Efficient approach for interest points detection in non-rigid shapes

Cristian José López Del Alamo; Luciano Arnaldo Romero Calla; Lizeth Joseline Fuentes Pérez

doi:10.1109/CLEI.2015.7359459

Efficient approach for interest points detection in non-rigid shapes

Cristian José López Del Alamo, Luciano Arnaldo Romero Calla, Lizeth Joseline Fuentes Pérez

Producción científica: Capítulo del libro/informe/acta de congreso › Contribución a la conferencia › revisión exhaustiva

2 Citas (Scopus)

Resumen

Due to the increasing amount of data and the reduction of costs in 3D data acquisition devices, there has been a growing interest, in developing efficient and robust feature extraction algorithms for 3D shapes, invariants to isometric, topological and noise changes, among others. One of the key tasks for feature extraction in 3D shapes is the interest points detection; where interest points are salient structures, which can be used, instead of the whole object. In this research, we present a new approach to detect interest points in 3D shapes by analyzing the triangles that compose the mesh which represent the shape, in different way to other algorithms more complex such as Harris 3D or HKS. Our results and experiments of repeatability, confirm that our algorithm is stable and robust, in addition, the computational complexity is O(n log n), where n represents the number of faces of the mesh.

Idioma original	Inglés
Título de la publicación alojada	Proceedings - 2015 41st Latin American Computing Conference, CLEI 2015
Editores	Alex Cuadros-Vargas, Hector Cancela, Ernesto Cuadros-Vargas
Editorial	Institute of Electrical and Electronics Engineers Inc.
ISBN (versión digital)	9781467391436
DOI	https://doi.org/10.1109/CLEI.2015.7359459
Estado	Publicada - 16 dic. 2015
Publicado de forma externa	Sí
Evento	41st Latin American Computing Conference, CLEI 2015 - Arequipa, Perú Duración: 19 oct. 2015 → 23 oct. 2015

Serie de la publicación

Nombre	Proceedings - 2015 41st Latin American Computing Conference, CLEI 2015

Conferencia

Conferencia	41st Latin American Computing Conference, CLEI 2015
País/Territorio	Perú
Ciudad	Arequipa
Período	19/10/15 → 23/10/15

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10.1109/CLEI.2015.7359459

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Del Alamo, C. J. L., Calla, L. A. R., & Pérez, L. J. F. (2015). Efficient approach for interest points detection in non-rigid shapes. En A. Cuadros-Vargas, H. Cancela, & E. Cuadros-Vargas (Eds.), Proceedings - 2015 41st Latin American Computing Conference, CLEI 2015 Artículo 7359459 (Proceedings - 2015 41st Latin American Computing Conference, CLEI 2015). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/CLEI.2015.7359459

Del Alamo, Cristian José López ; Calla, Luciano Arnaldo Romero ; Pérez, Lizeth Joseline Fuentes. / Efficient approach for interest points detection in non-rigid shapes. Proceedings - 2015 41st Latin American Computing Conference, CLEI 2015. editor / Alex Cuadros-Vargas ; Hector Cancela ; Ernesto Cuadros-Vargas. Institute of Electrical and Electronics Engineers Inc., 2015. (Proceedings - 2015 41st Latin American Computing Conference, CLEI 2015).

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title = "Efficient approach for interest points detection in non-rigid shapes",

abstract = "Due to the increasing amount of data and the reduction of costs in 3D data acquisition devices, there has been a growing interest, in developing efficient and robust feature extraction algorithms for 3D shapes, invariants to isometric, topological and noise changes, among others. One of the key tasks for feature extraction in 3D shapes is the interest points detection; where interest points are salient structures, which can be used, instead of the whole object. In this research, we present a new approach to detect interest points in 3D shapes by analyzing the triangles that compose the mesh which represent the shape, in different way to other algorithms more complex such as Harris 3D or HKS. Our results and experiments of repeatability, confirm that our algorithm is stable and robust, in addition, the computational complexity is O(n log n), where n represents the number of faces of the mesh.",

keywords = "3D Harris, 3D interest points detection, HKS, key points",

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note = "Publisher Copyright: {\textcopyright} 2015 IEEE.; 41st Latin American Computing Conference, CLEI 2015 ; Conference date: 19-10-2015 Through 23-10-2015",

