How simulate correlated Poisson distributions

9 visualizzazioni (ultimi 30 giorni)
Pete sherer
Pete sherer il 7 Ott 2018
Commentato: Jeff Miller il 17 Ott 2018
Hi Is there a way to simulate correlated RVs where each RV follows poisson distribution? I have 2 RVs X1 and X2, and both follow Poisson distribution. I would like simulate final results such that I can control correlation between X1 and X2. Either simulating straight correlated process or post-processing of 2 independent run would work.

Accedi per rispondere a questa domanda.

Risposta accettata

Bruno Luong
Bruno Luong il 7 Ott 2018
Modificato: Bruno Luong il 8 Ott 2018
One way is to apply Knuth's Poisson generation using two correlated uniform distribution.
n = 10000;
% correlation coef of uniform distribution
% NOT of the poisson, but they are monotonically related
Xcorr = 0.6;
M12 = 2 * sin(pi * Xcorr / 6);
M = [1, M12;
M12, 1];
C = chol(M);
% expectation value(s)
lambda = 4; % scalar or vector of 1x2
Y = zeros(n,2);
L = exp(-lambda);
C = C / sqrt(2);
for r=1:n
k = zeros(1,2);
p = ones(1,2);
b = p > L;
while any(p > L)
k = k+double(b);
X = (erf(randn(1,2)*C) + 1) / 2;
p = p .* X;
b = p > L;
end
Y(r,:) = k-1;
end
hist(Y,[0:12])
corrcoef(Y)
mean(Y)
  11 Commenti
Mostra 9 commenti meno recenti
Pete sherer
Pete sherer il 14 Ott 2018
Hi Bruno, By the way I was trying your code with alpha(shape)=1.0 and beta=2.0. I was hoping that i will get regular poisson back, but it seems not the case when comparing output with poissrnd.
Bruno Luong
Bruno Luong il 14 Ott 2018
Modificato: Bruno Luong il 14 Ott 2018
No, I use the definition as I stated above, to get the poisson one must have (
  • (beta -> 0)
  • (alpha*beta = lambda), so alpha -> infinity
In your test, I would put beta=0.1, alpha=20, that would simulates RV similar to Poisson with lambda=2.

Accedi per commentare.

Più risposte (2)

Jeff Miller
Jeff Miller il 8 Ott 2018
Modificato: Jeff Miller il 8 Ott 2018
You can do this with the RandGen class in Cupid . The code will look something like this:
NRVs = 2;
RVs = cell(NRVs,1);
RVs{1}=Poisson(23); % The Poisson parameter is the mean
RVs{2}=Poisson(12);
TargetCorrs = [1 0.3; 0.3 1]; % Replace 0.3 with whatever correlation you want.
mymultivar = RandGen(RVs,TargetCorrs,'Adjust','NSteps',500);
r=mymultivar.Rands(10000); % r is the array of random numbers with desired marginals & correlation
Look at DemoRandGen.m for more details.
  15 Commenti
Mostra 13 commenti meno recenti
Jeff Miller
Jeff Miller il 15 Ott 2018
No, you can't pass data, but I think you can get what you want anyway using the NegativeBinomial distribution (which I added to Cupid yesterday). Again, I refer you to Wikipedia which explains the equivalence. Here is a small script illustrating the equivalence:
alpha=4;
beta=22;
nSim=100000;
simLambda = gamrnd( alpha, beta, [nSim, 1]);
simVec= poissrnd( simLambda, [nSim, 1]);
figure; histogram(simVec)
% Equivalent negative binomial, according to https://en.wikipedia.org/wiki/Negative_binomial_distribution
p = 1/(1+beta);
nb = NegativeBinomial(alpha,p);
simVec2 = nb.Random([nSim,1]);
figure; histogram(simVec2);
For all values of alpha and beta that I have tried, the histograms look identical, so this might convince you of the equivalence even if the math in Wikipedia does not. I think this means you can get what you want using the NegativeBinomial, which is a regular cupid distribution.
Jeff Miller
Jeff Miller il 16 Ott 2018
Another option--just added--is to use a "List" random variable, which is defined by an arbitrary vector of discrete random values and another arbitrary vector of the probabilities of each value. You would get these values by random generation, more or less like this:
simLambda = gamrnd( alpha, beta, [nSim, 1]);
simVec= poissrnd( simLambda, [nSim, 1]);
[Xs, ~, addresses] = unique(simVec);
Counts = accumarray(addresses,1);
Ps = Counts / sum(Counts);
gpRV = List(Xs',Ps'); % Note transpose relative to unique & accumarray outputs
Now gpRV is a Cupid distribution object that you can assign to RV{1}, etc, and use with RandGen. It won't give you exactly the values in simVec, but it will give you values from the marginal distribution defined by simVec.

Accedi per commentare.

Pete sherer
Pete sherer il 17 Ott 2018
Is the List() function a default one? I got this error message
gpRV = List(Xs',Ps'); % Note tran
Undefined function 'List' for input arguments of type 'double'.
  2 Commenti
Pete sherer
Pete sherer il 17 Ott 2018
also
nb = NegativeBinomial(alpha,p);
Undefined function or variable 'NegativeBinomial'.
Jeff Miller
Jeff Miller il 17 Ott 2018
List and NegativeBinomial were both added to the repo since we started this discussion. If you just downloaded Cupid once at the beginning, you didn't get them, and you'll need to update to the latest version for these functions to be defined.

Accedi per commentare.

Categorie

Scopri di più su Binomial Distribution in Help Center e File Exchange

Tag

Community Treasure Hunt

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

Start Hunting!

Translated by