Master's Thesis - Studierstube Augmented Reality Project - Graz ...

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Figure B.4: The left side of figure B.5 144
Figure B.5: This UML class diagram gives an overview of the additional implemented visualization nodes. The left part of this diagram is given in figure B.4. 145
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Master’s Thesis Quantitative Meas
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I hereby certify that the work pres
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Kurzfassung In dieser Arbeit werden
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CONTENTS 4.2.2 Noise Suppression .
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Chapter 1 Introduction Assessment o
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Figure 1.1: This workflow diagram d
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Chapter 2 Visualization Visualizati
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2.1 Technical Visualization (a) (b)
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2.1 Technical Visualization Next a
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2.1 Technical Visualization Figure
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2.1 Technical Visualization • ave
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2.1 Technical Visualization spaced
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2.1 Technical Visualization improve
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2.1 Technical Visualization try to
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2.1 Technical Visualization Visuali
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2.1 Technical Visualization of N.
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2.2 Advanced Graphics Processing ap
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2.2 Advanced Graphics Processing pr
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2.2 Advanced Graphics Processing te
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Chapter 3 Magnetic Resonance Imagin
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3.1 Magnetic Field and Magnetizatio
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3.1 Magnetic Field and Magnetizatio
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3.2 Excitation of Magnetized Matter
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3.2 Excitation of Magnetized Matter
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3.3 Signal localization 1. A gradie
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3.3 Signal localization in one dire
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3.3 Signal localization a commonly
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3.4 Image Contrast (a) T1-contrast
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3.5 Cine Cardiac Fast Low-Angle Sho
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4.1 Requirements visualization of c
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4.2 Data Preprocessing 4.2 Data Pre
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4.2 Data Preprocessing and if ∆v
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4.3 Intermediate File Format a simp
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4.4 Visualization Framework impleme
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4.4 Visualization Framework hardwar
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4.4 Visualization Framework 3 void
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4.4 Visualization Framework • fra
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4.4 Visualization Framework Figure
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Chapter 5 Implementation This chapt
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5.2 iMEDgine extensions Figure 5.1:
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5.2 iMEDgine extensions which eases
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5.2 iMEDgine extensions solution fu
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5.2 iMEDgine extensions 23 cam_posi
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5.2 iMEDgine extensions Figure 5.4:
Page 101 and 102: 5.2 iMEDgine extensions • SoSFStr
Page 103 and 104: 5.2 iMEDgine extensions 6 Z=" -238.
Page 105 and 106: 5.3 Visualization nodes and subgrap
Page 121 and 122: Chapter 6 Experiments Several atten
Page 123 and 124: 6.3 Results 6.3 Results To complete
Page 125 and 126: 6.4 Scalability activity. The highe
Page 127 and 128: 6.4 Scalability (a) Stream lines fo
Page 129 and 130: 6.4 Scalability (a) Stream tubes ap
Page 131 and 132: 6.4 Scalability Figure 6.10: Compar
Page 133 and 134: Chapter 7 Future Work This chapter
Page 135 and 136: 7.3 Derived Magnitudes possibilitie
Page 137 and 138: 7.5 Clinical Evaluations (a) Stereo
Page 139 and 140: Beside the improvement of known spa
Page 141 and 142: Appendix A Intermediate File Format
Page 143 and 144: A.2 Data Files Offset Name Type Des
Page 149 and 150: This chapter supplements chapter 5
Page 151: 143 Figure B.3: An thinned out UML
Page 155 and 156: Glossary Notation bipolar gradient
Page 157 and 158: Glossary Notation Description MIP M
Page 159 and 160: Glossary Notation Description shade
Page 161 and 162: LIST OF FIGURES 3.5 The slice-profi
Page 163 and 164: List of Tables 2.1 CPU - GPU analog
Page 165 and 166: REFERENCES [Brill1994] M. Brill, W.
Page 167 and 168: REFERENCES [iMedgine2006] T. Gross,
Page 169 and 170: REFERENCES [Kniss2002a] Joe Kniss,
Page 171 and 172: REFERENCES [Markl2003] Michael Mark
Page 173 and 174: REFERENCES [Roth1982] Scott D. Roth
Page 175 and 176: REFERENCES [Vivek1999] andAlexPang
Page 177 and 178: INDEX flow data, 135 format definit
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Master's Thesis - Studierstube Augmented Reality Project - Graz ...

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