MilosKojic,MiljanMilosevic,ArturasZiemys
Computational Models in Biomedical Engineering: Finite Element Models Based on Smeared Physical Fields: Theory, Solutions, and Software
Computational Models in Biomedical Engineering: Finite Element Models Based on Smeared Physical Fields: Theory, Solutions, and Software
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Excellent- More about Computational Models in Biomedical Engineering: Finite Element Models Based on Smeared Physical Fields: Theory, Solutions, and Software
The book Computational Models in Biomedical Engineering: Finite Element Models Based on Smeared Physical Fields: Theory, Solutions, and Software discusses novel computational methodologies developed by the authors for addressing topics in biomedicine. It introduces the Kojic Transport Model (KTM), a composite smeared finite element (CSFE) formulation that includes different fields in a composite medium, such as tissue, and considers biological barriers.
Format: Paperback / softback
Length: 400 pages
Publication date: 01 September 2022
Publisher: Elsevier Science & Technology
Computational Models in Biomedical Engineering: Finite Element Models Based on Smeared Physical Fields: Theory, Solutions, and Software delves into groundbreaking computational methodologies developed by the authors, addressing a diverse range of topics within biomedicine. These concepts revolve around the utilization of the so-called smeared physical field, seamlessly integrated into the finite element method. A notable approach is presented by their Kojic Transport Model (KTM), which represents a novel and straightforward methodology. Within this model, a composite smeared finite element (CSFE) is employed as a FE formulation, encompassing various fields such as drug concentration, electrical potential, and more, within a composite medium, such as tissue. This composite medium encompasses the capillary and lymphatic system, diverse cell groups, and organelles. The continuum domains within the model participate based on their volumetric fractions. Furthermore, governing laws and material parameters are assigned to each domain, ensuring a comprehensive representation. To account for biological barriers, such as vessel walls and cells, connectivity elements are employed at each FE node to couple the continuum fields. This intricate coupling mechanism allows for the simulation of complex biological processes with precision and accuracy. By leveraging these innovative computational methodologies, researchers in biomedical engineering can gain deeper insights into the intricate workings of biological systems, paving the way for advancements in healthcare and medical research.
Dimension: 235 x 191 (mm)
ISBN-13: 9780323884723
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