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T. Cootes and C. Taylor, "Constrained active appearance models," in Proceedings of the ICCV, 1, pp. 748-- 754, 2001.

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Texture-Constrained Active Shape Models - Yan, Liu, Li, Zhang, Shum, Cheng (2002)   (2 citations)  (Correct)

....around each landmark, e#ciently finds the best candidate point for each landmark in searching the image. The solution space is constrained by the properly trained global shape model. Based on the accurate modeling of the local features, ASM obtains nice results in shape localization. AAM [6] 7] [8], 9] combines constraints on both shape and texture in its characterization of face appearance. In the context of this paper, texture means the intensity patch contained in the shape after warping to the mean shape [1] There are two linear mappings assumed for optimization: from appearance ....

T. F. Cootes and C. J. Taylor, "Constrained active appearance models," Proceedings of IEEE International Conference on Computer Vision, vol. 1, pp. 748--754, 2001.

Real-Time Facial Feature Tracking Using An Active Model With Fast .. - Ahlberg   (Correct)

....FACE AND FACIAL FEATURE TRACKING USING AN ACTIVE MODEL This section briefly describes how our active model works. For more details, see [6] 7] The concept of active appearance models (AAMs) was introduced a few years ago [8] and has been the subject of several reports and investigations [9] [13], especially by the original inventors. Together with the AAMs came a directed search algorithm for adapting the model to an image. The algorithm can be used on a complete appearance model, or, as here, on a simpler model being parameterized in geometry and texture separately. The face model is a ....

T.F. Cootes and C.J. Taylor. "Constrained Active Appearance Models," Proc. Int. Conf. Computer Vision, Vol. I, pp. 748-754, Vancouver, Canada, 2001.

Texture-Constrained Active Shape Models - No Author Given   (Correct)

....in many computer vision and pattern recognition applications. Active Shape Models (ASM) 6, 3] and Active Appearance Models (AAM) 4] proposed by Cootes et al., are two popular models for the purpose of shape and appearance modeling and extraction. They have received much attention in recent years [10, 1, 15, 16, 2, 12, 11, 9, 18, 14, 7, 8]. In ASM, the local appearance model, which represents the local statistics around each landmark, e#ciently finds the best candidate point for each landmark in searching the image. The solution space is constrained by a properly trained global shape model. Based on the accurate modeling of the ....

....statistics around each landmark, e#ciently finds the best candidate point for each landmark in searching the image. The solution space is constrained by a properly trained global shape model. Based on the accurate modeling of the local features, ASM has accurate results in shape localization. AAM [4, 5, 2, 17] combines the constraints on both shape and texture in its characterization of face appearance. Two linear relationships are assumed in the optimization process: the linear mapping from appearance variation to texture variation, and the linear mapping from texture variation to position ....

T. Cootes and C. Taylor. "constrained active appearance models". Proceedings of IEEE International Conference on Computer Vision, 1:748--754, 2001.

Comparing Variations on the Active Appearance Model Algorithm - Cootes, Kittipanya-ngam (2002)   (14 citations)  Self-citation (Cootes)   (Correct)

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T. F. Cootes and C. J. Taylor. Constrained active appearance models. In International Conference on Computer Vision,volume 1, pages 748--754. IEEE Computer Society Press, July 2001.

Comparing Variations on the Active Appearance Model Algorithm - Cootes, Kittipanya-ngam (2002)   (14 citations)  Self-citation (Cootes)   (Correct)

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T. F. Cootes and C. J. Taylor. Constrained active appearance models. In 8 International Conference on Computer Vision, volume 1, pages 748--754. IEEE Computer Society Press, July 2001.

Interactive Shape Models - van Ginneken, de Bruijne, Loog.. (2003)   (Correct)

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T. Cootes and C. Taylor, "Constrained active appearance models," in Proceedings of the ICCV, 1, pp. 748-- 754, 2001.

Linking Sequences of Active Appearance Sub-Models via.. - Roberts, Cootes, Adams (2003)   (1 citation)  (Correct)

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Cootes TF and Taylor CJ. Constrained active appearance models. In 8th International Conference on Computer Vision, volume 1, pages 748--754. IEEE Computer Society Press, July 2001.

Subspace Analysis and Optimization for AAM Based Face Alignment - Zhao, Chen, Li, Bu (2004)   (Correct)

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T. F. Cootes and C. J. Taylor. Constrained active appearance models. In Proceedings of IEEE International Conference on Computer Vision, pages 748--754, Vancouver, Canada, July 2001.

Subspace Analysis and Optimization for AAM Based Face Alignment - Ming Zhao Chun (2004)   (Correct)

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T. F. Cootes and C. J. Taylor. Constrained active appearance models. In Proceedings of IEEE International Conference on Computer Vision, pages 748--754, Vancouver, Canada, July 2001.

Generic vs. Person Specific - Active Appearance Models (2004)   (Correct)

No context found.

T.F. Cootes and C.J. Taylor. Constrained active appearance models. In Proc. ICCV, pages 748--754, 2001.

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