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FUNAMBULE is dedicated to curve or silhouette boundaries precise measurements. It uses the VIC method developed by myself (see publications in Doc/Bibliography folder). It is basically a DIC algorithm in which the image is compared to a virtual, user chosen, mathematical curve. The precision of the measurement is sub-pixel and better than every image softwares it has been compared to. Presently available curves are: — B-Splines of various orders, closed or opened — CAD_IBOX is an example of CAD curve — Circle — Ellipse — Polygon of any number of summits — Beams adresses any problem of type y=f(x): Cantilever beam with concentrated force at end Chainette curve Cubic polynomial equation PureFlexion (beam loaded by two opposite momentums) Segment (straight line) DIGIMCO is a more classical Integrated Digital Image Correlation software (IDIC). The available full-fields are (in folder Champs) : — Corsol for rigid body motion — Defhom for an homogenous strain field — EbHomHPP for an Euler-Bernoulli field of a beam in flexion DIGIMCO_Q4 is also an IDIC program in which the field is a Q4 finite element one. YOUNG_POISSON: using DigImCo, this program extracts Young's modulus and Poisson's ratio from a series of images of a tension or compression test along the vertical image axis.

Version v1.0 used for ISWC2020 Research Track

################################################################### ################################################################### #-----Landslides length and width estimation-v-01------------------ ################################################################### ################################################################### # # # The self-explanatory R script performs the analysis of # landslide flow direction using 2 steps: # 1. Generate the minimum-area oriented bounding box for every # landslide polygon, and the corner points and midpoints for # the bbox sides; add altitudes for the midpoints and compute # the square of the difference raised to the power of two. # 2. Crop the DEM and compute flow length; extract the maximum # slope length. # The landslide width and length are then estimated based on # the oriented along the flow direction bounding box. # Please cite the article bellow if you use this script. # Niculita Mihai, 2016, Automatic landslide length and width # estimation based on the geometric processing of the bounding # box and the geomorphometric analysis of DEMs, Natural Hazards # and Earth System Science, 16, 1-10, doi:10.5194/nhess-16-1-2016 # !!! ATENTION !!! slope length is a computational demanding # operation so if you can please insert the slope length as a # column in the landslide inventory shapefile (slMFD field). # *please also add an id field. # *see the attached shapefiles for a reference on the script # variables and use them to format your data. # *modify accordingly for any change in the input data. # ###################################################################

Adyton is an event-driven network simulator, written in C++, for Opportunistic Networks (a.k.a. Delay-Tolerant Networks) that is capable of processing contact traces. The Adyton simulator supports a plethora of routing protocols and real-world contact traces, while also providing several congestion control mechanisms and buffer management policies. Changelog: the initial version

We introduce a novel enhancement of the time-reassigned synchrosqueezing method designed to compute sharpened and reversible representations of impulsive or strongly modulated signals. We illustrate in numerical experiments the improvement brought by our proposal when applied on both synthetic and real-world signals. Our experiments deal with an analysis of the Draupner wave record for which we provide pioneered time-frequency analysis results.

First release of the ModelFactory Toolbox