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{{Template:API}}{{Template:BacktoPrevPage}}


<div style="position:relative; float:left; display:block; width:100%; margin:10px;">
With the Synthesis API, you can leverage the Weibull++ analysis engine to perform life data analysis on an external data source. In this tutorial, you will learn how to use the API to create and analyze a data set, and then estimate the probability of failure.
ReliaWiki is owned and maintained by [http://www.reliasoft.com ReliaSoft Corporation] and is an extension of &nbsp;[http://www.weibull.com weibull.com]. For additional resources, visit [http://www.reliasoft.tv ReliaSoft.tv], [http://www.reliability-discussion.com/ Reliability Discussion Forum] and the [http://www.reliabilityprofessional.org/ Certified Reliability Professional (CRP) Program].  
</div>


<div style="position:relative; float:left; width:100%;">


<div style="position:relative; float:left; width:49%; margin:5px;">
==Tutorial: Life Data Analysis==
{{APIOverviewBox
The following example demonstrates how to define a Weibull++ data set, fit a life distribution to the data and obtain analysis results from the model. A discussion of the example follows.
|image=blue_triangle.png
|title=Life Data Analysis
|bgcolor=#103080
|links=
{{TitleBoxLink|link=Life Data Analysis Reference|text=Reference Book}}
{{TitleBoxLink|link=Weibull++_Examples|text=Weibull++ Software Examples}}
}}


{{APIOverviewBox
The following table shows the data set used in this example.
|image=yellow_triangle.png
{|{{table}}
|title=Accelarated Life Data Testing Analysis
|Number in State||State||Time to F or S
|bgcolor=#F47820
|-
|links=
|1||F||16
{{TitleBoxLink|link=Accelerated_Life_Testing_Data_Analysis_Reference|text=Reference Book}}
|-
{{TitleBoxLink|link=ALTA_Examples|text=ALTA Software Examples}}
|1||F||34
}}
|-
|1||F||53
|-
|1||F||75
|-
|1||F||93
|-
|5||S||120
|}


{{APIOverviewBox
'''VB.NET'''
|image=green_triangle.png
|title=System Analysis
{{APIPrefix|Imports}} SynthesisAPI
|bgcolor=#266010
|links=
{{APIPrefix|Module}} Module1
{{TitleBoxLink|link=System_Analysis_Reference|text=Reference Book}}
    {{APIPrefix|Sub}} Main()
{{TitleBoxLink|link=BlockSim_Examples|text=BlockSim Software Examples}}
}}
  {{APIComment|'Declare a new WeibullDataSet object.}}
    {{APIPrefix|Dim}} WDS {{APIPrefix|As New}} WeibullDataSet
 
  {{APIComment|'Add failure times to the data set.}}
    WDS.AddFailure(16, 1)
    WDS.AddFailure(34, 1)
    WDS.AddFailure(53, 1) 
    WDS.AddFailure(75, 1)
    WDS.AddFailure(93, 1)
 
  {{APIComment|'Add five suspensions to the data set.}}
    WDS.AddSuspension(120, 5) 
  {{APIComment|'Use the 2-parameter Weibull distribution and the rank regression on X (RRX) analysis method.}}
  {{APIComment|'Keep all other analysis settings at default.}}
    WDS.AnalysisSettings.Distribution = WeibullSolverDistribution.Weibull
    WDS.AnalysisSettings.Parameters = WeibullSolverNumParameters.MS_2Parameter
    WDS.AnalysisSettings.Analysis = WeibullSolverMethod.RRX
 
  {{APIComment|'Analyze the data set.}}
    WDS.Calculate()
  {{APIComment|'Calculate the probability of failure at 226 hrs and display the result.}}
    {{APIPrefix|Dim}} r {{APIPrefix|As}} Double
    r = WDS.FittedModel.unreliability(226)
    MsgBox({{APIString|"Prob. Fail: "}} & r)
    {{APIPrefix|End Sub}}
{{APIPrefix|End Module}}


{{APIOverviewBox
|image=doe_triangle.png
|title=Experiment Design and Analysis
|bgcolor=#902028
|links=
{{TitleBoxLink|link=Experiment_Design_and_Analysis_Reference|text=Reference Book}}
{{TitleBoxLink|link=DOE_Reference_Examples|text=DOE++ Software Examples}}
}}
</div>


