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You are changing the parameters of your your ODES discontinuously in time. This results in a very stiff system and less accurate or even completely wrong results. In this case, because the your ODE is so simple when I = 0, an adaptive solver like ode45 will take very large steps. Thus, there's a high probability that it will step right over the region where ...

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The code you have created works just fine. The only problem I see is n. From my experience, try n>=10000 for any function.

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Your code is refining to meet an error tolerance in each individual subinterval. It's also using a low-order integration rule. Improvements in both of these can significantly reduce the number of function evaluations. Rather than considering the error in each subinterval separately, more advanced codes compute the total error over all the subintervals and ...

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The problem lies in your choice of end x-coordinate and the number of slices you sum the area over: const double A = 0; const double B = 1000000000000; const int N = 10000; double deltaX = (B-A) / N; //100 million! When you do a discrete integration like this you want your deltaX to be small compared to how the function changes. I would guess the ...

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As I understand you made a mistake with the constants B and N. B - the number of years that a person can live with a certain probability and N is integration step. Therefore B should be relatively small (<100, because the probability that a person will live 50+100 years or more is extremely small) and N should be as large as possible. You can use ...

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There's a much simpler answer, use createOptimProblem to set up an optimization. You have to include bounds for every parameter using this method, but it becomes trivial to force a parameter to remain positive. Details here: http://www.mathworks.com/help/gads/createoptimproblem.html

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try to avoid using the variable name t since this is also the name of the R function "transpose" have a look at what happens when you enter 2*t in the console and compare that with e.g. 2*x_0

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