Computational modeling in biomechanics

Computational modeling in biomechanics

"Availability of advanced computational technology has fundamentally altered the investigative paradigm in the field of biomechanics. Armed with sophisticated computational tools, researchers are seeking answers to fundamental questions by exploring complex biomechanical phenomena at the molecu...

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Autres auteurs : De Suvranu (Éditeur scientifique), Guilak Farshid (Éditeur scientifique), Mofrad Mohammad R. K. (Éditeur scientifique)
Format : Livre
Langue : anglais
Titre complet : Computational modeling in biomechanics / Suvranu De, Farshid Guilak, Mohammad R.K. Mofrad, editors
Publié : Dordrecht : Springer , cop. 2010
Description matérielle : 1 vol. (viii-581 p.)
Contenu : Section 1: Biofluids and Mass Transport. Immersed Boundary/Continuum Methods ; Computational Modeling Of Atp/Adp Concentration At The Vascular Surface ; Application Of The Lattice-Boltzmann Method To Intestinal Fluid Mechanics. Section 2: Cardiovasular Biomechanics. Computational Vascular Mechanics ; Computational Methods For Modeling Vascular Hemodynamics ; Computational Modeling Of Coronary Stents ; Computational Modeling Of Aortic Heart Valves ; Computational Modeling Of Growth And Remodeling In Biological Soft Tissues: Application To Arterial Mechanics. Section 3: Musculoskeletal Biomechanics. Computational Modeling Of Trabecular Bone Mechanics ; Computational Modeling Of Extravascular Flow In Bone ; Computational Modeling Of Cell Mechanics In Articular Cartilage ; Computational Models Of Tissue Differentiation. Section 4: Soft Tissue Biomechanics. A Review Of The Mathematical And Computational Foundations Of Biomechanical Imaging ; Interactive Surgical Simulation Using A Meshfree Computational Method ; Computational Biomechanics Of The Human Cornea. Section 5: Biomolecular Mechanics and Multiscale Modeling. Intein Reaction Mechanisms With Qm/Mm Multiscale Methods ; Computational Scale Linking In Biological Protein Materials ; How To Measure Biomolecular Forces: A "Tug-Of-War" Approach ; Mechanics Of Cellular Membranes
Sujets :
Biomécanique > Modèles mathématiques
Biométrie
Simulation par ordinateur
Modèles biologiques

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