<div style="position:relative; float:left; width:49%; margin:5px;">
==Discussion==
{{APIOverviewBox
|image=red_triangle.png
|title=Reliability Growth and Repairable System Analysis
|bgcolor=#86180C
|links=
{{TitleBoxLink|link=Reliability_Growth_and_Repairable_System_Analysis_Reference|text=Reference Book}}
{{TitleBoxLink|link=RGA_Examples|text=RGA Software Examples}}
}}


{{APIOverviewBox
The [[WeibullDataSet Class|WeibullDataSet]] class represents a Weibull++ standard folio data sheet. The class contains all the methods and properties that allow you to define a data set and fit a statistical distribution to the data.
|image=fmea_triangle.png
|title=FMEA - Failure Modes &amp; Effects Analysis
|bgcolor=#102660
|links=
<div style="float:left; padding-left:20px;"><font style="font-size:14px;">&bull; [http://www.weibull.com/hotwire/fmea_corner.htm Articles]</font></div>
{{TitleBoxLink|link=Xfmea_Examples|text=Xfmea Software Examples}}
}}


{{APIOverviewBox
  {{APIComment|'Declare a new WeibullDataSet object.}}
|image=rcm_triangle.png
    {{APIPrefix|Dim}} WDS {{APIPrefix|As New}} WeibullDataSet
|title=RCM - Reliability Centered Maintenance
|bgcolor=#802412
|links=
{{TitleBoxLink|link=RCM%2B%2B_Examples|text=RCM++ Software Examples}}
}}


{{APIOverviewBox
The data set can contain failures, suspensions, interval data or free-form data. The following example shows how to use the [[WeibullDataSet.AddFailure|AddFailure]] method to define failures and the [[WeibullDataSet.AddSuspension|AddSuspension]] method to define suspensions.
|image=api_triangle.png
|title=Synthesis API
|bgcolor=#405058
|links=
{{TitleBoxLink|link=Synthesis API Reference|text=Overview}}
{{TitleBoxLink|link=Full_Synthesis_API|text=Reference Documentation}}
{{TitleBoxLink|link=API_Upgrades|text=API Changelog}}
}}


</div>
{{APIComment|'Add failure times to the data set.}}
</div>
  WDS.AddFailure(16, 1)
  WDS.AddFailure(34, 1)
  WDS.AddFailure(53, 1) 
  WDS.AddFailure(75, 1)
  WDS.AddFailure(93, 1)
 
{{APIComment|'Add five suspensions to the data set.}}
  WDS.AddSuspension(120, 5)


The AnalysisSetting property returns a [[WeibullAnalysisOptions Class|WeibullAnalysisOptions]] object, which represents the analysis settings of the WeibullDataSet object. In the following example, we use the <code>Distribution</code>, <code>Parameters</code> and <code>Analysis</code> properties of the WeibullAnalysisOptions class to specify the life distribution and analysis method.


{{APIComment|'Use the 2-parameter Weibull distribution and the rank regression on X (RRX) analysis method.}}
{{APIComment|'Keep all other analysis settings at default.}}
  WDS.AnalysisSettings.Distribution = WeibullSolverDistribution.Weibull
  WDS.AnalysisSettings.Parameters = WeibullSolverNumParameters.MS_2Parameter
  WDS.AnalysisSettings.Analysis = WeibullSolverMethod.RRX


<div style="position:relative; float:left; width:100%;">
To analyze the data set, use the [[WeibullDataSet.Calculate|Calculate]] method. The method returns a message box that shows the estimated parameters of the life distribution, based on the settings specified in the AnalysisSettings property.
<br><br><cshow logged="1">This text will appear if a user with membership to 'sysop' group views this page</cshow> {{ReliaSoft Footer}}
 
</div>
{{APIComment|'Analyze the data set.}}
  WDS.Calculate()
 
The FittedModel property gets a [[CModel Class|cModel]] object that represents the fitted model of the life data analysis. From the model, you can calculate useful metrics such as reliability, failure rate, mean time, etc. In this example, we calculate for the probability of failure (unreliability).
 
