Draft:Fragility function

Submission declined on 30 May 2025 by Tarlby (talk). This draft's references do not show that the subject qualifies for a Wikipedia article. In summary, the draft needs multiple published sources that are: in-depth (not just passing mentions about the subject) reliable secondary independent of the subject Make sure you add references that meet these criteria before resubmitting. Learn about mistakes to avoid when addressing this issue. If no additional references exist, the subject is not suitable for Wikipedia. This submission is not adequately supported by reliable sources. Reliable sources are required so that information can be verified. If you need help with referencing, please see Referencing for beginners and Citing sources. If you would like to continue working on the submission, click on the "Edit" tab at the top of the window. If you have not resolved the issues listed above, your draft will be declined again and potentially deleted. If you need extra help, please ask us a question at the AfC Help Desk or get live help from experienced editors. Please do not remove reviewer comments or this notice until the submission is accepted. Where to get help If you need help editing or submitting your draft, please ask us a question at the AfC Help Desk or get live help from experienced editors. These venues are only for help with editing and the submission process, not to get reviews. If you need feedback on your draft, or if the review is taking a lot of time, you can try asking for help on the talk page of a relevant WikiProject. Some WikiProjects are more active than others so a speedy reply is not guaranteed. How to improve a draft Wikipedia:Contributing to Wikipedia – a basic overview on how to edit Wikipedia. Help:Wikitext – how to use the markup Help:Referencing for beginners – how to include references Wikipedia:Article development – how to develop your article Wikipedia:Writing better articles – how to improve your article Wikipedia:Verifiability – make sure your article includes reliable third-party sources You can also browse Wikipedia:Featured articles and Wikipedia:Good articles to find examples of Wikipedia's best writing on topics similar to your proposed article. Improving your odds of a speedy review To improve your odds of a faster review, tag your draft with relevant WikiProject tags using the button below. This will let reviewers know a new draft has been submitted in their area of interest. For instance, if you wrote about a female astronomer, you would want to add the Biography, Astronomy, and Women scientists tags. Add tags to your draft Editor resources Easy tools: Citation bot (help) | Advanced: Fix bare URLs Declined by Tarlby 14 hours ago. Last edited by Tarlby 14 hours ago. Reviewer: Inform author. Resubmit Please note that if the issues are not fixed, the draft will be declined again.

Submission declined on 9 March 2025 by QEnigma (talk). This draft's references do not show that the subject qualifies for a Wikipedia article. In summary, the draft needs multiple published sources that are: in-depth (not just passing mentions about the subject) reliable secondary independent of the subject Make sure you add references that meet these criteria before resubmitting. Learn about mistakes to avoid when addressing this issue. If no additional references exist, the subject is not suitable for Wikipedia. This submission provides insufficient context for those unfamiliar with the subject matter. Please see the guide to writing better articles for information on how to better format your submission. Declined by QEnigma 2 months ago.

In structural engineering, a fragility function expresses the occurrence or exceedance probability of an undesirable outcome (sometimes called "failure") to the degree of one or more measures of environmental excitation^[1]. It is usually conditioned on a clearly defined asset class. For example, a fragility function can express the probability that a window of a given size and with clearly defined materials and dimensions will at least crack when it is subjected to varying degrees of peak transient interstory drift (a measure of how much a story in a building has deformed). The undesirable outcome is "window cracks." Here, "occurrence or exceedance" means that the window could crack (occurrence) or a more severe outcome could happen (exceedance), such as glass falling out. In this example, the environmental excitation is peak transient interstory drift.

Structural engineers have used fragility functions as an essential element of probabilistic seismic risk assessment (a special case of probabilistic risk assessment) at least since the WASH-1400 study of 1975, which set out to estimate (among other things) the probability of a core meltdown in a nuclear reactor. Seismic fragility functions (a special case of fragility functions) use measures of earthquake excitation as their independent variable, their input. These can be measures of ground motion such as peak ground acceleration. They can be measures of structural response such as the peak transient interstory drift ratio. Or they can be other measures of damage such as structural collapse. A few fragility functions use vector inputs, i.e., with two or more measures of environmental excitation as the argument.

Seismic fragility functions represent the main analytical tool in the damage-analysis stage of second-generation performance-based earthquake engineering (PBEE-2). PBEE-2 was initially embodied in the so-called PEER methodology developed with National Science Foundation funding in the early 2000s by researchers affiliated with the Pacific Earthquake Engineering Research (PEER) Center. Later, PBEE-2 was encoded in a set of FEMA-funded guidelines initially called ATC-58 (by the Applied Technology Council of Redwood City, CA) and later published as FEMA P-58.

Fragility functions can take many mathematical forms, some parametric, some nonparametric. Common among parametric forms is the lognormal cumulative distribution function. In PBEE-2, when using the lognormal cumulative distribution function to approximate fragility, θ commonly denotes the median value of the environmental excitation at which failure occurs, which one can think of as the median capacity of an asset to resist that failure mode. That is, when an asset is subjected to environmental excitation x = θ, there is a 50% chance that the asset will fail. β commonly denotes the logarthmic standard deviation of capacity, i.e., the standard deviation of the natural logarithm of capacity. Some people call β the dispersion. Using this notation, in what one can call lognormal fragility function, one estimates failure probability P as follows.

${\displaystyle P=\Phi ((ln(x/\theta )/\beta )}$

in which Φ denotes the standard normal cumulative distribution function of the term in parentheses and ln denotes the natural logarithm of the term in parentheses.