![]() | This article has multiple issues. Please help
improve it or discuss these issues on the
talk page. (
Learn how and when to remove these template messages)
|
In mathematics, the Griewank function is often used in testing of optimization. It is defined as follows: [1]
The following paragraphs display the special cases of first, second and third order Griewank function, and their plots.
The first order Griewank function has multiple maxima and minima. [2]
Let the derivative of Griewank function be zero:
Find its roots in the interval [−100..100] by means of numerical method,
In the interval [−10000,10000], the Griewank function has 6365 critical points.
![]() | This article has multiple issues. Please help
improve it or discuss these issues on the
talk page. (
Learn how and when to remove these template messages)
|
In mathematics, the Griewank function is often used in testing of optimization. It is defined as follows: [1]
The following paragraphs display the special cases of first, second and third order Griewank function, and their plots.
The first order Griewank function has multiple maxima and minima. [2]
Let the derivative of Griewank function be zero:
Find its roots in the interval [−100..100] by means of numerical method,
In the interval [−10000,10000], the Griewank function has 6365 critical points.