR and BER -Cooperative communication_power control a) Generate random binary sequence of+1’s and-1’s. (b) Given different Power to the source and the relay as well (c) Multiply the symbols with the channel and then add white Gaussian noise. (d) At any receiver(relay or destination), equalize (divide) the received symbols with the known channel (e) Perform hard-decision-decoding and count the bit errors (f) Plot the power given to both source(Ps) and relay(Pr) with both SNR and BER
Date : 2025-12-24 Size : 1kb User : tafa
[Communication-Mobile] convol
DL : 0
The following Matlab project contains the source code and Matlab examples used for 1 d covolution. In mathematics and, in particular, functional analysis, convolution is a mathematical operation on two functions f and g, producing a third function that is typically viewed as a modified version of one of the original functions, giving the area overlap between the two functions as a function of the amount that one of the original functions is translated.
Date : 2025-12-24 Size : 1kb User : m.master
[Communication-Mobile] OFDM source code
DL : 0
OFMD系统包含8个子载波,f=1Hz,子载波频率间隔为1Hz,每个子载波4-QAM,符号周期1s(The OFMD system contains 8 sub-carriers, f = 1 Hz, sub-carrier frequency interval is 1 Hz, 4-QAM per sub-carrier, symbol period 1s)
Date : 2025-12-24 Size : 273kb User : Neil2018
[Communication-Mobile] OFDMvsFOFDM
DL : 2
MATLAB仿真,对比OFDM与F-OFDM性能(Compare F-OFDM with OFDM using MATLAB)
Date : 2025-12-24 Size : 4kb User : LY01
[Communication-Mobile] FOFDM
DL : 1
利用Matlab软件来实现基于滤波的正交频分复用F-OFDM(use the matlab to achieve the F-OFDM)
Date : 2025-12-24 Size : 2kb User : yangkuo
[Communication-Mobile] BPSK_AWGN_rayleigh_code_interleave
DL : 0
搭建 BPSK+编码+交织仿真通信链路,仿真分析在不同信道条件下的不同译 码算法的误比特率性能。基于 matlab,搭建 BPSK+卷积编码+交织通信收发链路, 仿真参数如下: 1) 信源比特速率: 100 b R kbps = 2) 卷积编码:码率为 1/2,生成多项式为(561,753) 3) 译码方式:维特比译码(硬判决译码、软判决译码(8 比特量化)) 4) 交织:行列交织,交织器深度为 100bit,宽度为 10; 5) 仿真点数:106 1. 在 AWGN 信道下,仿真并绘出该系统在硬判决和软判决(3bit 量化)两 种译码方式下的信源误比特率曲线,并进行分析。 2. 设定某种交织器结构,在单径瑞利衰落信道( 100 d f Hz = )下,采用理 想信道估计,仿真并绘出该系统在有无交织、不同译码方式(硬判决和 软判决)时,在不同 0 b EN下的信源误比特率曲线,并进行分析。 3. 改变交织器结构,选择三种不同的交织深度(自行决定),在单径瑞利衰 落信道( 100 d f Hz = )下,仿真并绘出该系统在不同交织长度时,在不 同 0 b EN下的信源误比特率曲线,并进行分析。(Build a BPSK + encoding + interleaving simulation communication link, and analyze the different translations under different channel conditions The bit error rate performance of the code algorithm. Based on MATLAB, BPSK + convolutional coding + interleaved communication transceiver link is built, The simulation parameters are as follows: 1) source bit rate: 100 b r Kbps = 2))
Date : 2025-12-24 Size : 1kb User : 弹玻璃球
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