代码搜索:simulating
找到约 328 项符合「simulating」的源代码
代码结果 328
www.eeworm.com/read/199935/5074959
ref reedsolomon.ref
Number of Reed-Solomon code-words to simulate: 1000
BSC Error probability : 0.01
RS m: 3
RS t: 2
Simulating an Reed-Solomon code with the following parameters:
n = 7
k = 3
q = 8
The bit error probabil
www.eeworm.com/read/306879/3731662
ref reedsolomon.ref
Number of Reed-Solomon code-words to simulate: 1000
BSC Error probability : 0.01
RS m: 3
RS t: 2
Simulating an Reed-Solomon code with the following parameters:
n = 7
k = 3
q = 8
The bit error probabil
www.eeworm.com/read/283602/4077710
ref reedsolomon.ref
Number of Reed-Solomon code-words to simulate: 1000
BSC Error probability : 0.01
RS m: 3
RS t: 2
Simulating an Reed-Solomon code with the following parameters:
n = 7
k = 3
q = 8
The bit error probabil
www.eeworm.com/read/430037/1942768
m pr7_39.m
%Problem 7.39;
%Simulating asynchronous CDMA based on time-offset m-sequence signatures;
K=25; %maximal number of users;
mmax=80; %maximal delay;
n=ceil(log2(K*(mmax+1))); %memory of m-sequence;
www.eeworm.com/read/458682/7291424
sh twodim.sh
#!/bin/bash
# twodim.sh: Simulating a two-dimensional array.
# A one-dimensional array consists of a single row.
# A two-dimensional array stores rows sequentially.
Rows=5
Columns=5
# 5 X 5 Array.
www.eeworm.com/read/339483/12230637
sh twodim.sh
#!/bin/bash
# twodim.sh: Simulating a two-dimensional array.
# A one-dimensional array consists of a single row.
# A two-dimensional array stores rows sequentially.
Rows=5
Columns=5
# 5 X 5 Array.
www.eeworm.com/read/339293/12244867
m cold_init.m
% Generate steady-state data for column D
% Saves data in file cold_init.mat
%% Do this by simulating 20000 min with stabilized LV-model:
clear all
xoinit=0.5*ones(1,111);
Moinit=1*ones(1,109);
xal
www.eeworm.com/read/430037/1942753
m pr2_56.m
%Problem 2.56;
%Simulating dependence of time estimation accuracy on signal bandwidth;
clear all; close all;
t1=[0:0.01:2]; t2=[0:0.001:2.009]; N=length(t1); %time scales;
WD=[0 50]; %set deviat
www.eeworm.com/read/430037/1942771
m pr7_32.m
%Problem 7.32;
%Simulating fast frequency hopped spread spectrum modulation;
clear all; close all;
f0=1; %carrier frequency;
Tc=100; %chip duration;
S=[1,3,2,1,0,4]; N=length(S); Sov=kron(ones(
www.eeworm.com/read/392021/8366853
c simulatedsm.c
/* simulateDSM.c - A MEX-file for simulating a delta-sigma modulator
%[v,xn,xmax,y] = simulateDSM( u, ABCD, nlev[2], x0[0] )
% or
%[v,xn,xmax,y] = simulateDSM( u, ntf, nlev[2], x0[0] )
%
%Compute the