The enclosure method for inverse obstacle scattering over a finite time interval: IV. extraction from a single point on the graph of the response operator
From MaRDI portal
Publication:1684681
DOI10.1515/jiip-2016-0023zbMath1378.35335arXiv1603.08615OpenAlexW3102901815MaRDI QIDQ1684681
Publication date: 12 December 2017
Published in: Journal of Inverse and Ill-Posed Problems (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/1603.08615
Related Items (11)
On finding a cavity in a thermoelastic body using a single displacement measurement over a finite time interval on the surface of the body ⋮ The enclosure method for inverse obstacle scattering over a finite time interval. V. Using time-reversal invariance ⋮ The enclosure method for inverse obstacle scattering over a finite time interval. VI: Using shell-type initial data ⋮ On finding a penetrable obstacle using a single electromagnetic wave in the time domain ⋮ Extracting discontinuity using the probe and enclosure methods ⋮ The enclosure method for the detection of variable order in fractional diffusion equations ⋮ Quench Detection on a Superconducting Radio-Frequency Cavity ⋮ On the Factorization Method for a Far Field Inverse Scattering Problem in the Time Domain ⋮ Prescribing a heat flux coming from a wave equation ⋮ The enclosure method for the heat equation using time-reversal invariance for a wave equation ⋮ A time domain factorization method for obstacles with impedance boundary conditions
Cites Work
- Unnamed Item
- Unnamed Item
- Unnamed Item
- The enclosure method for inverse obstacle scattering using a single electromagnetic wave in time domain
- On finding an obstacle with the Leontovich boundary condition via the time domain enclosure method
- An inverse problem for a three-dimensional heat equation in thermal imaging and the enclosure method
- Mixed problems for hyperbolic equations of second order
- Reconstruction of the support function for inclusion from boundary measurements
- Inverse Obstacle Problem for the Non-Stationary Wave Equation with an Unknown Background
- The enclosure method for inverse obstacle scattering problems with dynamical data over a finite time interval: III. Sound-soft obstacle and bistatic data
- The enclosure method for inverse obstacle scattering problems with dynamical data over a finite time interval: II. Obstacles with a dissipative boundary or finite refractive index and back-scattering data
- A remark on finding the coefficient of the dissipative boundary condition via the enclosure method in the time domain
- The framework of the enclosure method with dynamical data and its applications
- An inverse acoustic scattering problem inside a cavity with dynamical back-scattering data
- On finding an obstacle embedded in the rough background medium via the enclosure method in the time domain
- The enclosure method for inverse obstacle scattering problems with dynamical data over a finite time interval
- Enclosing a polygonal cavity in a two-dimensional bounded domain from Cauchy data
- Solving an inverse obstacle problem for the wave equation by using the boundary control method
- On reconstruction of a cavity in a linearized viscoelastic body from infinitely many transient boundary data
- On the reconstruction of inclusions in a heat conductive body from dynamical boundary data over a finite time interval
- The enclosure method for the heat equation
- Extracting the geometry of an obstacle and a zeroth-order coefficient of a boundary condition via the enclosure method using a single reflected wave over a finite time interval
- Extracting discontinuity in a heat conductive body. One-space dimensional case
This page was built for publication: The enclosure method for inverse obstacle scattering over a finite time interval: IV. extraction from a single point on the graph of the response operator
