Intersection of piecewise defined functions.

Question

Max 2016-2-3

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https://ww2.mathworks.cn/matlabcentral/answers/266478-intersection-of-piecewise-defined-functions

评论： Walter Roberson 2016-2-3

采纳的回答： Walter Roberson

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Hello,

I would like to calculate the value for that two functions are equal:

function no. 1:

 F_2_origin_cond = (1-((1- wblcdf(t-delta12_origin,eta_hat_2,beta_hat))./(1-Age_t1_origin))).*(t>=2000);
 F_2_origin_cond = 0.*(t<2000);

function no. 2:

y=0.876;

Does somebody know if it is possible in MATLAB?

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Answer 1

Walter Roberson 2016-2-3

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By examination, the first function is 0 for all t < 2000 . That cannot possibly be 0.876. So the question comes down to finding (1-((1- wblcdf(t-delta12_origin,eta_hat_2,beta_hat))./(1-Age_t1_origin))) == 0.876 and if the answer is < 2000 then discard that answer.

F_2_origin_cond = @(t) (1-((1- wblcdf(t-delta12_origin,eta_hat_2,beta_hat))./(1-Age_t1_origin))) - 0.876;
t_target - fzero(F_2_origin_cond, [max(2000,deltal2_origin), inf])

The max() is there to select between the greatest of 2000 (the part at which the equation becomes valid) and delta12_origin, as wblcdf(t-delta12_origin,...) will be 0 for t < delta12_origin .

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Max 2016-2-3

Sorry, I get the fault. You´re right.

Walter Roberson 2016-2-3

probably a lower-case L vs digit-1 typo.

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Answer 2

John D'Errico 2016-2-3

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编辑：John D'Errico 2016-2-3

Of course it is possible.

Hint: subtract the two, then search for a root. This applies even if one of the functions is not constant, as it is here.

So, you could use a numerical solver. Or you could use a symbolic solver.

As far as the function being a piecewise one, that is not relevant, since for t < 2000, the function is trivially zero, therefore the two can never be equal in that domain. So all that matters is you find a root of the difference above 2000 for t.