ALTA Simumatic Data Arrhenius-Lognormal: Difference between revisions

From ReliaWiki
Jump to navigation Jump to search
No edit summary
No edit summary
Line 1: Line 1:
{{Template:NoSkin}}
{{Template:NoSkin}}
{| align="center" class="FCK__ShowTableBorders" border="0" cellspacing="1" cellpadding="1"
{| class="FCK__ShowTableBorders" border="0" cellspacing="0" cellpadding="0" align="center"; style="width:100%;"
|-
|-
! scope="col" |  
| valign="middle" align="left" bgcolor=EEEEEE|[[Image: Webnotes-alta.png |center|195px]]
{{Font|Reliability Web Notes|12|tahoma|bold|Blue}}
|}
{| class="FCK__ShowTableBorders" border="0" cellspacing="1" cellpadding="1"
|-
|-
| align="center" valign="middle" |{{Font|Simumatic Data Arrhenius-Lognormal|11|tahoma|bold|gray}}
| valign="middle" |{{Font|Simumatic Data Arrhenius-Lognormal|11|tahoma|bold|gray}}
|-
|-
| align="center" valign="middle" | {{Font|ALTA|10|tahoma|bold|gray}}
| valign="middle" | {{Font|ALTA|10|tahoma|bold|gray}}
|-
|-
| align="center" valign="middle" |
| valign="middle" |
Reliability analysis using simulation, in which reliability analyses are performed a large number of times on data sets that have been created using Monte Carlo simulation, can be a valuable tool for reliability practitioners. Such simulation analyses can assist the analyst to a) better understand life data analysis concepts, b) experiment with the influences of sample sizes and censoring schemes on analysis methods, c) construct simulation-based confidence intervals, d) better understand the concepts behind confidence intervals and e) design reliability tests. This section explores some of the results that can be obtained from simulation analyses with the SimuMatic utility in Weibull++.  
Reliability analysis using simulation, in which reliability analyses are performed a large number of times on data sets that have been created using Monte Carlo simulation, can be a valuable tool for reliability practitioners. Such simulation analyses can assist the analyst to a) better understand life data analysis concepts, b) experiment with the influences of sample sizes and censoring schemes on analysis methods, c) construct simulation-based confidence intervals, d) better understand the concepts behind confidence intervals and e) design reliability tests. This section explores some of the results that can be obtained from simulation analyses with the SimuMatic utility in Weibull++.  
|-
|-
| align="center" valign="middle" | [http://www.reliawiki.com/index.php/Template:Alta_al#Arrhenius-Lognormal Arrhenius Lognormal]
|valign="middle" | [http://www.reliawiki.com/index.php/Template:Alta_al#Arrhenius-Lognormal Arrhenius Lognormal]
|}
|}
<br>  
<br>  


[[File:docedit.png|20px|right|link=http://www.reliawiki.com/index.php?title=ALTA_Simumatic_Data_Arrhenius-Lognormal&action=edit]]
[[File:docedit.png|20px|right|link=http://www.reliawiki.com/index.php?title=ALTA_Simumatic_Data_Arrhenius-Lognormal&action=edit]]

Revision as of 17:12, 14 February 2012

Webnotes-alta.png
Simumatic Data Arrhenius-Lognormal
ALTA

Reliability analysis using simulation, in which reliability analyses are performed a large number of times on data sets that have been created using Monte Carlo simulation, can be a valuable tool for reliability practitioners. Such simulation analyses can assist the analyst to a) better understand life data analysis concepts, b) experiment with the influences of sample sizes and censoring schemes on analysis methods, c) construct simulation-based confidence intervals, d) better understand the concepts behind confidence intervals and e) design reliability tests. This section explores some of the results that can be obtained from simulation analyses with the SimuMatic utility in Weibull++.

Arrhenius Lognormal


Docedit.png