Search results for "3d shapes"

showing 3 items of 3 documents

Opportunities and Limitations of Haptic Technologies for Non-visual Access to 2D and 3D Graphics

2014

Existing and emerging haptic technologies offer methods for non-visually rendering and interacting with 2D and 3D graphical information. These technologies include force feedback devices, touch surfaces with vibrotactile feedback, wearable vibrotactiles, and touch surfaces with electrostatic feedback. In this paper we will focus on approaches to non-visual access to 3D shapes. The interactive models focus on two approaches: simulation of 3D shape and perspective on a 2D touch surface; and interactive exploration of 3D shapes using physical motion in a virtual 3D space with either a force feedback controller or wearable haptics. The technologies will be reviewed along with suitability for th…

MultimediaComputer sciencebusiness.industryWearable computerUsability3d shapescomputer.software_genreRendering (computer graphics)3d spaceHuman–computer interactionbusinesscomputer3D computer graphicsComputingMethodologies_COMPUTERGRAPHICSWearable hapticsHaptic technology
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Means of 2D and 3D Shapes and Their Application in Anatomical Atlas Building

2015

This works deals with the concept of mean when applied to 2D or 3D shapes and with its applicability to the construction of digital atlases to be used in digital anatomy. Unlike numerical data, there are several possible definitions of the mean of a shape distribution and procedures for its estimation from a sample of shapes. Most popular definitions are based in the distance function or in the coverage function, each with its strengths and limitations. Closely related to the concept of mean shape is the concept of atlas, here understood as a probability or membership map that tells how likely is that a point belongs to a shape drawn from the shape distribution at hand. We devise a procedur…

Distribution (number theory)business.industryAtlas (topology)Computer scienceProbabilistic logicSample (statistics)Pattern recognition3d shapesAnatomical atlasPoint (geometry)State (computer science)Artificial intelligencebusinessComputingMethodologies_COMPUTERGRAPHICS
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Optical Forging of Graphene into Three-Dimensional Shapes

2017

Atomically thin materials, such as graphene, are the ultimate building blocks for nanoscale devices. But although their synthesis and handling today are routine, all efforts thus far have been restricted to flat natural geometries, since the means to control their three-dimensional (3D) morphology has remained elusive. Here we show that, just as a blacksmith uses a hammer to forge a metal sheet into 3D shapes, a pulsed laser beam can forge a graphene sheet into controlled 3D shapes in the nanoscale. The forging mechanism is based on laser-induced local expansion of graphene, as confirmed by computer simulations using thin sheet elasticity theory. peerReviewed

Materials scienceBioengineeringNanotechnology02 engineering and technology01 natural sciencesForginglaw.inventionStrain engineeringForgelaw0103 physical sciencesgrafeeniGeneral Materials ScienceHammer010306 general physicsta116Nanoscopic scalenanoscale devicesta114GrapheneMechanical EngineeringgrapheneGeneral ChemistryThin sheet021001 nanoscience & nanotechnologyCondensed Matter Physics3d shapesEngineering physicsoptical forging0210 nano-technologyNano Letters
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