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DCC
2002
IEEE
2002
IEEE
Omnidirectionally Balanced Multiwavelets for Vector Wavelet Transforms
Vector wavelet transforms for vector-valued fields can be implemented directly from multiwavelets; however, existing multiwavelets offer surprisingly poor performance for transforms in vector-valued signal-processing applications. In this paper, the reason for this performance failure is identified, and a remedy is proposed. A multiwavelet design criterion, omnidirectional balancing, is introduced to extend to vector transforms the balancing philosophy previously proposed for multiwavelet-based scalar-signal expansion. Additionally, a family of symmetric-antisymmetric multiwavelets is designed according to the omnidirectional-balancing criterion. In empirical results for a vector-field compression system, it is observed that the performance of vector wavelet transforms derived from these omnidirectionally-balanced symmetric-antisymmetric multiwavelets is far superior to that of transforms implemented via other multiwavelets.
Real-time TrafficComputer Graphics | DCC 2002 | Multiwavelet Design Criterion | Omnidirectional Balancing | Vector Wavelet Transforms |
| Added | 25 Dec 2009 |
| Updated | 25 Dec 2009 |
| Type | Conference |
| Year | 2002 |
| Where | DCC |
| Authors | James E. Fowler, Li Hua |
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