DICHY: The Digital Image Correlating HYdra

Research output: Contribution to conferencePosterResearch

Abstract

One
small system setup measuring 3 D displacements target less and full face has incredible advantages in all fields of monitoring By having full face 3 D
measurements the exact movement amount and direction can be defined for every point in the monitoring area Using DICHY, not only dangerous target placement is
history, also full face instead of pointwise monitoring is performed Knowing the exact movement direction and amount of every part of a monitoring site makes pre
calculation, simulation and prevention of failure possible Up to now, full face and target less 3 D monitoring could only be performed using 2 instruments positioned at
predefined locations, causing troubles in terms of safety, accessibility and connection Combining digital image correlation ( with GB InSAR (Ground Based
Interferometric Synthetic Aperture Radar), both systems can be set up at any spot having visual view to the monitoring area
Original languageEnglish
Publication statusPublished - 2019
EventGeomechanik Kolloquium 2019 - Kongress Salzburg, Salzburg, Austria
Duration: 9 Oct 201911 Oct 2019

Conference

ConferenceGeomechanik Kolloquium 2019
CountryAustria
CitySalzburg
Period9/10/1911/10/19

Cite this

Zambanini, C., & Kieffer, D. S. (2019). DICHY: The Digital Image Correlating HYdra. Poster session presented at Geomechanik Kolloquium 2019, Salzburg, Austria.

DICHY : The Digital Image Correlating HYdra. / Zambanini, Christoph; Kieffer, Daniel Scott.

2019. Poster session presented at Geomechanik Kolloquium 2019, Salzburg, Austria.

Research output: Contribution to conferencePosterResearch

Zambanini, C & Kieffer, DS 2019, 'DICHY: The Digital Image Correlating HYdra' Geomechanik Kolloquium 2019, Salzburg, Austria, 9/10/19 - 11/10/19, .
Zambanini C, Kieffer DS. DICHY: The Digital Image Correlating HYdra. 2019. Poster session presented at Geomechanik Kolloquium 2019, Salzburg, Austria.
Zambanini, Christoph ; Kieffer, Daniel Scott. / DICHY : The Digital Image Correlating HYdra. Poster session presented at Geomechanik Kolloquium 2019, Salzburg, Austria.
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title = "DICHY: The Digital Image Correlating HYdra",
abstract = "Onesmall system setup measuring 3 D displacements target less and full face has incredible advantages in all fields of monitoring By having full face 3 Dmeasurements the exact movement amount and direction can be defined for every point in the monitoring area Using DICHY, not only dangerous target placement ishistory, also full face instead of pointwise monitoring is performed Knowing the exact movement direction and amount of every part of a monitoring site makes precalculation, simulation and prevention of failure possible Up to now, full face and target less 3 D monitoring could only be performed using 2 instruments positioned atpredefined locations, causing troubles in terms of safety, accessibility and connection Combining digital image correlation ( with GB InSAR (Ground BasedInterferometric Synthetic Aperture Radar), both systems can be set up at any spot having visual view to the monitoring area",
author = "Christoph Zambanini and Kieffer, {Daniel Scott}",
year = "2019",
language = "English",
note = "Geomechanik Kolloquium 2019 ; Conference date: 09-10-2019 Through 11-10-2019",

}

TY - CONF

T1 - DICHY

T2 - The Digital Image Correlating HYdra

AU - Zambanini, Christoph

AU - Kieffer, Daniel Scott

PY - 2019

Y1 - 2019

N2 - Onesmall system setup measuring 3 D displacements target less and full face has incredible advantages in all fields of monitoring By having full face 3 Dmeasurements the exact movement amount and direction can be defined for every point in the monitoring area Using DICHY, not only dangerous target placement ishistory, also full face instead of pointwise monitoring is performed Knowing the exact movement direction and amount of every part of a monitoring site makes precalculation, simulation and prevention of failure possible Up to now, full face and target less 3 D monitoring could only be performed using 2 instruments positioned atpredefined locations, causing troubles in terms of safety, accessibility and connection Combining digital image correlation ( with GB InSAR (Ground BasedInterferometric Synthetic Aperture Radar), both systems can be set up at any spot having visual view to the monitoring area

AB - Onesmall system setup measuring 3 D displacements target less and full face has incredible advantages in all fields of monitoring By having full face 3 Dmeasurements the exact movement amount and direction can be defined for every point in the monitoring area Using DICHY, not only dangerous target placement ishistory, also full face instead of pointwise monitoring is performed Knowing the exact movement direction and amount of every part of a monitoring site makes precalculation, simulation and prevention of failure possible Up to now, full face and target less 3 D monitoring could only be performed using 2 instruments positioned atpredefined locations, causing troubles in terms of safety, accessibility and connection Combining digital image correlation ( with GB InSAR (Ground BasedInterferometric Synthetic Aperture Radar), both systems can be set up at any spot having visual view to the monitoring area

M3 - Poster

ER -