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author | Daniele Nicolodi <nicolodi@science.unitn.it> |
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date | Mon, 05 Dec 2011 16:20:06 +0100 |
parents | f0afece42f48 |
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<!-- $Id: class_desc_ao_content.html,v 1.16 2011/05/12 19:47:55 ingo Exp $ --> <!-- ================================================== --> <!-- BEGIN CONTENT FILE --> <!-- ================================================== --> <!-- ===== link box: Begin ===== --> <p> <table border="1" width="80%"> <tr> <td> <table border="0" cellpadding="5" class="categorylist" width="100%"> <colgroup> <col width="37%"/> <col width="63%"/> </colgroup> <tbody> <tr valign="top"> <td> <a href="class_desc_ao.html#top_properties">Properties</a> </td> <td>Properties of the class</td> </tr> <tr valign="top"> <td> <a href="class_desc_ao.html#top_methods">Methods</a> </td> <td>All Methods of the class ordered by category.</td> </tr> <tr valign="top"> <td> <a href="constructor_examples_ao.html">Examples</a> </td> <td>Some constructor examples</td> </tr> </tbody> </table> </td> </tr> </table> </p> <!-- ===== link box: End ====== --> <!-- ===== Back to Class descriptions ===== --> <a href="class_desc_main.html"> <img src="doc_to_top_up.gif" border="0" align="bottom" alt="Back to Class descriptions"/> Back to Class descriptions </a> <h2 class="title"><a name="top_properties"/>Properties</h2> <p> The LTPDA toolbox restrict access of the properties.<br></br> The get access is 'public' and thus it is possible to get the values with the dot-command (similar to structures).<br></br> <pre class="programlisting">For example:<br></br>val = obj.prop(2).prop;</pre> The set access is 'protected' and thus it is only possible to assign a value to a property with a set-method. <pre class="programlisting"> For example: obj2 = obj1.setName(<span class="string">'my name'</span>) <span class="comment">% This command creates a copy of obj1 (obj1 ~= obj2)</span> obj.setName(<span class="string">'my name'</span>); <span class="comment">% This command applies to obj</span> </pre> </p> <!-- ===== Properties ===== --> <p> <table cellspacing="0" class="body" cellpadding="2" border="0" width="80%"> <colgroup> <col width="15%"/> <col width="73%"/> <col width="12%"/> </colgroup> <thead> <tr valign="top"> <th class="categorylist">Properties</th> <th class="categorylist">Description</th> <th class="categorylist">Defined in class</th> </tr> </thead> <tbody> <!-- Property: 'data' --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao.data')">data</a></p> </td> <td bgcolor="#f3f4f5"> <p>Data object associated with this AO</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- Property: 'hist' --> <tr valign="top"> <td> <p><a href="matlab:doc('ao.hist')">hist</a></p> </td> <td> <p>History of the object (history object)</p> </td> <td> <p>ltpda_uoh</p> </td> </tr> <!-- Property: 'procinfo' --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao.procinfo')">procinfo</a></p> </td> <td bgcolor="#f3f4f5"> <p>plist with additional information for an object.</p> </td> <td bgcolor="#f3f4f5"> <p>ltpda_uoh</p> </td> </tr> <!-- Property: 'plotinfo' --> <tr valign="top"> <td> <p><a href="matlab:doc('ao.plotinfo')">plotinfo</a></p> </td> <td> <p>plist with the plot information</p> </td> <td> <p>ltpda_uoh</p> </td> </tr> <!-- Property: 'name' --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao.name')">name</a></p> </td> <td bgcolor="#f3f4f5"> <p>name of the object</p> </td> <td bgcolor="#f3f4f5"> <p>ltpda_uo</p> </td> </tr> <!-- Property: 'description' --> <tr valign="top"> <td> <p><a href="matlab:doc('ao.description')">description</a></p> </td> <td> <p>description of the object</p> </td> <td> <p>ltpda_uo</p> </td> </tr> <!-- Property: 'mdlfile' --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao.mdlfile')">mdlfile</a></p> </td> <td bgcolor="#f3f4f5"> <p>model xml file of the LTPDAworkbench</p> </td> <td bgcolor="#f3f4f5"> <p>ltpda_uo</p> </td> </tr> <!-- Property: 'UUID' --> <tr valign="top"> <td> <p><a href="matlab:doc('ao.UUID')">UUID</a></p> </td> <td> <p>Universally Unique Identifier of 128-bit</p> </td> <td> <p>ltpda_uo</p> </td> </tr> </tbody> </table> </p> <!-- ===== Top of page ===== --> <a href="#top_of_page"> <img src="doc_to_top_up.gif" border="0" align="bottom" alt="Back to Top"/> Back to Top </a> <h2 class="title"><a name="top_methods"/>Methods</h2> <!-- ===== link box: Begin ===== --> <p> <table border="1" width="80%"> <tr> <td> <table border="0" cellpadding="5" class="subcategorylist" width="100%"> <colgroup> <col width="37%"/> <col width="63%"/> </colgroup> <tbody> <tr valign="top"> <td> <a href="class_desc_ao.html#arithmetic_operator">Arithmetic Operator</a> </td> <td>Arithmetic Operator</td> </tr> <tr valign="top"> <td> <a href="class_desc_ao.html#constructor">Constructor</a> </td> <td>Constructor of this class</td> </tr> <tr valign="top"> <td> <a href="class_desc_ao.html#converter">Converter</a> </td> <td>Convertor methods</td> </tr> <tr valign="top"> <td> <a href="class_desc_ao.html#helper">Helper</a> </td> <td>Helper methods only for internal usage</td> </tr> <tr valign="top"> <td> <a href="class_desc_ao.html#internal">Internal</a> </td> <td>Internal methods only for internal usage</td> </tr> <tr valign="top"> <td> <a href="class_desc_ao.html#operator">Operator</a> </td> <td>Operator methods</td> </tr> <tr valign="top"> <td> <a href="class_desc_ao.html#output">Output</a> </td> <td>Output methods</td> </tr> <tr valign="top"> <td> <a href="class_desc_ao.html#relational_operator">Relational Operator</a> </td> <td>Relational operator methods</td> </tr> <tr valign="top"> <td> <a href="class_desc_ao.html#signal_processing">Signal Processing</a> </td> <td>Signal processing methods</td> </tr> <tr valign="top"> <td> <a href="class_desc_ao.html#trigonometry">Trigonometry</a> </td> <td>Trigometry methods</td> </tr> </tbody> </table> </td> </tr> </table> </p> <!-- ===== link box: End ====== --> <!-- ===== Top of page ===== --> <a href="#top_of_page"> <img src="doc_to_top_up.gif" border="0" align="bottom" alt="Back to Top"/> Back to Top </a> <!-- ===== Methods Category: Arithmetic_Operator ===== --> <h3 class="title"><a name="arithmetic_operator"/>Arithmetic Operator</h3> <p> <table cellspacing="0" class="body" cellpadding="2" border="0" width="80%"> <colgroup> <col width="15%"/> <col width="73%"/> <col width="12%"/> </colgroup> <thead> <tr valign="top"> <th class="categorylist">Methods</th> <th class="categorylist">Description</th> <th class="categorylist">Defined in class</th> </tr> </thead> <tbody> <!-- ao/and --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/and')">and</a></p> </td> <td bgcolor="#f3f4f5"> <p>AND (&) overloads the and (&) method for analysis objects.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/minus --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/minus')">minus</a></p> </td> <td> <p>MINUS implements subtraction operator for analysis objects.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/mpower --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/mpower')">mpower</a></p> </td> <td bgcolor="#f3f4f5"> <p>MPOWER implements mpower operator for analysis objects.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/mrdivide --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/mrdivide')">mrdivide</a></p> </td> <td> <p>MRDIVIDE implements mrdivide operator for analysis objects.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/mtimes --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/mtimes')">mtimes</a></p> </td> <td bgcolor="#f3f4f5"> <p>MTIMES implements mtimes operator for analysis objects.