ominous world like me. I would sign him to some Dr Suresh, to make a formula to give me the power of Jesus. After killing him to not make copies of the formula and thus be the new and unique God of the modern era. Although it would create a broad cabinet healers to finalize with the disease in the world. To be a world dominator does not mean being a despotic dictator. A new instant social security (do you imagine queues to see a doctor? Would be the milk)
Thursday, November 20, 2008
Friday, September 26, 2008
System Identifier For General Entity
Took a long time without updating this news basically because many do not have the life of unemployed. But good has come ^ ^ ire
the 30th to sign the contract with the company (link by clicking on the picture):
begin the day Oct. 1 in the post of Engineer bait, ie work will not do anyone uu
6 months of contract and from what I have said if all goes well I renew, we know how it goes now, contracts for 6 in 6 months but good.
My task will be:
- Control of preventive maintenance: Target statistics which machines are broken, how often, that defective parts come out more often, etc..
- C
the 30th to sign the contract with the company (link by clicking on the picture):
begin the day Oct. 1 in the post of Engineer bait, ie work will not do anyone uu
6 months of contract and from what I have said if all goes well I renew, we know how it goes now, contracts for 6 in 6 months but good.
My task will be:
- Control of preventive maintenance: Target statistics which machines are broken, how often, that defective parts come out more often, etc..
- C
Tuesday, July 29, 2008
Friday, July 25, 2008
Thursday, July 17, 2008
Review Moonraker Antennas MOTO
Well since I updated for months that I decided to make to comment ^ ^ good news Tuesday
day before yesterday I went with my brother to do the theoretical bell of carnet A (motorcycle over 125cc) and both have approved;)
So now there is less to be officially biker:) Also
I decided on two wheels very pestles, when I can buy me:
------------ -------------------------------------------------- -----------------------------------
day before yesterday I went with my brother to do the theoretical bell of carnet A (motorcycle over 125cc) and both have approved;)
So now there is less to be officially biker:) Also
I decided on two wheels very pestles, when I can buy me:
------------ -------------------------------------------------- -----------------------------------
In another area of things, today I discovered this man :
The friar authentic metalhead (not a joke, it's real)
http://caminodemetal
The friar authentic metalhead (not a joke, it's real)
http://caminodemetal
Sunday, June 1, 2008
Star Wars Tv Dvd Combi raul_stark @ 2008-06-01T19: 19:00
Explotoooooooooooooooooo
What I did this afternoon
PS: If adiviniais that is the image of the explosion I shall give a prize
PD2: I put the post datas pq I doubt anyone here read the trash below XD
x = 100000;
num_muestra = input ('with that patient wants to work? 26 32 34 42 46 47 53 56''\\ n');
num_muestra = num_muestra * 1;
matrix_muestra
% = [1 26, February 1932, March 1934, April 1942, May 1946, June 1947, July 1953, August 1956];
% num_muestra = matrix_muestra (n_muestra, 2);
if num_muestra
== 26 & amp; nbsp; fid = fopen ('26 xls ',' r '.)
[vector, txt, raw] = xlsread ('26 xls.');
fid = fopen ('P26Sig.dat', 'r');
elseif num_muestra == 32
fid = fopen ('32 xls ','. r ');
[vector, txt, raw] = xlsread ('32 xls.'), fid = fopen
('P32Sig.dat', ' r ');
elseif num_muestra == 34
fid = fopen ('34 xls.', 'r');
[vector, txt, raw] = xlsread ('34 xls. ');
fid = fopen (' P34Sig.dat ','r ');
elseif num_muestra == 42
fid = fopen ('42 xls.', 'r');
[vector, txt, raw] = xlsread ('42 xls. ');
fid = fopen (' P42Sig.dat ',' r ');
elseif num_muestra == 46
fid = fopen ('46 xls', 'r'.)
[vector, txt, raw] = xlsread ('46 xls. '), fid = fopen
(' P46Sig.dat ',' r ');
elseif num_muestra == 47
fid = fopen ('47.xls ',' r ');
[vector, txt, raw] = xlsread ('47 xls.');
; fid = fopen ('P47Sig.dat', 'r');
elseif num_muestra == fid = 53
fopen ('53 xls ',' r '.)