  {{APIComment|'Calculate the probability of failure at 226 hrs and display the result.}}
    {{APIPrefix|Dim}} r {{APIPrefix|As}} Double
    r = WDS.FittedModel.unreliability(226)
    MsgBox({{APIString|"Prob. Fail: "}} & r)
 
 
==References==
*[[WeibullDataSet Class]]
*[[WeibullDataSet.AddFailure|WeibullDataSet.AddFailure Method]]
*[[WeibullDataSet.AddSuspension| WeibullDataSet.AddSuspension Method]]
*[[WeibullDataSet.Calculate|WeibullDataSet.Calculate Method]]
*[[WeibullAnalysisOptions Class]]
*[[CModel Class|cModel Class]]

Latest revision as of 22:01, 11 May 2016

DRAFT

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<< Back to Tutorials Main Page

With the Synthesis API, you can leverage the Weibull++ analysis engine to perform life data analysis on an external data source. In this tutorial, you will learn how to use the API to create and analyze a data set, and then estimate the probability of failure.


Tutorial: Life Data Analysis

The following example demonstrates how to define a Weibull++ data set, fit a life distribution to the data and obtain analysis results from the model. A discussion of the example follows.

The following table shows the data set used in this example.

Number in State State Time to F or S
1 F 16
1 F 34
1 F 53
1 F 75
1 F 93
5 S 120
VB.NET

Imports SynthesisAPI 

Module Module1
   Sub Main()

  'Declare a new WeibullDataSet object.  
   Dim WDS As New WeibullDataSet
  
  'Add failure times to the data set. 
   WDS.AddFailure(16, 1)
   WDS.AddFailure(34, 1)
   WDS.AddFailure(53, 1)  
   WDS.AddFailure(75, 1)
   WDS.AddFailure(93, 1)
  
  'Add five suspensions to the data set. 
   WDS.AddSuspension(120, 5)   

  'Use the 2-parameter Weibull distribution and the rank regression on X (RRX) analysis method. 
  'Keep all other analysis settings at default. 
   WDS.AnalysisSettings.Distribution = WeibullSolverDistribution.Weibull
   WDS.AnalysisSettings.Parameters = WeibullSolverNumParameters.MS_2Parameter
   WDS.AnalysisSettings.Analysis = WeibullSolverMethod.RRX
 
  'Analyze the data set. 
   WDS.Calculate()

  'Calculate the probability of failure at 226 hrs and display the result. 
   Dim r As Double
   r = WDS.FittedModel.unreliability(226)
   MsgBox("Prob. Fail: " & r)

   End Sub
End Module


Discussion

The WeibullDataSet class represents a Weibull++ standard folio data sheet. The class contains all the methods and properties that allow you to define a data set and fit a statistical distribution to the data.

  'Declare a new WeibullDataSet object.  
   Dim WDS As New WeibullDataSet

The data set can contain failures, suspensions, interval data or free-form data. The following example shows how to use the AddFailure method to define failures and the AddSuspension method to define suspensions.

 'Add failure times to the data set. 
  WDS.AddFailure(16, 1)
  WDS.AddFailure(34, 1)
  WDS.AddFailure(53, 1)  
  WDS.AddFailure(75, 1)
  WDS.AddFailure(93, 1)
  
 'Add five suspensions to the data set. 
  WDS.AddSuspension(120, 5) 

The AnalysisSetting property returns a WeibullAnalysisOptions object, which represents the analysis settings of the WeibullDataSet object. In the following example, we use the Distribution, Parameters and Analysis properties of the WeibullAnalysisOptions class to specify the life distribution and analysis method.

 'Use the 2-parameter Weibull distribution and the rank regression on X (RRX) analysis method. 
 'Keep all other analysis settings at default. 
  WDS.AnalysisSettings.Distribution = WeibullSolverDistribution.Weibull
  WDS.AnalysisSettings.Parameters = WeibullSolverNumParameters.MS_2Parameter
  WDS.AnalysisSettings.Analysis = WeibullSolverMethod.RRX

To analyze the data set, use the Calculate method. The method returns a message box that shows the estimated parameters of the life distribution, based on the settings specified in the AnalysisSettings property.

 'Analyze the data set. 
  WDS.Calculate()

The FittedModel property gets a cModel object that represents the fitted model of the life data analysis. From the model, you can calculate useful metrics such as reliability, failure rate, mean time, etc. In this example, we calculate for the probability of failure (unreliability).

  'Calculate the probability of failure at 226 hrs and display the result. 
   Dim r As Double
   r = WDS.FittedModel.unreliability(226)
   MsgBox("Prob. Fail: " & r)


References