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/or --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/or')">or</a></p> </td> <td> <p>OR (|) overloads the or (|) method for Analysis objects.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/plus --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/plus')">plus</a></p> </td> <td bgcolor="#f3f4f5"> <p>PLUS implements addition operator for analysis objects.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/power --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/power')">power</a></p> </td> <td> <p>POWER implements power operator for analysis objects.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/rdivide --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/rdivide')">rdivide</a></p> </td> <td bgcolor="#f3f4f5"> <p>RDIVIDE implements division operator for analysis objects.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/times --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/times')">times</a></p> </td> <td> <p>TIMES implements multiplication operator for analysis objects.</p> </td> <td> <p>ao</p> </td> </tr> </tbody> </table> <!-- ===== Back to Top of Methods ===== --> <a href="#top_methods"> <img src="doc_to_top_up.gif" border="0" align="bottom" alt="Back to Top of Section"/> Back to Top of Section </a> </p> <!-- ===== Methods Category: Constructor ===== --> <h3 class="title"><a name="constructor"/>Constructor</h3> <p> <table cellspacing="0" class="body" cellpadding="2" border="0" width="80%"> <colgroup> <col width="15%"/> <col width="73%"/> <col width="12%"/> </colgroup> <thead> <tr valign="top"> <th class="categorylist">Methods</th> <th class="categorylist">Description</th> <th class="categorylist">Defined in class</th> </tr> </thead> <tbody> <!-- ao/ao --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao')">ao</a></p> </td> <td bgcolor="#f3f4f5"> <p>AO analysis object class constructor.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ltpda_uoh/rebuild --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/rebuild')">rebuild</a></p> </td> <td> <p>REBUILD rebuilds the input objects using the history.</p> </td> <td> <p>ltpda_uoh</p> </td> </tr> </tbody> </table> <!-- ===== Back to Top of Methods ===== --> <a href="#top_methods"> <img src="doc_to_top_up.gif" border="0" align="bottom" alt="Back to Top of Section"/> Back to Top of Section </a> </p> <!-- ===== Methods Category: Converter ===== --> <h3 class="title"><a name="converter"/>Converter</h3> <p> <table cellspacing="0" class="body" cellpadding="2" border="0" width="80%"> <colgroup> <col width="15%"/> <col width="73%"/> <col width="12%"/> </colgroup> <thead> <tr valign="top"> <th class="categorylist">Methods</th> <th class="categorylist">Description</th> <th class="categorylist">Defined in class</th> </tr> </thead> <tbody> <!-- ao/double --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/double')">double</a></p> </td> <td bgcolor="#f3f4f5"> <p>DOUBLE overloads double() function for analysis objects.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> </tbody> </table> <!-- ===== Back to Top of Methods ===== --> <a href="#top_methods"> <img src="doc_to_top_up.gif" border="0" align="bottom" alt="Back to Top of Section"/> Back to Top of Section </a> </p> <!-- ===== Methods Category: Helper ===== --> <h3 class="title"><a name="helper"/>Helper</h3> <p> <table cellspacing="0" class="body" cellpadding="2" border="0" width="80%"> <colgroup> <col width="15%"/> <col width="73%"/> <col width="12%"/> </colgroup> <thead> <tr valign="top"> <th class="categorylist">Methods</th> <th class="categorylist">Description</th> <th class="categorylist">Defined in class</th> </tr> </thead> <tbody> <!-- ao/convert --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/convert')">convert</a></p> </td> <td bgcolor="#f3f4f5"> <p>CONVERT perform various conversions on the ao.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/demux --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/demux')">demux</a></p> </td> <td> <p>DEMUX splits the input vector of AOs into a number of output AOs.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/dx --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/dx')">dx</a></p> </td> <td bgcolor="#f3f4f5"> <p>DX Get the data property 'dx'.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/dy --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/dy')">dy</a></p> </td> <td> <p>DY Get the data property 'dy'.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/dz --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/dz')">dz</a></p> </td> <td bgcolor="#f3f4f5"> <p>DX Get the data property 'dz'.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/find --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/find')">find</a></p> </td> <td> <p>FIND particular samples that satisfy the input query and return a new AO.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/fromProcinfo --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/fromProcinfo')">fromProcinfo</a></p> </td> <td bgcolor="#f3f4f5"> <p>FROMPROCINFO returns for a given key-name the value of the procinfo-plist</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/fs --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/fs')">fs</a></p> </td> <td> <p>FS Get the data property 'fs'.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/join --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/join')">join</a></p> </td> <td bgcolor="#f3f4f5"> <p>JOIN multiple AOs into a single AO.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/len --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/len')">len</a></p> </td> <td> <p>LEN overloads the length operator for Analysis objects. Length of the data samples.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/nsecs --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/nsecs')">nsecs</a></p> </td> <td bgcolor="#f3f4f5"> <p>NSECS Get the data property 'nsecs'.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/scatterData --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/scatterData')">scatterData</a></p> </td> <td> <p>SCATTERDATA Creates from the y-values of two input AOs an new AO(xydata)</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/search --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/search')">search</a></p> </td> <td bgcolor="#f3f4f5"> <p>SEARCH selects AOs that match the given name.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/setDx --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/setDx')">setDx</a></p> </td> <td> <p>SETDX sets the 'dx' property of the ao.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/setDy --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/setDy')">setDy</a></p> </td> <td bgcolor="#f3f4f5"> <p>SETDY sets the 'dy' property of the ao.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/setFs --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/setFs')">setFs</a></p> </td> <td> <p>SETFS sets the 'fs' property of the ao.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/setT0 --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/setT0')">setT0</a></p> </td> <td bgcolor="#f3f4f5"> <p>SETT0 sets the 't0' property of the ao.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/setX --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/setX')">setX</a></p> </td> <td> <p>SETX sets the 'x' property of the ao.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/setXY --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/setXY')">setXY</a></p> </td> <td bgcolor="#f3f4f5"> <p>SETXY sets the 'xy' property of the ao.