[vector, txt, raw] = xlsread ('53 xls.');
fid = fopen ('P53Sig.dat', 'r');
elseif num_muestra == 56
; fid =fopen ('56. xls ',' r ');
[vector, txt, raw] = xlsread ('56. xls');
fid = fopen ('P56Sig.dat', 'r');
end
num_instante vector = input ('enter the moment''\\ n ');
inicio_segmento = vector (num_instante, 2);
final_segmento = vector (num_instante, 3);
% n = num_instante inicio_segmento
% n1 = n2 = final_segmento
%
r1 = rem (inicio_segmento, 100000);
r2 = rem (final_segmento, 100000);
counter = fix ((inicio_segmento) / 100000);
% counter = fix ((n1-r1) / 100000), -> Because it is not necessary to fix the
% remains of the division
% to avoid collapse of memory we calculate the vector
% 100,000 100,000 in figures. counter here would be the integer part of n1/100.000
for i = 1: counter
a = fread (fid, x, 'int16');
end mean = mean (a);
a2 = a-half;
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%%%%%%%%%%%%%%%%%%%%%%%%%% %%%%%%%%%%%%%%%%%% PLOT TO SEGMENT WE WANT %%%%%%%%%%%%%%%%%%%%%%%
%%%%%%%%%%%%%%%%%%%%%%%% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %
bi = 1;
b = zeros (r2-r1, 1);
for i = r1, r2
b (bi, 1) = a2 (i, 1);
bi = bi + 1;
end
%% b is the vector of the segment that we chose
% plot (b, 'k');
% axis ([xmin xmax 32 768 -32 768]);
% xlabel ('time (s)');
% desviacion_tipica = std (b);
figure (1)
if vector (num_instante, 4) ~ = 999
subplot (2,1,1) hold on
%
vector_ejex_absoluto = (counter * 100 000 +1:1: (counter +1) * 100000) ';
% plot (vector_ejex_absoluto, a2,' k ');
plot (a2,' k ');
title ([, ['segment', int2str (counter)], 'test 00000']);
% axis ([r1 r2 32 768 -32 768]);
xlabel ('time (s)') ;
plot ([r1, r1], [min (b) max (b)], 'r');
plot ([r2, r2], [min (b) max (b) ], 'r');
plot ([r1, r2], [min (b), min (b)], 'r');
plot ([r1, r2], [max (b) max (b)], 'r ');
hold off subplot (2,1,2)
plot (b,' k ') title
([,[' Segment from', int2str (inicio_segmento )], 'a', ['' int2str (final_segmento)], 'test']);
% axis ([n1 n2 32 768 -32 768]);
xlabel ('time (s) ');
else
plot (b,' k ');
([,[' Segment title', int2str (counter)], 'test 00000 32' ]);
axis ([xmin xmax 32 768 -32 768]);
xlabel ('time (s)');
end
%%%%%%%%%%%%%%% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% CHTML %%%%%%%%%%a = PX ';
else data = PX;
end;
tamano_PX = size (PX) M = tamano_PX
(1.1);
N = tamano_PX (1.2);
% New PSD parameters Probabilistic
%
mean index = 1: length (data);
pmean = sum (index. * data) / sum (data);
Probabilistic
%
index2 = standard deviation (index-pmean). ^ 2;
var = sum (index2. * data) / sum (data);
var = sqrt (var);
% Symmetry parameter (3rd moment)
index3 = (index-pmean). ^ 3;
Symmetry = sum (index3. * data) / sum (data);
% Median (f50%) and frequency spread (f95%)
datacum = cumSum (data);
f50 = index (datacum / datacum (length (datacum) )> 0.5);
f50 = f50 (1);
f95 = index (datacum / datacum(length(datacum)) > 0.95);
f95 = f95(1);
%Flatness measure (in f95%)
flatness = datacum(f95-1)/(max(data)*(f95-1));
%% NEW PARAMETERS
%Ratio of power above/below 800Hz
k800 = floor(800/deltaf);
pab800 = sum(data(k800:length(data)));
pbe800 = sum(data(1:k800-1));
ratio800 = pab800 / pbe800;
%Fraction of power in the 100-500Hz band
k100 = floor(100/deltaf);
