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I wanted to optimize the parameters of a function using the maximum likelihood method from the optimize functions in the Scipy Optimize library. The likelihood function is a little complex with 4 parameters I need to optimize. Also, there are complex numbers and functions in the likelihood function. Here is the function:

Note: Functions starting with "c" are from cmath

def llMeixner(a, b, m, d, x):
    return 2*d*log(2*cos(b/2)) - log(2*a*pi) - log(gamma(2*d)) + b*(sum((x-m)/a))/n + (1/n)*sum(log2((abs(cgamma2(d + (csqrt(complex(-1)))*((x-m)/a))))**2))

Below is my optimization function. I have actually tried all methods the library provides

def optimParms(ret):
    initialParms=[.01, -.1, .0001, .05]
    def objFunc(parms):
        return -llMeixner(a, b, m, d, ret)
    return minimize(objFunc, initialParms, method='nelder-mead', options={'xtol': 1e-8, 'disp': True})

"ret" I used in the function is a vector of two-year historical returns of the sp500. Since Python optimize functions are "minimize" I return -1* llMeixner(a, b, m, d, ret) to make it "maximize"

When I tried to optimize through my function above, it always fails. The error code is "ValueError: math domain error". I think it's because when the optimizer iteratively runs the optimization, it gets problem that some basic math error come, such as negative value in the "log" function etc.

I wrote the same functions in R as well and used "optim" function in R to estimate the parameters and it works well. I have tested the python functions, they are all fine except the optimization process.

Anyone have any thoughts to solve my issue?

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Either catch the math domain error and return nan, or use log from Numpy and gamma from scipy.special, which return nans instead of raising errors. GNU R has log(-1) == NaN. –  pv. Dec 19 '13 at 19:30
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