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/setXunits --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/setXunits')">setXunits</a></p> </td> <td> <p>SETXUNITS sets the 'xunits' property of the ao.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/setY --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/setY')">setY</a></p> </td> <td bgcolor="#f3f4f5"> <p>SETY sets the 'y' property of the ao.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/setYunits --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/setYunits')">setYunits</a></p> </td> <td> <p>SETYUNITS sets the 'yunits' property of the ao.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/setZ --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/setZ')">setZ</a></p> </td> <td bgcolor="#f3f4f5"> <p>SETZ sets the 'z' property of the ao.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/setZunits --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/setZunits')">setZunits</a></p> </td> <td> <p>SETZUNITS sets the 'zunits' property of the ao.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/simplifyYunits --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/simplifyYunits')">simplifyYunits</a></p> </td> <td bgcolor="#f3f4f5"> <p>SIMPLIFYYUNITS simplify the 'yunits' property of the ao.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/t0 --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/t0')">t0</a></p> </td> <td> <p>T0 Get the data property 't0'.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/timeshift --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/timeshift')">timeshift</a></p> </td> <td bgcolor="#f3f4f5"> <p>TIMESHIFT for AO/tsdata objects, shifts the time axis such that x(1) = 0.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/validate --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/validate')">validate</a></p> </td> <td> <p>VALIDATE checks that the input Analysis Object is reproducible and valid.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/x --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/x')">x</a></p> </td> <td bgcolor="#f3f4f5"> <p>X Get the data property 'x'.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/xunits --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/xunits')">xunits</a></p> </td> <td> <p>XUNITS Get the data property 'xunits'.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/y --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/y')">y</a></p> </td> <td bgcolor="#f3f4f5"> <p>Y Get the data property 'y'.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/yunits --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/yunits')">yunits</a></p> </td> <td> <p>YUNITS Get the data property 'yunits'.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/z --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/z')">z</a></p> </td> <td bgcolor="#f3f4f5"> <p>Z Get the data property 'z'.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/zunits --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/zunits')">zunits</a></p> </td> <td> <p>ZUNITS Get the data property 'zunits'.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ltpda_obj/get --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/get')">get</a></p> </td> <td bgcolor="#f3f4f5"> <p>GET get a property of a object.</p> </td> <td bgcolor="#f3f4f5"> <p>ltpda_obj</p> </td> </tr> <!-- ltpda_uoh/created --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/created')">created</a></p> </td> <td> <p>CREATED Returns a time object of the last modification.</p> </td> <td> <p>ltpda_uoh</p> </td> </tr> <!-- ltpda_uoh/creator --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/creator')">creator</a></p> </td> <td bgcolor="#f3f4f5"> <p>CREATOR Extract the creator(s) from the history.</p> </td> <td bgcolor="#f3f4f5"> <p>ltpda_uoh</p> </td> </tr> <!-- ltpda_uoh/csvexport --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/csvexport')">csvexport</a></p> </td> <td> <p>CSVEXPORT Exports the data of an object to a csv file.</p> </td> <td> <p>ltpda_uoh</p> </td> </tr> <!-- ltpda_uoh/index --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/index')">index</a></p> </td> <td bgcolor="#f3f4f5"> <p>INDEX index into a 'ltpda_uoh' object array or matrix. This properly captures the history.</p> </td> <td bgcolor="#f3f4f5"> <p>ltpda_uoh</p> </td> </tr> <!-- ltpda_uoh/requirements --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/requirements')">requirements</a></p> </td> <td> <p>REQUIREMENTS Returns a list of LTPDA extension requirements for a given object.</p> </td> <td> <p>ltpda_uoh</p> </td> </tr> <!-- ltpda_uoh/setDescription --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/setDescription')">setDescription</a></p> </td> <td bgcolor="#f3f4f5"> <p>SETDESCRIPTION sets the 'description' property of a ltpda_uoh object.</p> </td> <td bgcolor="#f3f4f5"> <p>ltpda_uoh</p> </td> </tr> <!-- ltpda_uoh/setMdlfile --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/setMdlfile')">setMdlfile</a></p> </td> <td> <p>SETMDLFILE sets the 'mdlfile' property of a ltpda_uoh object.</p> </td> <td> <p>ltpda_uoh</p> </td> </tr> <!-- ltpda_uoh/setName --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/setName')">setName</a></p> </td> <td bgcolor="#f3f4f5"> <p>SETNAME Sets the property 'name' of an ltpda_uoh object.</p> </td> <td bgcolor="#f3f4f5"> <p>ltpda_uoh</p> </td> </tr> <!-- ltpda_uoh/setPlotinfo --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/setPlotinfo')">setPlotinfo</a></p> </td> <td> <p>SETPLOTINFO sets the 'plotinfo' property of a ltpda_uoh object.</p> </td> <td> <p>ltpda_uoh</p> </td> </tr> <!-- ltpda_uoh/setProcinfo --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/setProcinfo')">setProcinfo</a></p> </td> <td bgcolor="#f3f4f5"> <p>SETPROCINFO sets the 'procinfo' property of a ltpda_uoh object.</p> </td> <td bgcolor="#f3f4f5"> <p>ltpda_uoh</p> </td> </tr> </tbody> </table> <!-- ===== Back to Top of Methods ===== --> <a href="#top_methods"> <img src="doc_to_top_up.gif" border="0" align="bottom" alt="Back to Top of Section"/> Back to Top of Section </a> </p> <!-- ===== Methods Category: Internal ===== --> <h3 class="title"><a name="internal"/>Internal</h3> <p> <table cellspacing="0" class="body" cellpadding="2" border="0" width="80%"> <colgroup> <col width="15%"/> <col width="73%"/> <col width="12%"/> </colgroup> <thead> <tr valign="top"> <th class="categorylist">Methods</th> <th class="categorylist">Description</th> <th class="categorylist">Defined in class</th> </tr> </thead> <tbody> <!-- ao/char --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/char')">char</a></p> </td> <td bgcolor="#f3f4f5"> <p>CHAR overloads char() function for analysis objects.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/generateConstructorPlist --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/generateConstructorPlist')">generateConstructorPlist</a></p> </td> <td> <p>GENERATECONSTRUCTORPLIST generates a PLIST from the properties which can rebuild the object.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/md5 --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/md5')">md5</a></p> </td> <td bgcolor="#f3f4f5"> <p>MD5 computes an MD5 checksum from an analysis objects.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/plot --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/plot')">plot</a></p> </td> <td> <p>PLOT a simple plot of analysis objects.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ltpda_obj/isprop --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/isprop')">isprop</a></p> </td> <td bgcolor="#f3f4f5"> <p>ISPROP tests if the given field is one of the object properties.