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Computational Biomechanics for Medicine: Measurements, Models, and Predictions 2019 ed. [Kõva köide]

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  • Formaat: Hardback, 166 pages, kõrgus x laius: 235x155 mm, kaal: 3908 g, 53 Illustrations, color; 17 Illustrations, black and white; VIII, 166 p. 70 illus., 53 illus. in color., 1 Hardback
  • Ilmumisaeg: 15-May-2018
  • Kirjastus: Springer International Publishing AG
  • ISBN-10: 3319755889
  • ISBN-13: 9783319755885
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Computational Biomechanics for Medicine: Measurements, Models, and Predictions 2019 ed.Suurem pilt
  • Formaat: Hardback, 166 pages, kõrgus x laius: 235x155 mm, kaal: 3908 g, 53 Illustrations, color; 17 Illustrations, black and white; VIII, 166 p. 70 illus., 53 illus. in color., 1 Hardback
  • Ilmumisaeg: 15-May-2018
  • Kirjastus: Springer International Publishing AG
  • ISBN-10: 3319755889
  • ISBN-13: 9783319755885
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9783319755885.html
This volume comprises the latest developments in both fundamental science and patient-specific applications, discussing topics such as: cellular mechanics, injury biomechanics, biomechanics of the heart and vascular system, algorithms of computational biomechanics for medical image analysis, and both patient-specific fluid dynamics and solid mechanics simulations. With contributions from researchers world-wide, Computational Biomechanics for Medicine: Measurments, Models, and Predictions provides an opportunity for specialists in the field to present their latest methodologies and advancements.
Chapter1: Making head and neck reconstruction surgery an engineering
process.
Chapter2: Atlas of Acceleration-Induced Brain Deformation from
Measurements in Vivo.
Chapter3: Reconstruction of Real-World
Car-to-Pedestrian Accident Using Computational Biomechanics Model: Effects of
the Choice of Boundary Conditions of the Brain on Brain Injury Risk.-
Chapter4: Computational Modeling of Fluid-Structure Interaction between Blood
Flow and Mitral Valve.
Chapter5: Maximum Principal AAA Wall Stress is
Proportional to Wall Thickness.
Chapter6: An Immersed Boundary Method for
Detail-Preserving Soft Tissue Simulation from Medical Images.
Chapter7: A
Flux-Conservative Finite Difference scheme for the numerical solution of the
nonlinear bioheat equation.
Chapter8: Quantifying Carotid Pulse Waveforms
Using Subpixel Image Registration.
Chapter9: A Discrete Element Method for
modelling cell mechanics application to the simulation of chondrocyte
behavior in the growth plate.
Chapter10: Image-based biomechanical modelling
of heart failure.
Chapter11: A comparison of biomechanical models for MRI to
digital breast tomosynthesis 3D registration.
Chapter12: Towards a real-time
full-field stereoscopic imaging system for tracking lung surface deformation
under pressure controlled ventilation.
Chapter13: Patient-specific
simulation: non-destructive identification method for soft tissue under large
strain Application to pelvic system.
Chapter14: Simulating Platelet
Transport in Type-B Aortic Dissection.