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Del Alamo, CJL, Calla, LAR & Pérez, LJF 2015, Efficient approach for interest points detection in non-rigid shapes. En A Cuadros-Vargas, H Cancela & E Cuadros-Vargas (eds.), Proceedings - 2015 41st Latin American Computing Conference, CLEI 2015., 7359459, Proceedings - 2015 41st Latin American Computing Conference, CLEI 2015, Institute of Electrical and Electronics Engineers Inc., 41st Latin American Computing Conference, CLEI 2015, Arequipa, Perú, 19/10/15. https://doi.org/10.1109/CLEI.2015.7359459

Efficient approach for interest points detection in non-rigid shapes. / Del Alamo, Cristian José López; Calla, Luciano Arnaldo Romero; Pérez, Lizeth Joseline Fuentes.
Proceedings - 2015 41st Latin American Computing Conference, CLEI 2015. ed. / Alex Cuadros-Vargas; Hector Cancela; Ernesto Cuadros-Vargas. Institute of Electrical and Electronics Engineers Inc., 2015. 7359459 (Proceedings - 2015 41st Latin American Computing Conference, CLEI 2015).

Producción científica: Capítulo del libro/informe/acta de congreso › Contribución a la conferencia › revisión exhaustiva

TY - GEN

T1 - Efficient approach for interest points detection in non-rigid shapes

AU - Del Alamo, Cristian José López

AU - Calla, Luciano Arnaldo Romero

AU - Pérez, Lizeth Joseline Fuentes

PY - 2015/12/16

Y1 - 2015/12/16

N2 - Due to the increasing amount of data and the reduction of costs in 3D data acquisition devices, there has been a growing interest, in developing efficient and robust feature extraction algorithms for 3D shapes, invariants to isometric, topological and noise changes, among others. One of the key tasks for feature extraction in 3D shapes is the interest points detection; where interest points are salient structures, which can be used, instead of the whole object. In this research, we present a new approach to detect interest points in 3D shapes by analyzing the triangles that compose the mesh which represent the shape, in different way to other algorithms more complex such as Harris 3D or HKS. Our results and experiments of repeatability, confirm that our algorithm is stable and robust, in addition, the computational complexity is O(n log n), where n represents the number of faces of the mesh.

AB - Due to the increasing amount of data and the reduction of costs in 3D data acquisition devices, there has been a growing interest, in developing efficient and robust feature extraction algorithms for 3D shapes, invariants to isometric, topological and noise changes, among others. One of the key tasks for feature extraction in 3D shapes is the interest points detection; where interest points are salient structures, which can be used, instead of the whole object. In this research, we present a new approach to detect interest points in 3D shapes by analyzing the triangles that compose the mesh which represent the shape, in different way to other algorithms more complex such as Harris 3D or HKS. Our results and experiments of repeatability, confirm that our algorithm is stable and robust, in addition, the computational complexity is O(n log n), where n represents the number of faces of the mesh.

KW - 3D Harris

KW - 3D interest points detection

KW - HKS

KW - key points

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BT - Proceedings - 2015 41st Latin American Computing Conference, CLEI 2015

A2 - Cuadros-Vargas, Alex

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PB - Institute of Electrical and Electronics Engineers Inc.

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Y2 - 19 October 2015 through 23 October 2015

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Del Alamo CJL, Calla LAR, Pérez LJF. Efficient approach for interest points detection in non-rigid shapes. En Cuadros-Vargas A, Cancela H, Cuadros-Vargas E, editores, Proceedings - 2015 41st Latin American Computing Conference, CLEI 2015. Institute of Electrical and Electronics Engineers Inc. 2015. 7359459. (Proceedings - 2015 41st Latin American Computing Conference, CLEI 2015). doi: 10.1109/CLEI.2015.7359459

Efficient approach for interest points detection in non-rigid shapes

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