Defining a function for a vector of values, while keeping two variables unknown

21 Oct. 2021
4 Respuestas
Respuesta aceptada
Actualizado a las 22 Oct. 2021
4 Visualizaciones (30 días)

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I have created a function on matlab dependent on three variables, say:
f= @(x,y,z) f(x,y,z)
I have a vector of values for x, let's call it A. My goal is to estimate function:
So what I am looking for is a Matlab command which will allow me to calculate f(x,y,z) for each value of vector A, and then sum them together. Here are a few things I have tried that failed:
% Attempt #1: returns g as a number (0), rather than a function.
g = @(y,z) sum(f(A,y,z))
% Attempt #2: returns g as a number (0), rather than as a function.
g = @(y,z) cumsum(f(A,y,z))
% Attempt #3: doesn't recognize A as an input.
function g = g(y,z)
g = f(A,y,z)
end
I have checked and the issue lies in estimating f(A,y,Z), which immediately turns all values to 0. I know that a possible alternative to this is doing a manual sum of f(a_1,y,z) + f(a_2,y,z) etc, but there are 175 different numbers in vector A and coding this manually would take forever. Does anyone have any other ideas?

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Jon
Jon el 21 de Oct. de 2021
could you also please provide the code that defines your function f(x,y,z)
Laura Freitas
Laura Freitas el 21 de Oct. de 2021
Of course. Function f(x,y,z) in my code is actually function PV(y,x,i). i is a binary choice variable and y is next period value of x (which are both discrete). Prob(y,x,i) is a probability matrix defined below. At first I thought perhaps having so many functions inside other functions might be the root of the problem, but I have coded them as one big function and the problem persists.
u_0 = @(y) -theta_11*0.001*y;
u_1 = @(y) -RC;
EV0 = @(y,j) 0;
V = @(y) log(exp(u_0(y)+beta*EV0(y,0))+exp(u_1(y)+beta*EV0(y,1)));
PV = @(y,x,i) Prob(y,x,i)*V(y);
%Define the probability matrix.
function P = Prob(y,x,i)
if i==0 & x== 442212 & y == 447354
P = 0.3621 + 0.0143;
elseif i==0 & x== 444783 & y== 447354
P = 0.5152 + 0.3621 + 0.0143;
elseif i==0 & x== 447354 & y== 447354
P = 1;
elseif i == 1 & y==0
P = 1;
elseif i==0 & ((y-x)/2571)==0
P = 0.1071;
elseif i==0 & ((y-x)/2571)==1
P = 0.5152;
elseif i==0 & ((y-x)/2571)==2
P = 0.3621;
elseif i==0 & ((y-x)/2571)==3
P = 0.0143;
else
P = 0;
end;
end
Walter Roberson
Walter Roberson el 21 de Oct. de 2021
elseif i==0 & ((y-x)/2571)==1
You are asking for the floating point calculation (y-x)/2571 to exactly equal an integer. That is risky because of floating point round-off. You would be better off rewriting it by multiplying it out,
elseif i==0 & (y-x)==2571*1
Laura Freitas
Laura Freitas el 21 de Oct. de 2021
Thank you, that's a very good point!

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Walter Roberson
Walter Roberson el 22 de Oct. de 2021
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So I must achieve the function, EV(x,i), and then replace by the values of x and i
If you must achieve the function first, and then replace the placeholders later, then you need to use the symbolic toolbox and use piecewise()
The below is probably not correct. You say that you need to sum() but you did not define the dimension(s) you need to sum over.
theta_11 = 1
theta_11 = 1
beta = 2
beta = 2
RC = 8
RC = 8
u_0 = @(y) -theta_11*0.001*y;
u_1 = @(y) -RC;
EV0 = @(y,j) 0;
V = @(y) log(exp(u_0(y)+beta*EV0(y,0))+exp(u_1(y)+beta*EV0(y,1)));
PV = @(y,x,i) Prob(y,x,i).*V(y); % use .* since V is also now a vector
% make up some example values just to try code
i = 0
i = 0
x = 10
x = 10
y = [0, 3*2571 + x, 2*2571+x, 2571+x]
y = 1×4
0 7723 5152 2581
[yG, xG, iG] = ndgrid(y, x, i);
pv = arrayfun(PV, yG, xG, iG)
pv = 
sumPV = sum(pv, 1)
sumPV = 
function P = Prob(Y,X,I)
y = sym(Y); x = sym(X); i = sym(I);
P = piecewise( ...
i == 0 & x == 442212 & y == 447354, ...
0.3621 + 0.0143, ...
i == 0 & x == 444783 & y == 447354, ...
0.5152 + 0.3621 + 0.0143, ...
i == 0 & x == 447354 & y == 447354, ...
1, ...
i == 1 & y == 0, ...
1, ...
i == 0 & (y-x) == 0*2571, ...
0.1071, ...
i == 0 & (y-x) == 1*2571, ...
0.5152, ...
i == 0 & i == 0 & (y-x) == 2*2571, ...
0.3621, ...
i == 0 & i == 0 & (y-x) == 3*2571, ...
0.0143, ...
symtrue, ...
0 );
end

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Walter Roberson
Walter Roberson el 22 de Oct. de 2021
Note: I don't say that this is necessarily the best way -- just that this method matches the requirements you defined about defining the function first and then substituting in values.
Laura Freitas
Laura Freitas el 22 de Oct. de 2021
Thank you, that worked!

