<?xml version='1.0' encoding='UTF-8' ?>
<!DOCTYPE html
  SYSTEM "about:legacy-compat">
<html xmlns:mml = "http://www.w3.org/1998/Math/MathML" lang = "en"><head><meta charset = "UTF-8"/><meta name = "copyright" content = "(C) Copyright 2020"/><meta name = "DC.rights.owner" content = "(C) Copyright 2020"/><meta name = "DC.type" content = "task"/><meta name = "abstract" content = "You can define the Displacement Optimization Task to get a structure with a minimum deflection or rotation. In case that the displacement at a node with a load is to be minimized, the problem is identical to the maximization of the stiffness."/><meta name = "description" content = "You can define the Displacement Optimization Task to get a structure with a minimum deflection or rotation. In case that the displacement at a node with a load is to be minimized, the problem is identical to the maximization of the stiffness."/><meta name = "DC.format" content = "HTML5"/><meta name = "DC.identifier" content = "tso-t-user-TopOpt-StaAna-MinDispVolCon"/><meta name = "DC.language" content = "en"/><link rel = "stylesheet" type = "text/css" href = "../DSDocUI_XML34.css"/><title>Defining the Displacement Optimization Task</title>
<script type = "text/javascript" src = "../DSDocUI_Highlight34.js">
  	/* */
  	</script></head><body onLoad = "highlightSearchTerms();" id = "tso-t-user-TopOpt-StaAna-MinDispVolCon">
<a name = "hj-top"> </a><table class = "table1" id = "table11"><tr><td><table class = "DocHeader"><tr><td class = "DocHeader1" colspan = "2"><h1>Defining the Displacement Optimization Task </h1></td></tr><tr><td class = "DocHeader4" colspan = "2"/></tr><tr><td class = "DocHeader3" colspan = "2"><table class = "DocThemeIntro" id = "table12"><tr><td class = "Intro1Only"><p class = "header"><p class = "abstract">
<span class = "shortdesc">
You can define the Displacement Optimization Task to get a structure with a
minimum deflection or rotation. In case that the displacement at a
node with a load is to be minimized, the problem is identical to the
maximization of the stiffness.
</span>

</p>
<p>This task shows you how to:
					</p><ul><li><a href = "#tso-t-user-TopOpt-StaAna-MinDispVolCon-gui" id = "toc_rg" title = "">
Define the Displacement Optimization Task in <span class = "ph">Tosca Structure.gui</span>
</a></li></ul>
</p></td></tr></table></td></tr></table>




<article class = "topic task nested1" aria-labelledby = "ariaid-title2" id = "tso-t-user-TopOpt-StaAna-MinDispVolCon-gui">
<h2 class = "title topictitle2">
Define the Displacement Optimization Task in <span class = "ph">Tosca Structure.gui</span>
</h2>

<div class = "body taskbody">
<section><ol class = "ol steps"><li class = "li step stepexpand">

Choose <span class = "ph menucascade"><span class = "ph uicontrol">Command</span><abbr title = "and then"> &gt; </abbr><span class = "ph uicontrol">DRESP</span></span>.

</li><li class = "li step stepexpand">

Define and reference the displacement design response
in <span class = "ph uicontrol">OBJ_FUNC</span> as shown in the figure below:

<p>
<br/><img border = "1" class = "image" id = "tso-t-user-TopOpt-StaAna-MinDispVolCon-gui__image_39DE79094A844D1D94A0739FB76FE4B8" src = "../TsoUserImages/ag097348.jpg" width = "450"/><br/>
</p>
<div class = "itemgroup stepresult">
The objective function is defined as the minimization problem of
the defined design response.
</div>
</li></ol></section>
</div>

</article>
	

</td></tr></table><script type = "text/javascript" src = "../DSDocUI_Bottom34.js">/* */</script></body>
</html>
