Open access
Date
1997Type
- Report
ETH Bibliography
yes
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Abstract
This paper presents a framework for multiresolution compression and geometric reconstruction of arbitrarily dimensioned data designed for distributed applications. Although being restricted to uniform sampled data, our versatile approach enables the handling of a large variety of real world elements. Examples include nonparametric, parametric and implicit lines, surfaces or volumes, all of which are common to large scale data sets. The framework is based on two fundamental steps: Compression is carried out by a remote server and generates a bitstream transmitted over the underlying network. Geometric reconstruction is performed by the local client and renders a piecewise linear approximation of the data. More precisely, our compression scheme consists of a newly developed pipeline starting from an initial B-spline wavelet precoding. The fundamental properties of wavelets allow progressive transmission and interactive control of the compression gain by means of global and local oracles. In particular we discuss the problem of oracles in semiorthogonal settings and propose sophisticated oracles to remove unimportant coefficients. In addition, geometric constraints such as boundary lines can be compressed in a lossless manner and are incorporated into the resulting bit-stream. The reconstruction pipeline performs a piecewise adaptive linear approximation of data using a fast and easy to use point removalstrategy which works with any subsequent triangulation technique. As a result, the pipeline renders line segments, triangles or tetrahedra. Moreover, the underlying continuous approximation of the wavelet representation can be exploited to reconstruct implicit functions, such as isolines and isosurfaces more smoothly and precisely than commonplace methods. Although it scales straightforwardly to higher dimensions the performance of our framework is illustrated with results achieved on data very popular in practice: parametric curves and surfaces, digital terrain models, and volume data. Show more
Permanent link
https://doi.org/10.3929/ethz-a-006652072Publication status
publishedJournal / series
Computer Science Department, ETH ZürichVolume
Publisher
ETH Zürich, Computer Science DepartmentSubject
Isosurfaces; DATENKOMPRIMIERUNG (INFORMATIONSTHEORIE); Triangulation; VERTEILTE ALGORITHMEN + PARALLELE ALGORITHMEN (PROGRAMMIERMETHODEN); DISTRIBUTED APPLICATIONS + CLOUD COMPUTING + GRID COMPUTING (COMPUTER SYSTEMS); Meshing; DATA COMPRESSION (INFORMATION THEORY); DISTRIBUTED ALGORITHMS + PARALLEL ALGORITHMS (PROGRAMMING METHODS); Tetrahedralization; VERTEILTE ANWENDUNGEN + CLOUD COMPUTING + GRID COMPUTING (COMPUTERSYSTEME); Wavelets; Oracles; VolumesOrganisational unit
02150 - Dep. Informatik / Dep. of Computer Science
Notes
Technical Reports D-INFK.More
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ETH Bibliography
yes
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