&lt;title&gt;'You are here' landscape installation&lt;/title&gt;

Dawson, Paula

doi:10.1117/12.57785

Cited by 4 publications

(2 citation statements)

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“…One of the most efficient solutions of this problem could be achieved by using a large size holographic screen with a synthesised 3D image. The technical aspects associated with the simulation, recording and subsequent reconstruction of a large scene with holography have been discussed in several papers, 30,31 where the hologram can be used for displaying a space that existed 2000 years ago and is not related to any existing objects.…”

Section: Holographic Image Synthesismentioning

confidence: 99%

Holography in museums

Markov¹

2011

The Imaging Science Journal

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This paper discusses some aspects of holographic display techniques pertinent for museum applications. In particular, it revises the features and requirements for three-dimensional (3D) holographic displays, examines the practical use of holographic interferometry as an effective tool for non-destructive inspection of museum items, discusses holographic methods for highdensity data storage and outlines how 3D images can be integrated into a large coverage area.

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Section: Holographic Image Synthesismentioning

confidence: 99%

Holography in museums

Markov¹

2011

The Imaging Science Journal

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“…Finite element methods (FEM) are being developed to simulate polycrystalline behavior of selected regions of a component [7,8], especially in some average sense as in metal forming simulations. Such standard methods evolved from the historically under-developed methods for sampling and representing structure, and from the absence of adequate computation capability.…”

Section: Materials Property Prediction and Component-level Simulationsmentioning

confidence: 99%

Predicting the Microstructure-Dependent Mechanical Performance of Materials for Early-Stage Design

Dimiduk¹,

Parathasarathy²,

Rao³

et al. 2004

AIP Conference Proceedings

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Effect of microstructure on backwall signal attenuation measurements using focused transducers AIP Conf. Abstract.A description is offered of a simulation and testing methodology for structural materials that incorporates the influence of the local, microscopic and submicroscopic heterogeneous nature of material properties directly into design procedures. The new methodology builds upon a multitude of rapid microstructural and property assessments of selected local regions of a material (i.e. single-crystal regions, defected regions, grain aggregates, etc.), perhaps from a fully-processed component, or from materials specifically prepared to represent selected aspects of the full-scale process. The results from these assessments are used to define parameters within a hierarchy of mathematical and numerical representations of the material, and together in turn these may be used in design performance simulation codes to predict the intrinsic response of larger-scale structures. Further, the methodology may be used to anticipate the effects of defects on the performance of the full-scale structure. Most steps of this alternative design and test methodology are amenable to automation, and the methodology as a whole will reduce the number of iterative large-scale cycles required to qualify a material's suitability for structural service; thus, the new method is a framework for accelerating the development of structural materials.

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Holography in Museums

Markov¹

1997

Optical Technologies in the Humanities

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<title>'You are here' landscape installation</title>

Cited by 4 publications

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Holography in museums

Holography in museums

Predicting the Microstructure-Dependent Mechanical Performance of Materials for Early-Stage Design

Holography in Museums

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