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An improved subdivision scheme for integration of approximation and interpolation

Dansen Cao, / Shujin Lin, / Chengming Liu, / Jun Pan, / Guangyuan Cao,

We present a modified blending subdivision scheme achieving C¹ continuity with extensive applications. The main idea is to find the relationship between interpolating subdivision schemes and approximating subdivision schemes. We introduce a parameter to control transition from approximation to interpolation. Our method can produce a limit curve intervening between approximating and interpolating. Experiments have shown that this new scheme can solve the noticeable “shrinking effects” occurring in interpolating subdivision schemes and “popping effects” occurring in approximating schemes.

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An improved subdivision scheme for integration of approximation and interpolation

Dansen Cao, / Shujin Lin, / Chengming Liu, / Jun Pan, / Guangyuan Cao,

We present a modified blending subdivision scheme achieving C¹ continuity with extensive applications. The main idea is to find the relationship between interpolating subdivision schemes and approximating subdivision schemes. We introduce a parameter to control transition from approximation to interpolation. Our method can produce a limit curve intervening between approximating and interpolating. Experiments have shown that this new scheme can solve the noticeable “shrinking effects” occurring in interpolating subdivision schemes and “popping effects” occurring in approximating schemes.

An improved subdivision scheme for integration of approximation and interpolation

Dansen Cao, / Shujin Lin, / Chengming Liu, / Jun Pan, / Guangyuan Cao,

We present a modified blending subdivision scheme achieving C¹ continuity with extensive applications. The main idea is to find the relationship between interpolating subdivision schemes and approximating subdivision schemes. We introduce a parameter to control transition from approximation to interpolation. Our method can produce a limit curve intervening between approximating and interpolating. Experiments have shown that this new scheme can solve the noticeable “shrinking effects” occurring in interpolating subdivision schemes and “popping effects” occurring in approximating schemes.

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Title:

An improved subdivision scheme for integration of approximation and interpolation

Contributors:

Dansen Cao, (author) / Shujin Lin, (author) / Chengming Liu, (author) / Jun Pan, (author) / Guangyuan Cao, (author)

Published in:

2009 IEEE 10th International Conference on Computer-Aided Industrial Design & Conceptual Design ; 1220-1224

Publication date:

2009-11-01

Size:

156913 byte

ISBN:

978-1-4244-5268-2 , 978-1-4244-5266-8

DOI:

https://doi.org/10.1109/CAIDCD.2009.5375229

Type of media:

Conference paper

Type of material:

Electronic Resource

Language:

English

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