</p> </td> <td bgcolor="#f3f4f5"> <p>ltpda_obj</p> </td> </tr> <!-- ltpda_uo/bsubmit --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/bsubmit')">bsubmit</a></p> </td> <td> <p>BSUBMIT Submits the given collection of objects in binary form to an LTPDA repository</p> </td> <td> <p>ltpda_uo</p> </td> </tr> <!-- ltpda_uo/submit --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/submit')">submit</a></p> </td> <td bgcolor="#f3f4f5"> <p>SUBMIT Submits the given objects to an LTPDA repository</p> </td> <td bgcolor="#f3f4f5"> <p>ltpda_uo</p> </td> </tr> <!-- ltpda_uo/update --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/update')">update</a></p> </td> <td> <p>UPDATE Updates the given object in an LTPDA repository</p> </td> <td> <p>ltpda_uo</p> </td> </tr> <!-- ltpda_uoh/string --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/string')">string</a></p> </td> <td bgcolor="#f3f4f5"> <p>STRING writes a command string that can be used to recreate the input object(s).</p> </td> <td bgcolor="#f3f4f5"> <p>ltpda_uoh</p> </td> </tr> <!-- ltpda_uoh/type --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/type')">type</a></p> </td> <td> <p>TYPE converts the input objects to MATLAB functions.</p> </td> <td> <p>ltpda_uoh</p> </td> </tr> </tbody> </table> <!-- ===== Back to Top of Methods ===== --> <a href="#top_methods"> <img src="doc_to_top_up.gif" border="0" align="bottom" alt="Back to Top of Section"/> Back to Top of Section </a> </p> <!-- ===== Methods Category: Operator ===== --> <h3 class="title"><a name="operator"/>Operator</h3> <p> <table cellspacing="0" class="body" cellpadding="2" border="0" width="80%"> <colgroup> <col width="15%"/> <col width="73%"/> <col width="12%"/> </colgroup> <thead> <tr valign="top"> <th class="categorylist">Methods</th> <th class="categorylist">Description</th> <th class="categorylist">Defined in class</th> </tr> </thead> <tbody> <!-- ao/abs --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/abs')">abs</a></p> </td> <td bgcolor="#f3f4f5"> <p>ABS overloads the Absolute value method for analysis objects.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/acos --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/acos')">acos</a></p> </td> <td> <p>ACOS overloads the acos method for analysis objects.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/angle --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/angle')">angle</a></p> </td> <td bgcolor="#f3f4f5"> <p>ANGLE overloads the angle operator for analysis objects.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/asin --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/asin')">asin</a></p> </td> <td> <p>ASIN overloads the asin method for analysis objects.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/atan --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/atan')">atan</a></p> </td> <td bgcolor="#f3f4f5"> <p>ATAN overloads the atan method for analysis objects.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/bilinfit --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/bilinfit')">bilinfit</a></p> </td> <td> <p>BILINFIT is a linear fitting tool</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/cat --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/cat')">cat</a></p> </td> <td bgcolor="#f3f4f5"> <p>CAT concatenate AOs into a row vector.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/complex --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/complex')">complex</a></p> </td> <td> <p>COMPLEX overloads the complex operator for Analysis objects.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/conj --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/conj')">conj</a></p> </td> <td bgcolor="#f3f4f5"> <p>CONJ overloads the conjugate operator for analysis objects.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/cos --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/cos')">cos</a></p> </td> <td> <p>COS overloads the cos method for analysis objects.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/ctranspose --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/ctranspose')">ctranspose</a></p> </td> <td bgcolor="#f3f4f5"> <p>CTRANSPOSE overloads the ' operator for Analysis Objects.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/det --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/det')">det</a></p> </td> <td> <p>DET overloads the determinant function for analysis objects.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/diag --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/diag')">diag</a></p> </td> <td bgcolor="#f3f4f5"> <p>DIAG overloads the diagonal operator for analysis objects.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/eig --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/eig')">eig</a></p> </td> <td> <p>EIG overloads the eigenvalues/eigenvectors function for analysis objects.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/exp --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/exp')">exp</a></p> </td> <td bgcolor="#f3f4f5"> <p>EXP overloads the exp operator for analysis objects. Exponential.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/hypot --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/hypot')">hypot</a></p> </td> <td> <p>HYPOT overloads robust computation of the square root of the sum of squares for AOs.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/imag --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/imag')">imag</a></p> </td> <td bgcolor="#f3f4f5"> <p>IMAG overloads the imaginary operator for analysis objects.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/inv --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/inv')">inv</a></p> </td> <td> <p>INV overloads the inverse function for asnalysis objects.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/linfit --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/linfit')">linfit</a></p> </td> <td bgcolor="#f3f4f5"> <p>LINFIT is a linear fitting tool</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/ln --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/ln')">ln</a></p> </td> <td> <p>LN overloads the log operator for analysis objects. Natural logarithm.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/log --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/log')">log</a></p> </td> <td bgcolor="#f3f4f5"> <p>LOG overloads the log operator for analysis objects. Natural logarithm.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/log10 --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/log10')">log10</a></p> </td> <td> <p>LOG10 overloads the log10 operator for analysis objects. Common (base 10) logarithm.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/lscov --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/lscov')">lscov</a></p> </td> <td bgcolor="#f3f4f5"> <p>LSCOV is a wrapper for MATLAB's lscov function.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/max --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/max')">max</a></p> </td> <td> <p>MAX computes the maximum value of the data in the AO.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/mean --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/mean')">mean</a></p> </td> <td bgcolor="#f3f4f5"> <p>MEAN computes the mean value of the data in the AO.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/median --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/median')">median</a></p> </td> <td> <p>MEDIAN computes the median value of the data in the AO.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/min --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/min')">min</a></p> </td> <td bgcolor="#f3f4f5"> <p>MIN computes the minimum value of the data in the AO.