Short way to write this function?
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Hello,
Does anyone know of a solution to this problem?
function[y]=rayleigh_product(x,x2,x3,x4) % For up to 55 storm steps (threshold = 4 in the original case)
global SDSRp_ Tz_Tz_
y=(1-exp(-0.5*(x/SDSRp_(x2,x3,x4,1))^2))^(10800/Tz_Tz_(x4,2))...
*(1-exp(-0.5*(x/SDSRp_(x2,x3,x4,2))^2))^(10800/Tz_Tz_(x4,3))...
*(1-exp(-0.5*(x/SDSRp_(x2,x3,x4,3))^2))^(10800/Tz_Tz_(x4,4))...
*(1-exp(-0.5*(x/SDSRp_(x2,x3,x4,4))^2))^(10800/Tz_Tz_(x4,5))...
*(1-exp(-0.5*(x/SDSRp_(x2,x3,x4,5))^2))^(10800/Tz_Tz_(x4,6))...
*(1-exp(-0.5*(x/SDSRp_(x2,x3,x4,6))^2))^(10800/Tz_Tz_(x4,7))...
And it goes on till 55 parts. The code works now, but it would be useful to have the option of just doing the product of any number of functions. I.e, if I want to do the same analysys with a different data set.
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Walter Roberson
am 19 Mär. 2019
Bearbeitet: Walter Roberson
am 19 Mär. 2019
y = prod(arrayfun(@(IDX) 1-exp(-0.5*(x./SDSRp_(x2,x3,x4,IDX).^(10800./Tz_Tz_(x4,IDX+1)))), 1:55));
This assumes that SDSRp_ and Tz_Tz_ are functions. If they were arrays then there is more potential for vectorization.
Is it practical to rewrite the two functions to accept a vector for the last parameter?
3 Kommentare
José Antonio Torres
am 19 Mär. 2019
Walter Roberson
am 19 Mär. 2019
prod((1-exp(-0.5 *(x./SDSRp_(x2, x3, x4, 1:55)))).^(10800./Tz_Tz_(x4,1+(1:55))))
I think I had some brackets in the wrong place before.
José Antonio Torres
am 19 Mär. 2019
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