Area of Resilience to Stress Event


A method for quantifying resilience after a stress event. A set of functions calculate the area of resilience that is created by the departure of baseline 'y' (i.e., robustness) and the time taken 'x' to return to baseline (i.e., rapidity) after a stress event using the Cartesian coordinates of the data. The arse package has the capability to calculate areas of resilience, growth, and cases in which resilience is not achieved (e.g., diminished performance without return to baseline).

To study the area of resilience to stress event (arse), three things must be in place: (a) a baseline value (before the stress event) of a variable of interest 'y' needs to be known, (b) an incursion of a stress event needs to occur on an entity (e.g., individual, group), and (c) the variable of interest 'y' needs to be measured repeatedly after the incursion of a stress event. Thus, arse is the function of how much the variable 'y' decreases from baseline levels after a stress event (i.e., robustness) and the time it takes 'y' to return to baseline levels (i.e., rapidity). The combination of robustness and rapidity form a series of points that can be connected into an irregular polygon from which an area can be derived. It is this area, arse, that is indicative of how much resilience is demonstrated to a stress event where smaller values of arse indicate better resilience and larger values indicate worse resilience.


The current official (i.e., CRAN) release can be installed directly within R with:


After installing the devtools package with install.packages("devtools"), the development version of the arse package can be installed with:


Try the arse package in your browser

Any scripts or data that you put into this service are public.

arse documentation built on May 10, 2019, 5:03 p.m.