Documentation/Modules/BoundHandler
Inhaltsverzeichnis
Summary
Some optimizations require bounds on the design variables xxx. E.g. for the diameter of any mechanical support must be above a certain minimum value.
As not all optimization algorithms include bound handling, the module BoundHandler
was created.
Properties
General
Algorithm | deterministic |
---|---|
Design Variables | continuous variables, discrete or mixed variables are possible. |
Objectives | any number |
Constraints | any number |
Boundaries | Design variables values outside the boundaries are corrected |
Initial Search Region | not affected |
Typical X | not affected |
Initialization | not required |
Connections
Starting at his module | One connection of type optimization
|
---|---|
Ending at this module | One connection of type optimization
|
Actions
Name | Description |
---|---|
- | - |
Options
The options are currently described as "pop-up help".
Module Description
Any optimization algorithm proposes a new solution x. Some of the values of x might be outside the lower bounds xl and upper bounds xu, specified in the "Problem" module. These variables are corrected to values within the bounds by two different methods:
1. set to bounds
If one of the variables x is below or above the bounds, it is set to the bound value, i.e.
if x < xl, then x = xl else if x > xu, then x = xu
2. reflect
If one of the variables x is below or above the bounds, it is reflected from the bound. The reflection is done such that if x goes to infinity, x is equal to the lower bound and if x goes to minus infinity, it is set to the upper bound.
if x < xl, then x = xu + (xl- xu) / (x - xu) * (xl- xu);
else if x > xu, then x = xl + (xu- xl) / (x - xl) * (xu- xl)
Usage
-
Source Code
ToDo:Link to SVN
References
-