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[Communication-Mobile] UWB_Fifth_Order_Derivative DL : 0: Models UWB TX and RX using BPSK fifth derivative. MATLAB Release: R13 Description: This m file models a UWB system using BPSK with the fifth order derivative of the gaussian pulse with correlation receiver and intgrator. -Models UWB TX and RX using BPSK fifth derivative. MATLAB Release : R13 Description : This file m models a UWB system using BPSK with the fifth order derivative of the Gaussian pulse with correlation receiver and intgrator.
Date : 2008-10-13 Size : 5.4kb User : 王琼
[Communication-Mobile] UWB_Monocycle DL : 0: This m-file displays the time waveform for the Gaussian pulse function and the first and second derivatives of the Gaussian pulse function for a 0.5 nanosecond pulse width. Other values of pulse widths may be used by changing fs,t,t1. The program uses the actual first and second derivative equations for the Gaussian pulse waveforms. The first derivative is considered to be the monocycle or monopulse as discussed in most papers. The second derivative is the waveform generated from a dipole antenna used in a UWB system. Other information is contained in the file. -This m-file displays the time waveform for the Gaussian pulse function and the first and second derivatives of the Gaussian pulse function for a 0.5 nanosecond pulse width. Other values of pulse widths may be used by changing fs, t, t1. The program uses the actual first and second derivative equations for the Gaussian pulse waveforms. The first derivative is considered to be the monocycle or monopulse as discussed in most papers. The second derivative is the waveform generated from a dipole antenna used in a UWB system. Other information is contained in the file.
Date : 2008-10-13 Size : 1.87kb User : 王琼
[Communication-Mobile] UWB_Fifth_Order_Derivative DL : 0: Models UWB TX and RX using BPSK fifth derivative. MATLAB Release: R13 Description: This m file models a UWB system using BPSK with the fifth order derivative of the gaussian pulse with correlation receiver and intgrator. -Models UWB TX and RX using BPSK fifth derivative. MATLAB Release : R13 Description : This file m models a UWB system using BPSK with the fifth order derivative of the Gaussian pulse with correlation receiver and intgrator.
Date : 2026-01-10 Size : 5kb User : 王琼
[Communication-Mobile] UWB_Monocycle DL : 0: This m-file displays the time waveform for the Gaussian pulse function and the first and second derivatives of the Gaussian pulse function for a 0.5 nanosecond pulse width. Other values of pulse widths may be used by changing fs,t,t1. The program uses the actual first and second derivative equations for the Gaussian pulse waveforms. The first derivative is considered to be the monocycle or monopulse as discussed in most papers. The second derivative is the waveform generated from a dipole antenna used in a UWB system. Other information is contained in the file. -This m-file displays the time waveform for the Gaussian pulse function and the first and second derivatives of the Gaussian pulse function for a 0.5 nanosecond pulse width. Other values of pulse widths may be used by changing fs, t, t1. The program uses the actual first and second derivative equations for the Gaussian pulse waveforms. The first derivative is considered to be the monocycle or monopulse as discussed in most papers. The second derivative is the waveform generated from a dipole antenna used in a UWB system. Other information is contained in the file.
Date : 2026-01-10 Size : 2kb User : 王琼
[Communication-Mobile] UWB_BPSK_Analysis DL : 0: WB_BPSK_Analysis.rar:BPSK modulation and link analysis of UWB monocycle and doublet waveforms.Revised 1/2/05-JC.This m file plots the time and frequency waveforms for BPSK 1st and 2nd derivative equations used in UWB system analysis. -WB_BPSK_Analysis.rar: BPSK modulation and link analysis of UWB monocycle and doublet waveforms.Revised 1/2/05-JC.This m file plots the time and frequency waveforms for BPSK 1st and 2nd derivative equations used in UWB system analysis.
Date : 2026-01-10 Size : 6kb User : 陈鹏
[Communication-Mobile] gmonopulse DL : 0: 高斯一阶导数生成的UWB单脉冲信号，脉冲宽度为0.5ns-Gaussian first derivative monopulse generated UWB signal, pulse width of 0.5ns
Date : 2026-01-10 Size : 1kb User : summer
[Communication-Mobile] UWbpulseandmultipathmodulation DL : 0: 在MATLAB中对超宽带波形设计中产生其前十五阶导数的仿真程序及多径传播的仿真程序-In MATLAB for the design of ultra-wideband waveform 15 produced its first derivative before the simulation program and the spread of multi-path simulation program
Date : 2026-01-10 Size : 3kb User : songyunxia
[Communication-Mobile] UWB_Image_Tx_Matlab_Code DL : 0: This source code simulates UWB based wireless Communication system which transmits color image over wireless medium. Modulation type: Pulse position modulation Pulse: second derivative of a Gaussian pulse Channel: AWGN Image: lib.jpg-This source code simulates UWB based wireless Communication system which transmits color image over wireless medium. Modulation type: Pulse position modulation Pulse: second derivative of a Gaussian pulse Channel: AWGN Image: lib.jpg
Date : 2026-01-10 Size : 82kb User :
[Communication-Mobile] Home DL : 0: While redistributing the Work or Derivative Works thereof, You may choose to offer, and charge a fee for, acceptance of support, warranty, indemnity, or other liability obligations and/or rights consistent with this License. However, in accepting such obligations, You may act only on Your own behalf and on Your sole responsibility, not on behalf of any other Contributor, and only if You agree to indemnify, defend, and hold each Contributor harmless for any liability incurred by, or claims asserted against, such Contributor by reason of your accepting any such warranty or additional liability.-While redistributing the Work or Derivative Works thereof, You may choose to offer, and charge a fee for, acceptance of support, warranty, indemnity, or other liability obligations and/or rights consistent with this License. However, in accepting such obligations, You may act only on Your own behalf and on Your sole responsibility, not on behalf of any other Contributor, and only if You agree to indemnify, defend, and hold each Contributor harmless for any liability incurred by, or claims asserted against, such Contributor by reason of your accepting any such warranty or additional liability.
Date : 2026-01-10 Size : 240kb User : hb
[Communication-Mobile] Gaussian_random_pulse_combination DL : 0: 这是UWB中的随机选择算法，包括产生高斯导函数，目标辐射掩盖，并画出最终信号的PSD，可作为脉冲信号产生的参考-This is a random selection algorithm in UWB, including the generation of the Gaussian derivative function, target radiation to cover up and draw the final signal PSD can be used as the pulse signal reference
Date : 2026-01-10 Size : 5kb User : chenlili
[Communication-Mobile] integrl DL : 0: This function computes the integral of F(X)DX where the integrand is specified at discrete points F spaced DX apart (F is a vector, DX is a scalar). Simpsons Rule is used, so that the error is O(dx^5*F4). (F4 is the 4th derivative of F).-This function computes the integral of F(X)DX where the integrand is specified at discrete points F spaced DX apart (F is a vector, DX is a scalar). Simpsons Rule is used, so that the error is O(dx^5*F4). (F4 is the 4th derivative of F).
Date : 2026-01-10 Size : 1kb User : bahman
[Communication-Mobile] qitvt DL : 0: This function is used to calculate the arbitrary function of the first order partial derivative (numerical methods), Three-phase photovoltaic inverter and network simulation, The signal spectral analysis and filtering.
Date : 2026-01-10 Size : 6kb User : hxqtexpi
[Communication-Mobile] iqmph DL : 0: This function is used to calculate the arbitrary function of the first order partial derivative (numerical methods), There are cycle detection, periodic testing, Through repeated training htvUobVlate have higher recognition rate.
Date : 2026-01-10 Size : 148kb User : yaofiuguikei