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/mode --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/mode')">mode</a></p> </td> <td> <p>MODE computes the modal value of the data in the AO.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/norm --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/norm')">norm</a></p> </td> <td bgcolor="#f3f4f5"> <p>NORM overloads the norm operator for Analysis Objects.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/offset --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/offset')">offset</a></p> </td> <td> <p>OFFSET adds an offset to the data in the AO.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/optSubtraction --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/optSubtraction')">optSubtraction</a></p> </td> <td bgcolor="#f3f4f5"> <p>SPSDSUBTRACTION makes a sPSD-weighted least-square iterative fit</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/phase --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/phase')">phase</a></p> </td> <td> <p>PHASE is the phase operator for analysis objects.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/polynomfit --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/polynomfit')">polynomfit</a></p> </td> <td bgcolor="#f3f4f5"> <p>POLYNOMFIT is a polynomial fitting tool</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/quasiSweptSine --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/quasiSweptSine')">quasiSweptSine</a></p> </td> <td> <p>QUASISWEPTSING computes a transfer function from swept-sine measurements</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/real --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/real')">real</a></p> </td> <td bgcolor="#f3f4f5"> <p>REAL overloads the real operator for analysis objects.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/rotate --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/rotate')">rotate</a></p> </td> <td> <p>ROTATE applies rotation factor to AOs</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/round --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/round')">round</a></p> </td> <td bgcolor="#f3f4f5"> <p>ROUND overloads the Round method for analysis objects.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/scale --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/scale')">scale</a></p> </td> <td> <p>SCALE scales the data in the AO by the specified factor.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/sign --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/sign')">sign</a></p> </td> <td bgcolor="#f3f4f5"> <p>SIGN overloads the sign operator for analysis objects.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/sin --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/sin')">sin</a></p> </td> <td> <p>SIN overloads the sin method for analysis objects.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/sort --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/sort')">sort</a></p> </td> <td bgcolor="#f3f4f5"> <p>SORT the values in the AO.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/spsdSubtraction --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/spsdSubtraction')">spsdSubtraction</a></p> </td> <td> <p>SPSDSUBTRACTION makes a sPSD-weighted least-square iterative fit</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/sqrt --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/sqrt')">sqrt</a></p> </td> <td bgcolor="#f3f4f5"> <p>SQRT computes the square root of the data in the AO.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/std --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/std')">std</a></p> </td> <td> <p>STD computes the standard deviation of the data in the AO.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/sum --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/sum')">sum</a></p> </td> <td bgcolor="#f3f4f5"> <p>SUM computes the sum of the data in the AO.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/sumjoin --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/sumjoin')">sumjoin</a></p> </td> <td> <p>SUMJOIN sums time-series signals togther</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/svd --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/svd')">svd</a></p> </td> <td bgcolor="#f3f4f5"> <p>SVD overloads the svd (singular value decomposition) function for analysis objects.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/svd_fit --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/svd_fit')">svd_fit</a></p> </td> <td> <p>SVD_FIT estimates parameters for a linear model using SVD</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/tan --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/tan')">tan</a></p> </td> <td bgcolor="#f3f4f5"> <p>TAN overloads the tan method for analysis objects.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/transpose --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/transpose')">transpose</a></p> </td> <td> <p>TRANSPOSE overloads the .' operator for Analysis Objects.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/uminus --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/uminus')">uminus</a></p> </td> <td bgcolor="#f3f4f5"> <p>UMINUS overloads the uminus operator for analysis objects.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/unwrap --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/unwrap')">unwrap</a></p> </td> <td> <p>UNWRAP overloads the unwrap operator for analysis objects.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/var --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/var')">var</a></p> </td> <td bgcolor="#f3f4f5"> <p>VAR computes the variance of the data in the AO.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> </tbody> </table> <!-- ===== Back to Top of Methods ===== --> <a href="#top_methods"> <img src="doc_to_top_up.gif" border="0" align="bottom" alt="Back to Top of Section"/> Back to Top of Section </a> </p> <!-- ===== Methods Category: Output ===== --> <h3 class="title"><a name="output"/>Output</h3> <p> <table cellspacing="0" class="body" cellpadding="2" border="0" width="80%"> <colgroup> <col width="15%"/> <col width="73%"/> <col width="12%"/> </colgroup> <thead> <tr valign="top"> <th class="categorylist">Methods</th> <th class="categorylist">Description</th> <th class="categorylist">Defined in class</th> </tr> </thead> <tbody> <!-- ao/display --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/display')">display</a></p> </td> <td bgcolor="#f3f4f5"> <p>DISPLAY implement terminal display for analysis object.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/export --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/export')">export</a></p> </td> <td> <p>EXPORT export the data of an analysis object to a text file.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/gnuplot --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/gnuplot')">gnuplot</a></p> </td> <td bgcolor="#f3f4f5"> <p>GNUPLOT a gnuplot interface for AOs.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/iplot --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/iplot')">iplot</a></p> </td> <td> <p>IPLOT provides an intelligent plotting tool for LTPDA.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/iplotyy --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/iplotyy')">iplotyy</a></p> </td> <td bgcolor="#f3f4f5"> <p>IPLOT provides an intelligent plotting tool for LTPDA.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/table --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/table')">table</a></p> </td> <td> <p>TABLE display the data from the AO in a table.