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arxiv: 1906.03610 · v1 · pith:Z6P7PG7Xnew · submitted 2019-06-09 · 🧮 math-ph · math.MP

A uniqueness result on detecting a prey in a spider orb-web

classification 🧮 math-ph math.MP
keywords orb-webpreyspidertransversediscretedynamicmeasurementsmembrane
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We consider the inverse problem of localizing a prey hitting a spider orb-web from dynamic measurements taken near the center of the web, where the spider is supposed to stay. The actual discrete orb-web, formed by a finite number of radial and circumferential threads, is modelled as a continuous membrane. The membrane has a specific fibrous structure, which is inherited from the original discrete web, and it is subject to tensile pre-stress in the referential configuration. The transverse load describing the prey's impact is assumed of the form $g(t)f(x)$, where $g(t)$ is a known function of time and $f(x)$ is the unknown term depending on the position variable $x$. For axially-symmetric orb-webs supported at the boundary and undergoing infinitesimal transverse deformations, we prove a uniqueness result for $f(x)$ in terms of measurements of the transverse dynamic displacement taken on an arbitrarily small and thin ring centered at the origin of the web, for a sufficiently large interval of time.

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