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1. QBinaries object

   The QBinaries object is a reserved object to store binary data. Please note that it can be used for any data (pictures, MSWord files, CAD files, etc.). Below a description is given how to create this object with content. Basically there are three steps: Creating the reserved parameters; Adding them to the dataset
   QUAESTOR • Jul 27, 2012

2. @OBJECT

   The relation attribute @OBJECT is used to define the location of the data stored in the data slot of the specified name, useful if multiple relations are using the same static set of data. Syntax Place @OBJECT:ParameterName in the data slot of the relation Arguments ParameterName is the internal name
   QUAESTOR • Jun 28, 2012

3. An object in Quaestor

   In computer science an object is a language mechanism for binding data with methods that operate on that data. In information processing an information source for an information processor. In Quaestor a parameter can be an object (or an object is defined by a parameter) which binds data with methods operating
   QUAESTOR • Jul 27, 2012

4. Using objects

   Using Quaestor objects Quaestor employs a powerful ‘parameter’ concept, i.e. a parameter can be a numerical attribute like length, mass and cost, but also … , Quaestor uses the Object type. A Quaestor object is a parameter which has a set of parameters with values as value, either static (only data, e.g. a speed-power
   QUAESTOR • Nov 29, 2018

5. Tutorial 2: Objects and TeLiTabs

   Tutorial 2 Objects and TeLiTabs Learning goals Learn about the TeLiTab data format Using an object as a function  Creating a multiple case solution … is stored in a data object Ships in the dataset of the knowledge base, so it can be easily used in further calculations. This dataset combined
   QUAESTOR • Dec 19, 2018

6. CUROBJECT$

   returns the name of an object in a Solution http://mods.marin.nl/display/QUAESTOR/Quaestor+solution depending on the mode given. Syntax CUROBJECT$(Mode%) Arguments  Mode% can assume values of 0, 1, 2, 4 or 5. Mode% = 0: return the current object name; Mode% = 1: return the full object name (so including
   QUAESTOR • Dec 03, 2018

7. Tutorial 3: Interpolation and Integration

   Tutorial 3 Interpolation and integration Learning goals Using data stored in objects. Using the LININT, DQUAD and LEASQ functions to interpolate in datasets. Using an object as a function. Using the INTEGR function to perform numerical integration. Using the LEASQ function Prior Knowledge
   QUAESTOR • Jun 25, 2014

8. Tutorial 4: Solution Management

   Tutorial 2: Objects and TeLiTabs Tutorial 3: Interpolation and Integration Management.png 1    Objective In this Tutorial, we will evaluate … up the Workbase from any solution. Remember that we gave attributes to the object Ships? These were used to make the object a multi case entry to the database
   QUAESTOR • Jun 26, 2014

9. MirceaKE.xml

   >-4128769</InputValues> <Objects>-16711681</Objects> <IntermediatValues>-64</IntermediatValues> <TextDocuments>-16711936</TextDocuments
   QUAESTOR / … / QAppProfileOptions file • May 03, 2013

10. Default user.xml

    > <Objects>-16711681</Objects> <IntermediatValues>-64</IntermediatValues> <TextDocuments>-16711936</TextDocuments> <TaxonomyBackground>-64
    QUAESTOR / … / QAppProfileOptions file • May 03, 2013