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Table of Contents
1 Cover
7 Preface
8 1 Computational Modeling of Abdominal Aortic Aneurysms 1.1 Background 1.2 Clinical Trials for AAA 1.3 Computational Methods Applied for AAA 1.4 Experimental Testing to Determine Material Properties 1.5 Material Properties of the Aorta Wall 1.6 ILT Modeling 1.7 Finite Element Procedure and Fluid–Structure Interaction 1.8 Data Mining and Future Clinical Decision Support System 1.9 Conclusions References
9 2 Modeling the Motion of Rigid and Deformable Objects in Fluid Flow 2.1 Introduction 2.2 Numerical Model 2.3 Results 2.4 Conclusion References
10 3 Application of Computational Methods in Dentistry 3.1 Introduction 3.2 Finite Element Method in Dental Research 3.3 Examples of FEA in Clinical Research in Dentistry References
11 4 Determining Young's Modulus of Elasticity of Cortical Bone from CT Scans 4.1 Introduction 4.2 Bone Structure 4.3 Young's Modulus of Elasticity of Bone Tissue 4.4 Tool for Calculating the Young's Modulus of Elasticity of Cortical Bone from CT Scans 4.5 Numerical Analysis of Femoral Bone Using Calculated Elasticity Modulus 4.6 Conclusion Acknowledgements References
12 5 Parametric Modeling of Blood Flow and Wall Interaction in Aortic Dissection 5.1 Introduction 5.2 Medical Background 5.3 Theoretical Background 5.4 Blood Flow in the Arteries 5.5 Numerical Simulations 5.6 Conclusions References
13 6 Application of AR Technology in Bioengineering 6.1 Introduction 6.2 Review of AR Technology 6.3 Marker‐based AR Simple Application, Based on the OpenCV Framework 6.4 Marker‐less AR Simple Application, Based on the OpenCV Framework 6.5 Conclusion References
14 7 Augmented Reality Balance Physiotherapy in HOLOBALANCE Project 7.1 Introduction 7.2 Motivation 7.3 Holograms‐Based Balance Physiotherapy 7.4 Mock‐ups 7.5 Final Version 7.6 Biomechanical Model of Avatar Based on the Muscle Modeling References
15 8 Modeling of the Human Heart – Ventricular Activation Sequence and ECG Measurement 8.1 Introduction 8.2 Materials and Methods 8.3 Determination of Stretches in the Material Local Coordinate System 8.4 Determination of Normal Stresses from Current Stretches 8.5 Results and Discussion 8.6 Conclusion