A data-driven approach to visual speech synthesis

Scott, Simon David

January 1996

No description available.

621.3994

The Animachine renderer : an accurate system for cartoon frame generation

Oddy, Robert J.

January 1992

No description available.

621.3994

The inverse problem and applications to optical and eddy current imaging

Travis, Clive Hathaway

January 1989

No description available.

621.3994

Automatic image database retrieval system using adaptive colour and texture descriptors

Messer, Kieron

January 1999

No description available.

621.3994

Multi-scale representation and recognition of three dimensional surfaces using geometric invariants

Yuen, P. C.

January 2001

No description available.

621.3994

Fingerprint image enhancement & recognition

Emiroglu, Ibrahim

January 1997

No description available.

621.3994

Some computer aided design methods for nonlinear control systems

Nanka-Bruce, Oona

January 1989

No description available.

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Providing language facilities for 3D articulated figure animation

Cavusoglu, Abdullah

January 1993

No description available.

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Data compression schemes for pattern recognition in digital images using fractals

Aburas, Abdul Razag Ali

January 1997

No description available.

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Wavelet methods in speech recognition

Long, Christopher J.

January 1999

In this thesis, novel wavelet techniques are developed to improve parametrization of speech signals prior to classification. It is shown that non-linear operations carried out in the wavelet domain improve the performance of a speech classifier and consistently outperform classical Fourier methods. This is because of the localised nature of the wavelet, which captures correspondingly well-localised time-frequency features within the speech signal. Furthermore, by taking advantage of the approximation ability of wavelets, efficient representation of the non-stationarity inherent in speech can be achieved in a relatively small number of expansion coefficients. This is an attractive option when faced with the so-called 'Curse of Dimensionality' problem of multivariate classifiers such as Linear Discriminant Analysis (LDA) or Artificial Neural Networks (ANNs). Conventional time-frequency analysis methods such as the Discrete Fourier Transform either miss irregular signal structures and transients due to spectral smearing or require a large number of coefficients to represent such characteristics efficiently. Wavelet theory offers an alternative insight in the representation of these types of signals. As an extension to the standard wavelet transform, adaptive libraries of wavelet and cosine packets are introduced which increase the flexibility of the transform. This approach is observed to be yet more suitable for the highly variable nature of speech signals in that it results in a time-frequency sampled grid that is well adapted to irregularities and transients. They result in a corresponding reduction in the misclassification rate of the recognition system. However, this is necessarily at the expense of added computing time. Finally, a framework based on adaptive time-frequency libraries is developed which invokes the final classifier to choose the nature of the resolution for a given classification problem. The classifier then performs dimensionaIity reduction on the transformed signal by choosing the top few features based on their discriminant power. This approach is compared and contrasted to an existing discriminant wavelet feature extractor. The overall conclusions of the thesis are that wavelets and their relatives are capable of extracting useful features for speech classification problems. The use of adaptive wavelet transforms provides the flexibility within which powerful feature extractors can be designed for these types of application.

621.3994