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Preim B., Bartz D. — Visualization in Medicine: Theory, Algorithms, and Applications
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Íàçâàíèå: Visualization in Medicine: Theory, Algorithms, and Applications
Àâòîðû: Preim B., Bartz D.
Àííîòàöèÿ: Visualization in Medicine is the first book on visualization and its application to problems in medical diagnosis, education, and treatment. The book describes the algorithms, the applications and their validation (how reliable are the results?), and the clinical evaluation of the applications (are the techniques useful?). It discusses visualization techniques from research literature as well as the compromises required to solve practical clinical problems.
The book covers image acquisition, image analysis, and interaction techniques designed to explore and analyze the data. The final chapter shows how visualization is used for planning liver surgery, one of the most demanding surgical disciplines. The book is based on several years of the authors' teaching and research experience. Both authors have initiated and lead a variety of interdisciplinary projects involving computer scientists and medical doctors, primarily radiologists and surgeons.
* A core field of visualization and graphics missing a dedicated book until now
* Written by pioneers in the field and illustrated in full color
* Covers theory as well as practice
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Ñòàòóñ ïðåäìåòíîãî óêàçàòåëÿ: Ãîòîâ óêàçàòåëü ñ íîìåðàìè ñòðàíèö
ed2k: ed2k stats
Ãîä èçäàíèÿ: 2007
Êîëè÷åñòâî ñòðàíèö: 680
Äîáàâëåíà â êàòàëîã: 30.12.2007
Îïåðàöèè: Ïîëîæèòü íà ïîëêó |
Ñêîïèðîâàòü ññûëêó äëÿ ôîðóìà | Ñêîïèðîâàòü ID
Ïðåäìåòíûé óêàçàòåëü
Virtual endoscopy, neuroendoscopy 391—397
Virtual endoscopy, processing pipeline 382
Virtual endoscopy, rendering for 384—385
Virtual endoscopy, summary 400—402
Virtual endoscopy, technical issues 384—387
Virtual endoscopy, training and teaching 383
Virtual endoscopy, user interface 387
Virtual environments 412
Virtual neuroendoscopy 391—397
Virtual neuroendoscopy, cerebral ventricular system 391—394
Virtual neuroendoscopy, multimodal visualization 394—395
Virtual neuroendoscopy, pituitary gland 395—397
Virtual occlusion 412
Virtual resection 294—297
Virtual resection in liver surgery planning 303
Virtual resection with deformable cutting plane 297—307
Virtual resection, application areas 305
Virtual resection, cutting plane boundaries, defining 298
Virtual resection, defined 294
Virtual resection, efficient visualization of 305—306
Virtual resection, evaluation 306—307
Virtual resection, initial cutting plane generation 298—302
Virtual resection, modification of 302—303
Virtual resection, requirements 295—296
Virtual resection, resection proposals combination 307
Virtual resection, specification by drawing on slices 296—297
Virtual resection, specification by erasing 296
Virtual resection, summary 310
Virtual resection, surgery simulation and 310
Virtual resection, visualization 305
Virtual resection, visualization parameters 306
Virtual resection, volume representation 308
Virtual scalpel 307
Virtual ventriculoscopy 392—394
Virtual ventriculoscopy, illustrated 393
Virtual ventriculoscopy, snapshots 393
Visibility analysis 439—440
Visible Human datasets 527
Visual perception 27—30
Visual perception, color 30—33
Visual perception, gray value 27—30
Visualization software, Amira 367 579—580
Visualization software, documentation 577
Visualization software, general purpose 576—577
Visualization software, IDL 586
Visualization software, interaction support 576
Visualization software, ITK 578
Visualization software, Julius 585
Visualization software, MatLab 586
Visualization software, memory management 577
Visualization software, MeVisLab 580—584
Visualization software, MITK 584
Visualization software, OFFIS dicom toolkit 587
Visualization software, SciRun 578—579
Visualization software, scripting 576—577
Visualization software, summary 587
Visualization software, textual versus visual programming 576
Visualization software, VolV 584—585
Visualization software, VTK 577—578
Visualizations for computer-aided detection 376—377
Visualizations for medical education 525—567
Visualizations in medicine 1—3
Visualizations with parametric surfaces 353
Visualizations with subdivision surfaces 355—357
Visualizations with tensor glyphs 473—477
Visualizations with truncated cones 353—355