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ltpda_uo/save --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/save')">save</a></p> </td> <td bgcolor="#f3f4f5"> <p>SAVE overloads save operator for ltpda objects.</p> </td> <td bgcolor="#f3f4f5"> <p>ltpda_uo</p> </td> </tr> <!-- ltpda_uoh/report --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/report')">report</a></p> </td> <td> <p>REPORT generates an HTML report about the input objects.</p> </td> <td> <p>ltpda_uoh</p> </td> </tr> <!-- ltpda_uoh/viewHistory --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/viewHistory')">viewHistory</a></p> </td> <td bgcolor="#f3f4f5"> <p>VIEWHISTORY Displays the history of an object as a dot-view or a MATLAB figure.</p> </td> <td bgcolor="#f3f4f5"> <p>ltpda_uoh</p> </td> </tr> </tbody> </table> <!-- ===== Back to Top of Methods ===== --> <a href="#top_methods"> <img src="doc_to_top_up.gif" border="0" align="bottom" alt="Back to Top of Section"/> Back to Top of Section </a> </p> <!-- ===== Methods Category: Relational_Operator ===== --> <h3 class="title"><a name="relational_operator"/>Relational Operator</h3> <p> <table cellspacing="0" class="body" cellpadding="2" border="0" width="80%"> <colgroup> <col width="15%"/> <col width="73%"/> <col width="12%"/> </colgroup> <thead> <tr valign="top"> <th class="categorylist">Methods</th> <th class="categorylist">Description</th> <th class="categorylist">Defined in class</th> </tr> </thead> <tbody> <!-- ao/ge --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/ge')">ge</a></p> </td> <td bgcolor="#f3f4f5"> <p>GE overloads >= operator for analysis objects. Compare the y-axis values.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/gt --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/gt')">gt</a></p> </td> <td> <p>GT overloads > operator for analysis objects. Compare the y-axis values.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/le --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/le')">le</a></p> </td> <td bgcolor="#f3f4f5"> <p>LE overloads <= operator for analysis objects. Compare the y-axis values.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/lt --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/lt')">lt</a></p> </td> <td> <p>LT overloads < operator for analysis objects. Compare the y-axis values.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ltpda_obj/eq --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/eq')">eq</a></p> </td> <td bgcolor="#f3f4f5"> <p>EQ overloads the == operator for ltpda objects.</p> </td> <td bgcolor="#f3f4f5"> <p>ltpda_obj</p> </td> </tr> <!-- ltpda_obj/ne --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/ne')">ne</a></p> </td> <td> <p>NE overloads the ~= operator for ltpda objects.</p> </td> <td> <p>ltpda_obj</p> </td> </tr> </tbody> </table> <!-- ===== Back to Top of Methods ===== --> <a href="#top_methods"> <img src="doc_to_top_up.gif" border="0" align="bottom" alt="Back to Top of Section"/> Back to Top of Section </a> </p> <!-- ===== Methods Category: Signal_Processing ===== --> <h3 class="title"><a name="signal_processing"/>Signal Processing</h3> <p> <table cellspacing="0" class="body" cellpadding="2" border="0" width="80%"> <colgroup> <col width="15%"/> <col width="73%"/> <col width="12%"/> </colgroup> <thead> <tr valign="top"> <th class="categorylist">Methods</th> <th class="categorylist">Description</th> <th class="categorylist">Defined in class</th> </tr> </thead> <tbody> <!-- ao/average --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/average')">average</a></p> </td> <td bgcolor="#f3f4f5"> <p>AVERAGE averages aos point-by-point</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/bicohere --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/bicohere')">bicohere</a></p> </td> <td> <p>BICOHERE computes the bicoherence of two input time-series</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/bin_data --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/bin_data')">bin_data</a></p> </td> <td bgcolor="#f3f4f5"> <p>BIN_DATA rebins aos data, on logarithmic scale, linear scale, or arbitrarly chosen.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/buildWhitener1D --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/buildWhitener1D')">buildWhitener1D</a></p> </td> <td> <p>BUILDWHITENER1D builds a whitening filter based on the input frequency-series.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/cohere --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/cohere')">cohere</a></p> </td> <td bgcolor="#f3f4f5"> <p>COHERE estimates the coherence between time-series objects</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/compute --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/compute')">compute</a></p> </td> <td> <p>COMPUTE performs the given operations on the input AOs.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/confint --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/confint')">confint</a></p> </td> <td bgcolor="#f3f4f5"> <p>CONFINT Calculates confidence levels and variance for psd, lpsd, cohere, lcohere and curvefit parameters</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/consolidate --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/consolidate')">consolidate</a></p> </td> <td> <p>CONSOLIDATE resamples all input AOs onto the same time grid.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/conv --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/conv')">conv</a></p> </td> <td bgcolor="#f3f4f5"> <p>CONV vector convolution.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/corr --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/corr')">corr</a></p> </td> <td> <p>CORR estimate linear correlation coefficients.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/cov --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/cov')">cov</a></p> </td> <td bgcolor="#f3f4f5"> <p>COV estimate covariance of data streams.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/cpsd --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/cpsd')">cpsd</a></p> </td> <td> <p>CPSD estimates the cross-spectral density between time-series objects</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/crbound --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/crbound')">crbound</a></p> </td> <td bgcolor="#f3f4f5"> <p>CRBOUND computes the inverse of the Fisher Matrix</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/delay --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/delay')">delay</a></p> </td> <td> <p>DELAY delays a time-series using various methods.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/delayEstimate --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/delayEstimate')">delayEstimate</a></p> </td> <td bgcolor="#f3f4f5"> <p>DELAYESTIMATE estimates the delay between two AOs</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/detrend --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/detrend')">detrend</a></p> </td> <td> <p>DETREND detrends the input analysis object using a polynomial of degree N.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/dft --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/dft')">dft</a></p> </td> <td bgcolor="#f3f4f5"> <p>DFT computes the DFT of the input time-series at the requested frequencies.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/diff --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/diff')">diff</a></p> </td> <td> <p>DIFF differentiates the data in AO.