Calculating and plotting conditional distribution.

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Yuriy il 15 Ago 2022

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Commentato: Yuriy il 19 Ago 2022

Risposta accettata: Torsten

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Dear community,

I hope you are all good here. Could you please help me with a code for the next problem. I have the following code

lambda = 0.3;
p_bar = 1;
p_tilda = (1 - lambda)/(1 + lambda);
S = 0:0.01:p_tilda;
withoutReplacement = randperm(numel(S), 2); % Ask for 2 of the elements of S
S(withoutReplacement);
p1 = S(withoutReplacement(1));
p2 = S(withoutReplacement(2));
if p1 < p2 
pe1 = @(p1,p2) p1 * ((1 - lambda)/2 + lambda)  + p2 * ((1 - lambda)/2 + lambda);
pe2 = @(p1) p1 * ((1 - lambda)/2 + lambda) + p_bar * (1 - lambda)/2;
y1 = pe1(p1,p2);
y2 = pe2(p1);
else 
    y1 = 0;
    y2 = 0;
end

I generate two random values from the interval S and then calculate two functions if p1 < p2.

Now I want to calculate and plot a distribution for all possible values of y1 and y2 when p1 < p2. I assume that I should make a loop of many drawings for all p1 < p2, but my MathLab skills is not sufficient to do it. I hope someone knows how to code it. Cheers!

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Torsten il 15 Ago 2022

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You mean this

lambda = 0.3;

p_bar = 1;

p_tilda = (1 - lambda)/(1 + lambda);

S = 0:0.01:p_tilda;

n = 1000000;

icount = 0;

for i = 1:n

withoutReplacement = randperm(numel(S), 2); % Ask for 3 of the elements of S

p1 = S(withoutReplacement(1));

p2 = S(withoutReplacement(2));

if p1 < p2

icount = icount + 1;

y1(icount) = p1 * ((1 - lambda)/2 + lambda) + p2 * ((1 - lambda)/2 + lambda);

y2(icount) = p1 * ((1 - lambda)/2 + lambda) + p_bar * (1 - lambda)/2;

%else

% y1(i) = 0;

% y2(i) = 0;

end

figure(1)

ksdensity(y1)

hold on

ksdensity(y2)

hold off

or this

lambda = 0.3;

p_bar = 1;

p_tilda = (1 - lambda)/(1 + lambda);

S = 0:0.01:p_tilda;

n = 10000000;

for i = 1:n

withoutReplacement = randperm(numel(S), 2); % Ask for 3 of the elements of S

p1 = S(withoutReplacement(1));

p2 = S(withoutReplacement(2));

if p1 < p2

y1(i) = p1 * ((1 - lambda)/2 + lambda) + p2 * ((1 - lambda)/2 + lambda);

y2(i) = p1 * ((1 - lambda)/2 + lambda) + p_bar * (1 - lambda)/2;

else

y1(i) = 0;

y2(i) = 0;

end

figure(2)

ksdensity(y1)

hold on

ksdensity(y2)

hold off

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Yuriy il 16 Ago 2022

Modificato: Yuriy il 16 Ago 2022

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Hi Torsten! Thank you for the suggestions. I don't think it correctly illustrates what I am trying to plot. From my code you can see that for all p1 < p2 profits y1 < y2. So, I think that the plot should look like two inverted U-shape distributions where one always dominates another for all possible combinations when p1 < p2.

I tried to slighlty modify your code like this:

lambda = 0.3;
p_bar = 1;
p_tilda = (1 - lambda)/(1 + lambda);
S = 0:0.01:p_tilda;
n = 1000000;
for i = 1:n
    withoutReplacement = randperm(numel(S), 2); % Ask for 2 of the elements of S
    p1 = S(withoutReplacement(1));
    p2 = S(withoutReplacement(2));
    if p1 < p2 
        y1 = p1 * ((1 - lambda)/2 + lambda)  + p2 * ((1 - lambda)/2 + lambda);
        y2 = p1 * ((1 - lambda)/2 + lambda) + p_bar * (1 - lambda)/2;
        else 
            y1 = 0;
            y2 = 0;
    end 
end
figure(1)
ksdensity(y1)
hold on
ksdensity(y2)
hold off

And this looks more or less closer to my expecteations but I am not sure why it has negative values, because p1, p2, y1, y2 values are strrictly positive. I'd expect y1 curve be strictly dominating on the interval (0, p_tilda). Maybe you can tell what I am doing wrong here. Thanks a lot!

Yuriy il 19 Ago 2022

Thank you! I will create a new questions for 3d plots. Regarding probability - I model a competion in 2 periods, where two firms simultanesously draw prices from distribution

on interval ($\underbar{p}$ ,

) in the first period. The probability to draw a price which is lower than rival's price is

. Then the cheapest firm have the following options (whichever is better) in the second period:

Increase the price up to rival's price and get a profit y1;
Increse the price up to and get a profit y2.

All probable values of these two options I plotted here with your help. And it's only a part of my analysis.

The firm which draw higher price in the first period, always increase the price up to

in the second period, however if the cheapest firm chooses option y2, the expensive firm gets additional profits.

So, I am looking for

where firms are indifferent in the first period about its price, this means that such distribution of p will represent NE. For that I need to understand how

will look and what the lower and upper bound it will have. So far, I found that there are some point on the interval which I call

, which affects firms pricing strategies. But I am still looking for NE price distribution which will represent mixed strategies (if it exists).

Torsten il 19 Ago 2022

The 3d plot is complete (see code above).

Yuriy il 19 Ago 2022

Thank you!

Is it possible to plot y1 and y2 on the same graph to see how this surfaces interact (cross each other)? Same as it was on 2D plot before where I could see which one is dominating.

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