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Más respuestas (3)

Sulaymon Eshkabilov
Sulaymon Eshkabilov el 21 de Oct. de 2021
Editada: Sulaymon Eshkabilov el 21 de Oct. de 2021
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Supposedly, this is what you are trying to achieve:
syms y z
A = magic(3);
F = @(A, y, z) cumsum(A+y+z);
FF = (F(A, y,z))
FF = 

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Laura Freitas
Laura Freitas el 21 de Oct. de 2021
Thank you for the answer! However, this doesn't exactly fit my goal. I have a 1x175 vector:
And I already have a function defined: . I want to evaluate this function at each value of the vector for x. Basically I want to get vector:
I then want to sum up all values of this vector to get function:
.
Sorry if this was not clear the first time around!

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Sulaymon Eshkabilov
Sulaymon Eshkabilov el 21 de Oct. de 2021
Editada: Sulaymon Eshkabilov el 21 de Oct. de 2021

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% Here is the complete solution
syms y z
A =1:5;
F = @(A, y, z) sum(A+y+z);
FF = (F(A, y,z))

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Laura Freitas
Laura Freitas el 21 de Oct. de 2021
Thank you for trying again! However please note that is not a linear function, and so this approach does not work for my purposes. I tried to adapt your approach in my code in the following way:
g = @(A,y,z) sum(f(A,y,z))
And it returned a value of zero. Please note my comment above detailing the specifics of the code!

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Jon
Jon el 22 de Oct. de 2021

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One way to do what I think you want is to have the inner function, in your case PV(y,x,i) accept a vector argument for y and return a vector of values, pv. Then you can easily sum up the elements of pv using MATLAB's sum function.
Here is an attempt to illustrate this where I have appropriately modified your code snippet.
By the way your function EV0 seems to do nothing as it will always return zero, so then in your definition of your function V(y) the terms beta*EV0(y,0) are always zero. Doesn't seem to make much sense, but the main point is showing you how to have the function P accept and return a vector argument, and summing up the elements
% make up some example values just to try code
theta_11 = 1
beta = 2
RC = 8
u_0 = @(y) -theta_11*0.001*y;
u_1 = @(y) -RC;
EV0 = @(y,j) 0;
V = @(y) log(exp(u_0(y)+beta*EV0(y,0))+exp(u_1(y)+beta*EV0(y,1)));
PV = @(y,x,i) Prob(y,x,i).*V(y); % use .* since V is also now a vector
% make up some example values just to try code
i = 0
x = 10
y = [0, 3*2571 + x, 2*2571+x, 2571+x]
pv = PV(y,x,i)
sumPV = sum(pv)
% Define the probability matrix, to accept vector y
function P = Prob(y,x,i)
% preallocate output vector
P = zeros(size(y));
for k = 1:numel(P)
if i==0 && x== 442212 && y(k) == 447354
P(k) = 0.3621 + 0.0143;
elseif i==0 && x== 444783 && y(k)== 447354
P(k) = 0.5152 + 0.3621 + 0.0143;
elseif i==0 && x== 447354 && y(k)== 447354
P(k) = 1;
elseif i == 1 && y(k)==0
P(k) = 1;
elseif i==0 && (y(k)-x)==0*2571
P(k) = 0.1071;
elseif i==0 && (y(k)-x)==1*2571
P(k) = 0.5152;
elseif i==0 && i==0 && (y(k)-x)==2*2571
P(k) = 0.3621;
elseif i==0 && i==0 &&(y(k)-x)==3*2571
P(k) = 0.0143;
else
P(k) = 0;
end
end
end

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Laura Freitas
Laura Freitas el 22 de Oct. de 2021
Thank you for your answer! Just a couple of points:
  • EV0 = 0 for all y and j because this is the first part of a value iteration algorithm, where EV0 is my initial guess of EV(x,i). So while the formulation for the initial value EV0 may seem trivial, it is not, as this will come into play when defining the loop.
  • x and i are meant to remain unknown, so unfortunately this doesn't fully address my question.
Jon
Jon el 22 de Oct. de 2021
I don't know what you mean by saying x and i are meant to remain unknown. If you have a function Prob(y,x,i) certainly you must know the values of y, x, and i to evaluate it.
Laura Freitas
Laura Freitas el 22 de Oct. de 2021
I do, but not in the first stage. Again, this is a value iteration process. So I must achieve the function, EV(x,i), and then replace by the values of x and i. x and i are themselves vectors. x is a 1x175 vector, and i a 1x2.
Jon
Jon el 22 de Oct. de 2021
I'm sorry, I can't really follow the details of what you are trying to do here, but did my answer solve your problem?
Laura Freitas
Laura Freitas el 22 de Oct. de 2021
Thank you very much for trying, but unfortunately no. Then again, I think my method is probably not the best to go about this problem.

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Laura Freitas
Laura Freitas
el 21 de Oct. de 2021

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el 22 de Oct. de 2021

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