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/dopplercorr --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/dopplercorr')">dopplercorr</a></p> </td> <td bgcolor="#f3f4f5"> <p>Dopplercorr coorects data for Doppler shift</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/downsample --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/downsample')">downsample</a></p> </td> <td> <p>DOWNSAMPLE AOs containing time-series data.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/dropduplicates --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/dropduplicates')">dropduplicates</a></p> </td> <td bgcolor="#f3f4f5"> <p>DROPDUPLICATES drops all duplicate samples in time-series AOs.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/dsmean --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/dsmean')">dsmean</a></p> </td> <td> <p>DSMEAN performs a simple downsampling by taking the mean of every N samples.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/eqmotion --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/eqmotion')">eqmotion</a></p> </td> <td bgcolor="#f3f4f5"> <p>EQMOTION solves numerically a given linear equation of motion</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/evaluateModel --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/evaluateModel')">evaluateModel</a></p> </td> <td> <p>EVALUATEMODEL evaluate a curvefit model.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/fft --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/fft')">fft</a></p> </td> <td bgcolor="#f3f4f5"> <p>FFT overloads the fft method for Analysis objects.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/fftfilt --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/fftfilt')">fftfilt</a></p> </td> <td> <p>FFTFILT overrides the fft filter function for analysis objects.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/filtSubtract --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/filtSubtract')">filtSubtract</a></p> </td> <td bgcolor="#f3f4f5"> <p>FILTSUBTRACT subtracts a frequency dependent noise contribution from an input ao.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/filter --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/filter')">filter</a></p> </td> <td> <p>FILTER overrides the filter function for analysis objects.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/filtfilt --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/filtfilt')">filtfilt</a></p> </td> <td bgcolor="#f3f4f5"> <p>FILTFILT overrides the filtfilt function for analysis objects.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/firwhiten --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/firwhiten')">firwhiten</a></p> </td> <td> <p>FIRWHITEN whitens the input time-series by building an FIR whitening filter.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/fixfs --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/fixfs')">fixfs</a></p> </td> <td bgcolor="#f3f4f5"> <p>FIXFS resamples the input time-series to have a fixed sample rate.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/fngen --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/fngen')">fngen</a></p> </td> <td> <p>FNGEN creates an arbitrarily long time-series based on the input PSD.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/gapfilling --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/gapfilling')">gapfilling</a></p> </td> <td bgcolor="#f3f4f5"> <p>GAPFILLING fills possible gaps in data.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/gapfillingoptim --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/gapfillingoptim')">gapfillingoptim</a></p> </td> <td> <p>GAPFILLINGOPTIM fills possible gaps in data.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/getdof --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/getdof')">getdof</a></p> </td> <td bgcolor="#f3f4f5"> <p>GETDOF Calculates degrees of freedom for psd, lpsd, cohere and lcohere</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/heterodyne --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/heterodyne')">heterodyne</a></p> </td> <td> <p>HETERODYNE heterodynes time-series.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/hist --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/hist')">hist</a></p> </td> <td bgcolor="#f3f4f5"> <p>HIST overloads the histogram function (hist) of MATLAB for Analysis Objects.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/ifft --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/ifft')">ifft</a></p> </td> <td> <p>IFFT overloads the ifft operator for Analysis objects.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/integrate --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/integrate')">integrate</a></p> </td> <td bgcolor="#f3f4f5"> <p>INTEGRATE integrates the data in AO.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/interp --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/interp')">interp</a></p> </td> <td> <p>INTERP interpolate the values in the input AO(s) at new values.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/interpmissing --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/interpmissing')">interpmissing</a></p> </td> <td bgcolor="#f3f4f5"> <p>INTERPMISSING interpolate missing samples in a time-series.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/lcohere --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/lcohere')">lcohere</a></p> </td> <td> <p>LCOHERE implement magnitude-squadred coherence estimation on a log frequency axis.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/lcpsd --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/lcpsd')">lcpsd</a></p> </td> <td bgcolor="#f3f4f5"> <p>LCPSD implement cross-power-spectral density estimation on a log frequency axis.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/linSubtract --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/linSubtract')">linSubtract</a></p> </td> <td> <p>LINSUBTRACT subtracts a linear contribution from an input ao.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/lincom --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/lincom')">lincom</a></p> </td> <td bgcolor="#f3f4f5"> <p>LINCOM make a linear combination of analysis objects</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/linedetect --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/linedetect')">linedetect</a></p> </td> <td> <p>LINEDETECT find spectral lines in the ao/fsdata objects.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/linlsqsvd --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/linlsqsvd')">linlsqsvd</a></p> </td> <td bgcolor="#f3f4f5"> <p>LINLSQSVD Linear least squares with singular value decomposition</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/lisovfit --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/lisovfit')">lisovfit</a></p> </td> <td> <p>LISOVFIT uses LISO to fit a pole/zero model to the input frequency-series.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/lpsd --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/lpsd')">lpsd</a></p> </td> <td bgcolor="#f3f4f5"> <p>LPSD implements the LPSD algorithm for analysis objects.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/ltfe --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/ltfe')">ltfe</a></p> </td> <td> <p>LTFE implements transfer function estimation computed on a log frequency axis.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/mcmc --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/mcmc')">mcmc</a></p> </td> <td bgcolor="#f3f4f5"> <p>MCMC estimates paramters using a Monte Carlo Markov Chain.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/mcmc_td --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/mcmc_td')">mcmc_td</a></p> </td> <td> <p>MCMC_TD estimates paramters using a Monte Carlo Markov Chain.