Visualizations, 2D 6—7 271
Visualizations, 3D 6—7 77—81
Visualizations, anatomic tree structures 343—379
Visualizations, animating 541—545
Visualizations, bronchial tree 373
Visualizations, cerebral blood vessels 373
Visualizations, color-coded 368
Visualizations, convolution surfaces 361—365
Visualizations, fiber bundles 489—492
Visualizations, gradient-based 278—280
Visualizations, hepatic vein 513
Visualizations, integrated 129 571—572
Visualizations, intrahepatic vascular anatomy 356
Visualizations, intraoperative 403—407
Visualizations, labeling 530—541
Visualizations, liver vessel 371
Visualizations, model-based 367 572—573
Visualizations, morphologic/functional image data integration 572
Visualizations, multimodal 484—485
Visualizations, multiparameter 245—247
Visualizations, outlook 569—573
Visualizations, portal vein 372 374
Visualizations, preoperative/intraoperative integration 571—572
Visualizations, range 448—449
Visualizations, sac-like cerebral aneurysm 377
Visualizations, scientific 1—3
Visualizations, semitransparent 352
Visualizations, simulation integration 570—571
Visualizations, streamline 478—483
Visualizations, systems 575—587
Visualizations, vessel 350—352
Visualizations, virtual resection 305
Visualizations, volume 135—153 (see also “Medical visualization”)
Volume approximation 327—328
Volume approximation, defined 327
Volume approximation, histogram analysis 328
Volume approximation, illustrated 329
Volume approximation, subdivision approach 328
Volume cells, bilinear contours 16
Volume cells, illustrated 14
Volume Illustration 428
Volume measurements 324—329
Volume measurements, approximation 327—328
Volume measurements, selection 324—327
Volume measurements, tools 329
Volume measurements, validation 328—329
Volume rendering 78
Volume rendering, compositing 189—195
Volume rendering, context-preserving 429
Volume rendering, equation 185—186
Volume rendering, Fourier domain 220—221
Volume rendering, hardware 221
Volume rendering, hybrid 223—228
Volume rendering, importance-driven 444—445
Volume rendering, indirect 155—182
Volume rendering, local 295
Volume rendering, pipeline 187—189
Volume rendering, plane-based 155—156
Volume rendering, pre-integrated 194—195
Volume rendering, preclassified pipeline 188—189
Volume rendering, specialized systems 586
Volume rendering, surface-based 156—173
Volume rendering, tagged 583
Volume rendering, thin slab 193—194
Volume rendering, two-level 222 227—228
Volume selection 324—327
Volume selection, defined 324
Volume selection, drawbacks 324—325
Volume selection, enhancing 325
Volume selection, interval-based 325—327
Volume selection, successful 325
Volume visualization 135—257
Volume visualization, direct rendering 135 183—196
Volume visualization, fundamentals 137—153
Volume visualization, indirect rendering 135 155—182
Volume visualization, pipeline 137
Volume visualization, pipeline illustration 138 (see also “Visualizations”)
VolumePro-board 221
Volumes of interest (VOI) 85
Volumetric data 1 13
VolV 584—585
Voxel selection 364
Voxelization 179—180 224
Voxelization, concerns 179
Voxelization, defined 179
Voxelization, VXT library 180
VoxelMan 547
VoxelMan, defined 147 546
VoxelMan, viewing modes 548
VoxelMan, Visible Human dataset exploration 548
VTK 577—578
Watershed segmentation 100—104
Watershed segmentation of brain 104
Watershed segmentation, applications 102
Watershed segmentation, defined 100
Watershed segmentation, interaction techniques 118
Watershed segmentation, marker-based 101—102
Watershed segmentation, merging basins 101
Watershed segmentation, oversegmentation problem 102
Watershed segmentation, principle 101 103
Watershed segmentation, variants 102 (see also “Segmentation”)
Width coefficient 369
Windowing 71—72
X-ray imaging 36—41
X-ray imaging, 2D 41
X-ray imaging, angiography 39
X-ray imaging, basis 36
X-ray imaging, contrast 36
X-ray imaging, CT versus 41—42
X-ray imaging, digital mammography 38
X-ray imaging, fluoroscopy 38
X-ray imaging, illustrated 36
X-ray imaging, principle 37
X-ray imaging, quality 36
X-ray imaging, rotational 39—40
X-ray imaging, summary 63
X-rays, discovery 36
X-rays, intensity 37
X-rays, problem 41
X-rays, quanta 36
X-rays, soft-beam 37
Zoomed histograms 140
ZoomIllustrator 549—552
ZoomIllustrator, 3D puzzle 551
ZoomIllustrator, architecture 550
ZoomIllustrator, defined 549
ZoomIllustrator, limitations 550—551
ZoomIllustrator, summary 552
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