k500 = floor(500/deltaf);
p100_500 = sum(data(k100:k500-1)) / sum(data);
%Same, normalized to the power out of 100-500 band
ratio100_500 = sum(data(k100:k500-1)) / ( sum(data(1:k100-1)) + sum(data (k500: length (data))));
% Below 500Hz Fraction of power
k500 = floor (500/deltaf)
pbe500 = sum (data (1: k500-1)) / sum (data); Same
%, normalized to the power Above 500Hz
ratio500 = sum (data (1: k500-1)) / sum (data (k500: length (data)));
% NEW! FPEAK
index = 1: length (data);
[m, i] = max (data);
FPEAK = i-1;
% return pars Results (1) = pmean * deltaf;
pars (2) = var * deltaf;
pars (3) = (abs (Symmetry)) ^ (1 / 3) * deltaf;
pars (4) = flatness * 1000;
pars (5) = f50 * deltaf;
pars (6) = f95 * deltaf;
pars (7) = ratio800 * 1000;
pars (8) = p100_500;
pars (9) = ratio100_500;
pars (10) = pbe500;
pars (11) = ratio500;
pars (12) = FPEAK * deltaf;
% PLOTS
% Calculate
frequency vector f = 0: (Fs / 2) / length (data) : (Fs / 2) / length (data) * (length (data) -1);
% Plot frequency waveform
figure (FIG);
subplot (M, N, SUBFIG)
plot (f, data, 'r');
% plot (f, 10 * log10 (data));
grid on a = axis;
axis ([f (1) f (length (f)) to (3) 1.2 * max (data)]);
xlabel ('frequency (Hz)');
title ('title');
drawing
% Parameters (MATLAB 4.2)
a = axis;
p = num2str (pars (1), 5);
p = ['fMean =' p 'Hz'];
text (0.5 * (a (2)-a (1)), a (4) -0.08 * (a (4)-a (3 )), p);
p = num2str (paras (2), 5);
p = ['Stdev = 'p' Hz '];
text (0.5 * (a (2)-a (1)), a (4) -0.16 * (a (4)-a (3)), p);
p = num2str (pars (3), 5);
p = ['Symmetry =' p];
text (0.5 * (a (2)-a (1)), a (4) -0.24 * (a ( 4)-a (3)), p);
p = num2str (pars (4), 5);
p = ['Flatness =' p];
text (0.5 * (a (2)-a ( 1)), a (4) -0.32 * (a (4)-a (3)), p);
p = num2str (pars (5), 5);
p = ['f (50%) = 'p' Hz '];
text (0.5 * (a (2)-a (1)), a (4) -0.40 * (a (4)-a (3)), p);
p = num2str (pars (6), 5);
p = ['f (95%) =' p 'Hz'];
text (0.5 * (a (2)-a (1)), a (4) -0.48 * (a (4)-a (3)), p);
p = num2str (pars (7), 5);
p = ['ratio800 =' p];
text (0.5 * (a (2)-a (1)), a (4) -0.56 * (a (4)-a (3)), p);
p = num2str (pars (8), 5);
p = [ 'p100-500 =' p];
text (0
num_muestra = input ('with that patient wants to work? 26 32 34 42 46 47 53 56''\\ n');
num_muestra = num_muestra * 1;
matrix_muestra
% = [1 26, February 1932, March 1934, April 1942, May 1946, June 1947, July 1953, August 1956];
% num_muestra = matrix_muestra (n_muestra, 2);
if num_muestra
== 26 & amp; nbsp; fid = fopen ('26 xls ',' r '.)
[vector, txt, raw] = xlsread ('26 xls.');
fid = fopen ('P26Sig.dat', 'r');
elseif num_muestra == 32
fid = fopen ('32 xls ','. r ');
[vector, txt, raw] = xlsread ('32 xls.'), fid = fopen
('P32Sig.dat', ' r ');
elseif num_muestra == 34
fid = fopen ('34 xls.', 'r');
[vector, txt, raw] = xlsread ('34 xls. ');
fid = fopen (' P34Sig.dat ','r ');
elseif num_muestra == 42
fid = fopen ('42 xls.', 'r');
[vector, txt, raw] = xlsread ('42 xls. ');
fid = fopen (' P42Sig.dat ',' r ');
elseif num_muestra == 46
fid = fopen ('46 xls', 'r'.)
[vector, txt, raw] = xlsread ('46 xls. '), fid = fopen
(' P46Sig.dat ',' r ');
elseif num_muestra == 47
fid = fopen ('47.xls ',' r ');
[vector, txt, raw] = xlsread ('47 xls.');
; fid = fopen ('P47Sig.dat', 'r');
elseif num_muestra == fid = 53
fopen ('53 xls ',' r '.)
