Quasi-Bezier curves integrating localised information

F.A. Sohel; G.C. Karmakar; L.S. Dooley; J.R. Arkinstall

doi:10.1016/j.patcog.2007.07.002

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Quasi-Bezier curves integrating localised information

Journal article

Open access

Peer reviewed

Quasi-Bezier curves integrating localised information

F.A. Sohel, G.C. Karmakar, L.S. Dooley and J.R. Arkinstall

Pattern Recognition, Vol.41(2), pp.531-542

2008

DOI: https://doi.org/10.1016/j.patcog.2007.07.002

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Abstract

Bezier curves (BC) have become fundamental tools in many challenging and varied applications, ranging from computer-aided geometric design to generic object shape descriptors. A major limitation of the classical Bezier curve, however, is that only global information about its control points (CP) is considered, so there can often be a large gap between the curve and its control polygon, leading to large distortion in shape representation. While strategies such as degree elevation, composite BC, refinement and subdivision reduce this gap, they also increase the number of CP and hence bit-rate, and computational complexity. This paper presents novel contributions to BC theory, with the introduction of quasi-Bezier curves (QBC), which seamlessly integrate localised CP information into the inherent global Bezier framework, with no increase in either the number of CP or order of computational complexity. QBC crucially retains the core properties of the classical BC, such as geometric continuity and affine invariance, and can be embedded into the vertex-based shape coding and shape descriptor framework to enhance rate-distortion performance. The performance of QBC has been empirically tested upon a number of natural and synthetically shaped objects, with both qualitative and quantitative results confirming its consistently superior approximation performance in comparison with both the classical BC and other established BC-based shape descriptor methods.

Details

Title: Quasi-Bezier curves integrating localised information
Authors/Creators: F.A. Sohel (Author/Creator) - Monash University
G.C. Karmakar (Author/Creator) - Monash University
L.S. Dooley (Author/Creator) - Monash University
J.R. Arkinstall (Author/Creator) - Monash University
Publication Details: Pattern Recognition, Vol.41(2), pp.531-542
Publisher: Elsevier
Identifiers: 991005541365907891
Murdoch Affiliation: Murdoch University
Language: English
Resource Type: Journal article

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Collaboration types: Domestic collaboration
Citation topics: 4 Electrical Engineering, Electronics & Computer Science; 4.101 Security, Encryption & Encoding; 4.101.178 Video Coding
Web Of Science research areas: Computer Science, Artificial Intelligence; Engineering, Electrical & Electronic
ESI research areas: Engineering