10.11.4 Three Dimensional Visualization for Medical Data

Jaman, K.A.[Kirby A.], Gordon, R.[Richard], Rangayyan, R.M.[Rangaraj M.],
Display of 3D Anisotropic Images from Limited-View Computed Tomograms,
CVGIP(30), No. 3, June 1985, pp. 345-361.
Elsevier DOI BibRef 8506

Mihalca, G.Y., Kazakevich, E.,
Stereoscopic imaging by alternately blocking light,
US_Patent5,964,696, 1999
WWW Link. for endocsopic data BibRef 9900

Agus, M.[Marco], Bettio, F.[Fabio], Giachetti, A.[Andrea], Gobbetti, E.[Enrico], Guitián, J.A.I.[José Antonio Iglesias], Marton, F.[Fabio], Nilsson, J.[Jonas], Pintore, G.[Giovanni],
An interactive 3D medical visualization system based on a light field display,
VC(25), No. 9, September 2009, pp. xx-yy.
Springer DOI 0909
BibRef

Kwon, K.C.[Ki-Chul], Lim, Y.T.[Young-Tae], Kim, N.[Nam], Yoo, K.H.[Kwan-Hee], Hong, J.M.[Jong-Myeon], Park, G.C.[Gi-Chang],
High-Definition 3D Stereoscopic Microscope Display System for Biomedical Applications,
JIVP(2010), No. 2010, pp. xx-yy.
DOI Link 1003
BibRef

Friese, K.I.[Karl-Ingo], Blanke, P.[Philipp], Wolter, F.E.[Franz-Erich],
YaDiV: An open platform for 3D visualization and 3D segmentation of medical data,
VC(27), No. 2, February 2011, pp. 129-139.
WWW Link. 1103
BibRef

Zinger, S.[Svitlana], Ruijters, D.[Daniel], Do, L.[Luat], de With, P.H.N.,
View Interpolation for Medical Images on Autostereoscopic Displays,
CirSysVideo(22), No. 1, January 2012, pp. 128-137.
IEEE DOI 1201
BibRef

Ruijters, D.[Daniel], Zinger, S.[Svitlana],
iGLANCE: Transmission to medical high definition autostereoscopic displays,
3DTV09(1-4).
IEEE DOI 0905
BibRef

Anand, A., Moon, I., Javidi, B.,
Automated Disease Identification With 3-D Optical Imaging: A Medical Diagnostic Tool,
PIEEE(105), No. 5, May 2017, pp. 924-946.
IEEE DOI 1705
diseases, health care, medical image processing, 3D optical imaging system, automated disease identification, cell growth, cell morphology, cell physiology, healthcare, medical diagnostic tool, Biology, Diseases, Holography, Image reconstruction, Microscopy, Optical imaging, Biological cells, biomedical imaging, cell identification, cellular biophysics, classification algorithms, holography, medical diagnostic imaging, microscopy BibRef

Kim, S., Chang, Y., Ra, J.B.,
Cardiac Image Reconstruction via Nonlinear Motion Correction Based on Partial Angle Reconstructed Images,
MedImg(36), No. 5, May 2017, pp. 1151-1161.
IEEE DOI 1705
Arteries, Heart, Image reconstruction, Image resolution, Motion artifacts, X-ray imaging, Cardiac motion estimation (ME) and motion compensation (MC), cardiac X-ray computed tomography, coronary artery imaging, BibRef

Kim, S., Chang, Y., Ra, J.B.,
Cardiac Motion Correction for Helical CT Scan With an Ordinary Pitch,
MedImg(37), No. 7, July 2018, pp. 1587-1596.
IEEE DOI 1808
cardiology, computerised tomography, image reconstruction, medical image processing, motion compensation, phantoms, partial angle reconstruction BibRef

Rizzi, A.[Alessandro], Barricelli, B.R.[Barbara Rita], Bonanomi, C.[Cristian], Albani, L.[Luigi], Gianini, G.[Gabriele],
Visual glare limits of HDR displays in medical imaging,
IET-CV(12), No. 7, October 2018, pp. 976-988.
DOI Link 1809
BibRef

Lopes, D.S.[Daniel Simões], Parreira, P.F.[Pedro F.], Mendes, A.R.[Ana R.], Pires, V.M.[Vasco M.], Paulo, S.F.[Soraia F.], Sousa, C.[Carlos], Jorge, J.A.[Joaquim A.],
Explicit design of transfer functions for volume-rendered images by combining histograms, thumbnails, and sketch-based interaction,
VC(34), No. 12, December 2018, pp. 1713-1723.
Springer DOI 1811
Visual quality of volume rendered medical imagry. BibRef

Kumar, P., Maes, P.,
Penetra3D: A penetrable, interactive, 360-degree viewable display,
3DUI15(169-170)
IEEE DOI 1511
data visualisation BibRef

Dorado, A., Saavedra, G., Hong, S.M., Martinez-Corral, M.,
Computation of microimages for plenoptic display,
IC3D14(1-4)
IEEE DOI 1503
Arrays BibRef

Piccinini, F., Tesei, A., Zoli, W., Bevilacqua, A.,
Image processing method for 3D volume rendering from one 2D projection: Application to Cancer spheroids,
IPTA14(1-6)
IEEE DOI 1503
cancer BibRef

Kumar, V.K., Chandra, T.R., Jana, S., Richhariya, A., Chhablani, J.,
3D visualization and mapping of choroid thickness based on optical coherence tomography: A step-by-step geometric approach,
IC3D13(1-8)
IEEE DOI 1503
display instrumentation BibRef

Ramenahalli, S.[Sudarshan], Denney, Jr., T.S.[Thomas S.],
3D visualization of cardiac tagged magnetic resonance image data using Non-Uniform Rational B-Splines (NURBS),
ICCVGIP10(190-196).
DOI Link 1111
BibRef

Chapter on Stereo: Three Dimensional Descriptions from Two or More Views, Binocular, Trinocular continues in
Three Dimensional Displays, Viewer Fatigue, Sickness, Comfort, Aesthetics .