[vector, txt, raw] = xlsread ('53 xls.');
fid = fopen ('P53Sig.dat', 'r');
elseif num_muestra == 56
; fid =fopen ('56. xls ',' r ');
[vector, txt, raw] = xlsread ('56. xls');
fid = fopen ('P56Sig.dat', 'r');
end
num_instante vector = input ('enter the moment''\\ n ');
inicio_segmento = vector (num_instante, 2);
final_segmento = vector (num_instante, 3);
% n = num_instante inicio_segmento
% n1 = n2 = final_segmento
%
r1 = rem (inicio_segmento, 100000);
r2 = rem (final_segmento, 100000);
counter = fix ((inicio_segmento) / 100000);
% counter = fix ((n1-r1) / 100000), -> Because it is not necessary to fix the
% remains of the division
% to avoid collapse of memory we calculate the vector
% 100,000 100,000 in figures. counter here would be the integer part of n1/100.000
for i = 1: counter
a = fread (fid, x, 'int16');
end mean = mean (a);
a2 = a-half;
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%%%%%%%%%%%%%%%%%%%%%%%%%% %%%%%%%%%%%%%%%%%% PLOT TO SEGMENT WE WANT %%%%%%%%%%%%%%%%%%%%%%%
%%%%%%%%%%%%%%%%%%%%%%%% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %
bi = 1;
b = zeros (r2-r1, 1);
for i = r1, r2
b (bi, 1) = a2 (i, 1);
bi = bi + 1;
end
%% b is the vector of the segment that we chose
% plot (b, 'k');
% axis ([xmin xmax 32 768 -32 768]);
% xlabel ('time (s)');
% desviacion_tipica = std (b);
figure (1)
if vector (num_instante, 4) ~ = 999
subplot (2,1,1) hold on
%
vector_ejex_absoluto = (counter * 100 000 +1:1: (counter +1) * 100000) ';
% plot (vector_ejex_absoluto, a2,' k ');
plot (a2,' k ');
title ([, ['segment', int2str (counter)], 'test 00000']);
% axis ([r1 r2 32 768 -32 768]);
xlabel ('time (s)') ;
plot ([r1, r1], [min (b) max (b)], 'r');
plot ([r2, r2], [min (b) max (b) ], 'r');
plot ([r1, r2], [min (b), min (b)], 'r');
plot ([r1, r2], [max (b) max (b)], 'r ');
hold off subplot (2,1,2)
plot (b,' k ') title
([,[' Segment from', int2str (inicio_segmento )], 'a', ['' int2str (final_segmento)], 'test']);
% axis ([n1 n2 32 768 -32 768]);
xlabel ('time (s) ');
else
plot (b,' k ');
([,[' Segment title', int2str (counter)], 'test 00000 32' ]);
axis ([xmin xmax 32 768 -32 768]);
xlabel ('time (s)');
end
%%%%%%%%%%%%%%% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% CHTML %%%%%%%%%%a = PX ';
else data = PX;
end;
tamano_PX = size (PX) M = tamano_PX
(1.1);
N = tamano_PX (1.2);
% New PSD parameters Probabilistic
%
mean index = 1: length (data);
pmean = sum (index. * data) / sum (data);
Probabilistic
%
index2 = standard deviation (index-pmean). ^ 2;
var = sum (index2. * data) / sum (data);
var = sqrt (var);
% Symmetry parameter (3rd moment)
index3 = (index-pmean). ^ 3;
Symmetry = sum (index3. * data) / sum (data);
% Median (f50%) and frequency spread (f95%)
datacum = cumSum (data);
f50 = index (datacum / datacum (length (datacum) )> 0.5);
f50 = f50 (1);
f95 = index (datacum / datacum(length(datacum)) > 0.95);
f95 = f95(1);
%Flatness measure (in f95%)
flatness = datacum(f95-1)/(max(data)*(f95-1));
%% NEW PARAMETERS
%Ratio of power above/below 800Hz
k800 = floor(800/deltaf);
pab800 = sum(data(k800:length(data)));
pbe800 = sum(data(1:k800-1));
ratio800 = pab800 / pbe800;
%Fraction of power in the 100-500Hz band
k100 = floor(100/deltaf);
k500 = floor(500/deltaf);
p100_500 = sum(data(k100:k500-1)) / sum(data);
%Same, normalized to the power out of 100-500 band
