Begoña Calvo

What is she best known for?

The fields of study she is best known for:

• Surgery
• Composite material
• Anatomy

Begoña Calvo mainly investigates Finite element method, Hyperelastic material, Soft tissue, Structural engineering and Knee Joint. Her Finite element method study combines topics from a wide range of disciplines, such as Isotropy, Surgical planning, Computer vision and Artificial intelligence. Her research integrates issues of Biomedical engineering, Constitutive equation and Biomechanics in her study of Hyperelastic material.

Her Soft tissue research incorporates elements of Transverse isotropy and Softening. Her Structural engineering research includes elements of Continuum mechanics and Anisotropy. While the research belongs to areas of Knee Joint, Begoña Calvo spends her time largely on the problem of Joint, intersecting her research to questions surrounding Kinematics, Orthodontics, Tibia and Tears.

Her most cited work include:

• A three-dimensional finite element analysis of the combined behavior of ligaments and menisci in the healthy human knee joint. (332 citations)
• Finite element analysis of the effect of meniscal tears and meniscectomies on human knee biomechanics. (195 citations)
• Why lateral meniscectomy is more dangerous than medial meniscectomy. A finite element study (130 citations)

What are the main themes of her work throughout her whole career to date?

Begoña Calvo mainly focuses on Finite element method, Biomedical engineering, Hyperelastic material, Surgery and Abdominal wall. Her Finite element method research is included under the broader classification of Structural engineering. She has researched Biomedical engineering in several fields, including Uniaxial tension, Anatomy, Biomechanics, Cornea and Stiffness.

Her Hyperelastic material study also includes fields such as

• Constitutive equation together with Mechanics and Finite strain theory,
• Soft tissue and related Softening. In the field of Surgery, her study on Implant, Pelvic floor and Abdominal surgery overlaps with subjects such as Hernia surgery. Her Abdominal wall study deals with Surgical mesh intersecting with Composite material.

She most often published in these fields:

• Finite element method (33.11%)
• Biomedical engineering (23.18%)
• Hyperelastic material (18.54%)

What were the highlights of her more recent work (between 2015-2021)?

• Finite element method (33.11%)
• Biomedical engineering (23.18%)
• Surgery (17.88%)

In recent papers she was focusing on the following fields of study:

Her primary scientific interests are in Finite element method, Biomedical engineering, Surgery, Cornea and Abdominal wall. The study incorporates disciplines such as Tilt, Lens, Curvature and Haptic technology, Artificial intelligence in addition to Finite element method. Her Biomedical engineering research is multidisciplinary, incorporating elements of Kinematics and Biomechanics.

Her research in Biomechanics intersects with topics in Corneal shape, Displacement and Risk analysis. Begoña Calvo works mostly in the field of Cornea, limiting it down to concerns involving Intraocular pressure and, occasionally, Indentation and Dioptre. Her studies deal with areas such as Displacement field, Suture and Hernia repair, Surgical mesh, Hernia as well as Abdominal wall.

Between 2015 and 2021, her most popular works were:

• Sequential Non-Rigid Structure from Motion Using Physical Priors (57 citations)
• Automatized Patient-Specific Methodology for Numerical Determination of Biomechanical Corneal Response. (22 citations)
• Real-time 3D reconstruction of non-rigid shapes with a single moving camera (19 citations)

In her most recent research, the most cited papers focused on:

• Surgery
• Composite material
• Radiology

Finite element method, Computer vision, Artificial intelligence, Biomedical engineering and Surgery are her primary areas of study. Her Finite element method research includes themes of Algorithm, Abdominal wall and Support vector machine. Her study looks at the relationship between Computer vision and fields such as Extended Kalman filter, as well as how they intersect with chemical problems.

Her Artificial intelligence research integrates issues from Stiffness matrix and Piecewise. Her Biomedical engineering study integrates concerns from other disciplines, such as Conical surface, Kinematics, Cross section and Visual acuity. Her work on Pelvic Floor Muscle, Pelvic floor, Implant and Dioptre is typically connected to Vertex Presentation as part of general Surgery study, connecting several disciplines of science.

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