Freehand ultrasound reconstruction based on ROI prior modeling and normalized convolution

Raúl San José Estépar; Marcos Martín-Fernández; Carlos Alberola-López; James Ellsmere; Ron Kikinis; Carl Fredrik Westin

doi:10.1007/978-3-540-39903-2_47

Freehand ultrasound reconstruction based on ROI prior modeling and normalized convolution

Raúl San José Estépar, Marcos Martín-Fernández, Carlos Alberola-López, James Ellsmere, Ron Kikinis, Carl Fredrik Westin

Résultat de recherche: Conference article › examen par les pairs

17 Citations (Scopus)

Résumé

3D freehand ultrasound imaging is becoming a widespread technique in medical examinations. This imaging technique produces a set of irregularly spaced B-scans. Reconstructing a regular grid from these B-scans is a challenging problem that enables the visualization and further analysis of the acquired data. This paper focuses on extending an existing method [1] to define the output reconstruction grid based on principal component analysis (PCA). Our method introduces a model for the region of interest (ROI) in order to adapt the grid to the ROI. In addition, a technique based on normalized convolution is proposed for the interpolation problem. A new applicability function based on the correlation function of a linear probe is used to avoid inter-resolution cell blurring.

Langue d'origine	English
Pages (de-à)	382-390
Nombre de pages	9
Journal	Lecture Notes in Computer Science
Volume	2879
Numéro de publication	PART 2
DOI	https://doi.org/10.1007/978-3-540-39903-2_47
Statut de publication	Published - 2003
Publié à l'externe	Oui
Événement	Medical Image Computing and Computer-Assisted Intervention, MICCAI 2003 - 6th International Conference Proceedings - Montreal, Que., Canada Durée: nov. 15 2003 → nov. 18 2003

ASJC Scopus Subject Areas

Theoretical Computer Science
General Computer Science

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10.1007/978-3-540-39903-2_47

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abstract = "3D freehand ultrasound imaging is becoming a widespread technique in medical examinations. This imaging technique produces a set of irregularly spaced B-scans. Reconstructing a regular grid from these B-scans is a challenging problem that enables the visualization and further analysis of the acquired data. This paper focuses on extending an existing method [1] to define the output reconstruction grid based on principal component analysis (PCA). Our method introduces a model for the region of interest (ROI) in order to adapt the grid to the ROI. In addition, a technique based on normalized convolution is proposed for the interpolation problem. A new applicability function based on the correlation function of a linear probe is used to avoid inter-resolution cell blurring.",

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AU - Estépar, Raúl San José

AU - Martín-Fernández, Marcos

AU - Alberola-López, Carlos

AU - Ellsmere, James

AU - Kikinis, Ron

AU - Westin, Carl Fredrik

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AB - 3D freehand ultrasound imaging is becoming a widespread technique in medical examinations. This imaging technique produces a set of irregularly spaced B-scans. Reconstructing a regular grid from these B-scans is a challenging problem that enables the visualization and further analysis of the acquired data. This paper focuses on extending an existing method [1] to define the output reconstruction grid based on principal component analysis (PCA). Our method introduces a model for the region of interest (ROI) in order to adapt the grid to the ROI. In addition, a technique based on normalized convolution is proposed for the interpolation problem. A new applicability function based on the correlation function of a linear probe is used to avoid inter-resolution cell blurring.

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Freehand ultrasound reconstruction based on ROI prior modeling and normalized convolution

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