필터 지우기
필터 지우기

How to graph a convolution with same time length as inputs

조회 수: 11 (최근 30일)
Lilly
Lilly 2023년 10월 11일
댓글: Lilly 2023년 10월 12일
Hello,
So far this is my code. What I'm trying to do is plot Ci and Cp over time, but Ci is a convolution of Cp and v. Both Cp and v are of length 27, so Ci is of length 53 since it is a convolution. The issue I'm having here is that I don't know how to get an accurate representation of Ci when graphing since time is given by specific points (see t). These specific time points are also directly related to Cp. What's the best way to do this?
Thank you in advance!
%v denotes the exponential function
v=myfunction(t);
%conce is the function for Cp(t)
conce=Cp(t);
%CC is convolution of Cp(t)*the exponential function
CC=conv(conce,v);
%Ci is the convolution having the same size of the two input vectors
Ci=CC(1:27);
plot(t,Ci,t,conce);
title("Concentration over Time");
xlabel('Time (mins)');
ylabel('Concentration')
legend("Ci(t)","Cp(t)");
%Based on plot, it appears that the highest signal strength in the brain is
%around 39.93 minutes, which should be the best time to run the PET scan.
function conce=Cp(a)
t=[0,1.08,1.78,2.30,2.75,3.30,3.82,4.32,4.80,5.28,5.95,6.32,6.98,9.83,16.30,20.25,29.67,39.93,58,74,94,100,200,300,400,500,591];
conc=[0,84.9,230,233,220,236.4,245.1,230.0,227.8,261.9,311.7,321,316.6,220.7,231.7,199.4,211.1,190.8,155.2,140.1,144.2,139.737,111.3006,82.8375,54.3744,25.9113,0.0098];
conce=conc(t==a);
end
function v=myfunction(t);
k1=0.102;
k2=0.130;
k3=0.062;
k4=0.0068;
alpha1=(k2+k3+k4+(sqrt((k2+k3+k4)^2-(4*k2*k4))))/2;
alpha2=(k2+k3+k4-(sqrt((k2+k3+k4)^2-(4*k2*k4))))/2;
A=(k1*(k4+k3-alpha1))/(alpha2-alpha1);
B=(k1*(alpha2-k4-k3))/(alpha2-alpha1);
v=A*exp(-alpha1*t)+B*exp(-alpha2*t);
%Ci=Cp(t).*(A.*exp(-1*alpha1*t)+B.*exp(-1*alpha2*t));
end
  댓글 수: 2
Walter Roberson
Walter Roberson 2023년 10월 11일
Have you considered looking at the 'same' and 'valid' options of conv() ?
Lilly
Lilly 2023년 10월 11일
Hello, yes I have but the graph when using 'same' doesn't look the way that it should.

댓글을 달려면 로그인하십시오.

이 질문에 답변하려면 로그인하십시오.

채택된 답변

Matt J
Matt J 2023년 10월 11일
편집: Matt J 2023년 10월 11일
Ran in:
Convolution doesn't make sense if your time points are not equi-spaced. You should interpolate everything so that they are:
t=[0,1.08,1.78,2.30,2.75,3.30,3.82,4.32,4.80,5.28,5.95,6.32,6.98,9.83,16.30,20.25,29.67,39.93,58,74,94,100,200,300,400,500,591];
%v denotes the exponential function
v=myfunction(t);
%conce is the function for Cp(t)
cp=Cp(t);
dt=min(diff(t));
tnew=min(t):dt:max(t);
vnew=interp1(t,v,tnew);
cpnew=interp1(t,cp,tnew);
%CC is convolution of Cp(t)*the exponential function
Ci=conv(cpnew,vnew,'same')*dt;
plot(tnew,cpnew,tnew,Ci);
title("Concentration over Time");
xlabel('Time (mins)');
ylabel('Concentration')
legend("Cp(t)","Ci(t)");
%Based on plot, it appears that the highest signal strength in the brain is
%around 39.93 minutes, which should be the best time to run the PET scan.
function conce=Cp(a)
t=[0,1.08,1.78,2.30,2.75,3.30,3.82,4.32,4.80,5.28,5.95,6.32,6.98,9.83,16.30,20.25,29.67,39.93,58,74,94,100,200,300,400,500,591];
conc=[0,84.9,230,233,220,236.4,245.1,230.0,227.8,261.9,311.7,321,316.6,220.7,231.7,199.4,211.1,190.8,155.2,140.1,144.2,139.737,111.3006,82.8375,54.3744,25.9113,0.0098];
conce=conc(t==a);
end
function v=myfunction(t);
k1=0.102;
k2=0.130;
k3=0.062;
k4=0.0068;
alpha1=(k2+k3+k4+(sqrt((k2+k3+k4)^2-(4*k2*k4))))/2;
alpha2=(k2+k3+k4-(sqrt((k2+k3+k4)^2-(4*k2*k4))))/2;
A=(k1*(k4+k3-alpha1))/(alpha2-alpha1);
B=(k1*(alpha2-k4-k3))/(alpha2-alpha1);
v=A*exp(-alpha1*t)+B*exp(-alpha2*t);
%Ci=Cp(t).*(A.*exp(-1*alpha1*t)+B.*exp(-1*alpha2*t));
end
  댓글 수: 5
이전 댓글 3개 표시
Matt J
Matt J 2023년 10월 12일
편집: Matt J 2023년 10월 12일
Well, v is not a signal, but rather, a convolution kernel so it doesn't really "start" at a particular time. If we assume it is the impulse response of a causal system then, yes, we would normally assume everything starts at t=0.
Lilly
Lilly 2023년 10월 12일
Thank you guys! It makes sense.
I appreciate the help!

댓글을 달려면 로그인하십시오.

추가 답변 (0개)

카테고리

Help CenterFile Exchange에서 Line Plots에 대해 자세히 알아보기

태그

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!

Translated by