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/noisegen1D --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/noisegen1D')">noisegen1D</a></p> </td> <td bgcolor="#f3f4f5"> <p>NOISEGEN1D generates colored noise from white noise.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/noisegen2D --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/noisegen2D')">noisegen2D</a></p> </td> <td> <p>NOISEGEN2D generates cross correleted colored noise from white noise.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/normdist --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/normdist')">normdist</a></p> </td> <td bgcolor="#f3f4f5"> <p>NORMDIST computes the equivalent normal distribution for the data.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/polyfit --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/polyfit')">polyfit</a></p> </td> <td> <p>POLYFIT overloads polyfit() function of MATLAB for Analysis Objects.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/psd --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/psd')">psd</a></p> </td> <td bgcolor="#f3f4f5"> <p>PSD makes power spectral density estimates of the time-series objects</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/psdconf --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/psdconf')">psdconf</a></p> </td> <td> <p>PSDCONF Calculates confidence levels and variance for psd</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/removeVal --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/removeVal')">removeVal</a></p> </td> <td bgcolor="#f3f4f5"> <p>REMOVEVAL removes values from the input AO(s).</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/resample --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/resample')">resample</a></p> </td> <td> <p>RESAMPLE overloads resample function for AOs.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/rms --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/rms')">rms</a></p> </td> <td bgcolor="#f3f4f5"> <p>RMS Calculate RMS deviation from spectrum</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/sDomainFit --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/sDomainFit')">sDomainFit</a></p> </td> <td> <p>sDomainFit performs a fitting loop to identify model order and</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/select --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/select')">select</a></p> </td> <td bgcolor="#f3f4f5"> <p>SELECT select particular samples from the input AOs and return new AOs with only those samples.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/sineParams --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/sineParams')">sineParams</a></p> </td> <td> <p>SINEPARAMS estimates parameters of sinusoids</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/smoother --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/smoother')">smoother</a></p> </td> <td bgcolor="#f3f4f5"> <p>SMOOTHER smooths a given series of data points using the specified method.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/spectrogram --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/spectrogram')">spectrogram</a></p> </td> <td> <p>SPECTROGRAM computes a spectrogram of the given ao/tsdata.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/spikecleaning --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/spikecleaning')">spikecleaning</a></p> </td> <td bgcolor="#f3f4f5"> <p>spikecleaning detects and corrects possible spikes in analysis objects</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/split --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/split')">split</a></p> </td> <td> <p>SPLIT split an analysis object into the specified segments.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/spsd --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/spsd')">spsd</a></p> </td> <td bgcolor="#f3f4f5"> <p>SPSD implements the smoothed (binned) PSD algorithm for analysis objects.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/tdfit --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/tdfit')">tdfit</a></p> </td> <td> <p>TDFIT fit a set of smodels to a set of input and output signals..</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/tfe --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/tfe')">tfe</a></p> </td> <td bgcolor="#f3f4f5"> <p>TFE estimates transfer function between time-series objects.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/timeaverage --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/timeaverage')">timeaverage</a></p> </td> <td> <p>TIMEAVERAGE Averages time series intervals</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/upsample --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/upsample')">upsample</a></p> </td> <td bgcolor="#f3f4f5"> <p>UPSAMPLE overloads upsample function for AOs.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/whiten1D --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/whiten1D')">whiten1D</a></p> </td> <td> <p>WHITEN1D whitens the input time-series.</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/whiten2D --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/whiten2D')">whiten2D</a></p> </td> <td bgcolor="#f3f4f5"> <p>WHITEN2D whiten the noise for two cross correlated time series.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/xcorr --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/xcorr')">xcorr</a></p> </td> <td> <p>XCORR makes cross-correlation estimates of the time-series</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/xfit --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/xfit')">xfit</a></p> </td> <td bgcolor="#f3f4f5"> <p>XFIT fit a function of x to data.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/zDomainFit --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/zDomainFit')">zDomainFit</a></p> </td> <td> <p>zDomainFit performs a fitting loop to identify model order and</p> </td> <td> <p>ao</p> </td> </tr> <!-- ao/zeropad --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/zeropad')">zeropad</a></p> </td> <td bgcolor="#f3f4f5"> <p>ZEROPAD zero pads the input data series.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> </tbody> </table> <!-- ===== Back to Top of Methods ===== --> <a href="#top_methods"> <img src="doc_to_top_up.gif" border="0" align="bottom" alt="Back to Top of Section"/> Back to Top of Section </a> </p> <!-- ===== Methods Category: Trigonometry ===== --> <h3 class="title"><a name="trigonometry"/>Trigonometry</h3> <p> <table cellspacing="0" class="body" cellpadding="2" border="0" width="80%"> <colgroup> <col width="15%"/> <col width="73%"/> <col width="12%"/> </colgroup> <thead> <tr valign="top"> <th class="categorylist">Methods</th> <th class="categorylist">Description</th> <th class="categorylist">Defined in class</th> </tr> </thead> <tbody> <!-- ao/atan2 --> <tr valign="top"> <td bgcolor="#f3f4f5"> <p><a href="matlab:doc('ao/atan2')">atan2</a></p> </td> <td bgcolor="#f3f4f5"> <p>ATAN2 overloads the atan2 operator for analysis objects. Four quadrant inverse tangent.</p> </td> <td bgcolor="#f3f4f5"> <p>ao</p> </td> </tr> <!-- ao/intersect --> <tr valign="top"> <td> <p><a href="matlab:doc('ao/intersect')">intersect</a></p> </td> <td> <p>INTERSECT overloads the intersect operator for Analysis objects.</p> </td> <td> <p>ao</p> </td> </tr> </tbody> </table> <!-- ===== Back to Top of Methods ===== --> <a href="#top_methods"> <img src="doc_to_top_up.gif" border="0" align="bottom" alt="Back to Top of Section"/> Back to Top of Section </a> </p> <!-- ================================================== --> <!-- END CONTENT FILE --> <!-- ================================================== -->