ratio100_500 = sum(data(k100:k500-1)) / ( sum(data(1:k100-1)) + sum(data (k500: length (data))));
% Below 500Hz Fraction of power
k500 = floor (500/deltaf)
pbe500 = sum (data (1: k500-1)) / sum (data); Same
%, normalized to the power Above 500Hz
ratio500 = sum (data (1: k500-1)) / sum (data (k500: length (data)));
% NEW! FPEAK
index = 1: length (data);
[m, i] = max (data);
FPEAK = i-1;
% return pars Results (1) = pmean * deltaf;
pars (2) = var * deltaf;
pars (3) = (abs (Symmetry)) ^ (1 / 3) * deltaf;
pars (4) = flatness * 1000;
pars (5) = f50 * deltaf;
pars (6) = f95 * deltaf;
pars (7) = ratio800 * 1000;
pars (8) = p100_500;
pars (9) = ratio100_500;
pars (10) = pbe500;
pars (11) = ratio500;
pars (12) = FPEAK * deltaf;
% PLOTS
% Calculate
frequency vector f = 0: (Fs / 2) / length (data) : (Fs / 2) / length (data) * (length (data) -1);
% Plot frequency waveform
figure (FIG);
subplot (M, N, SUBFIG)
plot (f, data, 'r');
% plot (f, 10 * log10 (data));
grid on a = axis;
axis ([f (1) f (length (f)) to (3) 1.2 * max (data)]);
xlabel ('frequency (Hz)');
title ('title');
drawing
% Parameters (MATLAB 4.2)
a = axis;
p = num2str (pars (1), 5);
p = ['fMean =' p 'Hz'];
text (0.5 * (a (2)-a (1)), a (4) -0.08 * (a (4)-a (3 )), p);
p = num2str (paras (2), 5);
p = ['Stdev = 'p' Hz '];
text (0.5 * (a (2)-a (1)), a (4) -0.16 * (a (4)-a (3)), p);
p = num2str (pars (3), 5);
p = ['Symmetry =' p];
text (0.5 * (a (2)-a (1)), a (4) -0.24 * (a ( 4)-a (3)), p);
p = num2str (pars (4), 5);
p = ['Flatness =' p];
text (0.5 * (a (2)-a ( 1)), a (4) -0.32 * (a (4)-a (3)), p);
p = num2str (pars (5), 5);
p = ['f (50%) = 'p' Hz '];
text (0.5 * (a (2)-a (1)), a (4) -0.40 * (a (4)-a (3)), p);
p = num2str (pars (6), 5);
p = ['f (95%) =' p 'Hz'];
text (0.5 * (a (2)-a (1)), a (4) -0.48 * (a (4)-a (3)), p);
p = num2str (pars (7), 5);
p = ['ratio800 =' p];
text (0.5 * (a (2)-a (1)), a (4) -0.56 * (a (4)-a (3)), p);
p = num2str (pars (8), 5);
p = [ 'p100-500 =' p];
text (0
Tuesday, May 20, 2008
Saturday, May 17, 2008
Refurbished Dvd Recorders raul_stark @ 2008-05-17T14:28:00
. You Have the talent of Channelling Your Energy Into Achieving What You Want, Even if the Goals Are very lofty. 10.44% of 2768 Quiz Participants Had this profile!
You Could Also get this result: For 27% you are: You are an Earth
bender! You are very rigid and hold your ground, Even if your opponent is formidable. Most of the time, you're ready for whatever life has in store for you. Or
events this one:
For 20% you are: You are an Air
bender! You very much value your freedom and dislike getting Into a heated situation. Whenever beneficial, you try to elude Unpleasant Consequences and STRIVE for a peaceful environment. CHT
mp; nbsp; D E
Our users got the profiles Following
You Could Also get this result: For 27% you are: You are an Earth
bender! You are very rigid and hold your ground, Even if your opponent is formidable. Most of the time, you're ready for whatever life has in store for you. Or
events this one:
For 20% you are: You are an Air
bender! You very much value your freedom and dislike getting Into a heated situation. Whenever beneficial, you try to elude Unpleasant Consequences and STRIVE for a peaceful environment. CHT
mp; nbsp; D E
Our users got the profiles Following
100% 75% 50%
25%
Profile A B C D E
|
ono 4. I will say something that only makes sense to you and me.