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Items: 1 to 20 of 69

1.

Seeing through biological tissues using the fly eye principle.

Rosen J, Abookasis D.

Opt Express. 2003 Dec 29;11(26):3605-11.

PMID:
19471497
2.

Noninvasive optical imaging by speckle ensemble.

Rosen J, Abookasis D.

Opt Lett. 2004 Feb 1;29(3):253-5.

PMID:
14759042
3.

NOISE 2 imaging system: seeing through scattering tissue with a reference point.

Abookasis D, Rosen J.

Opt Lett. 2004 May 1;29(9):956-8.

PMID:
15143639
4.

Stereoscopic imaging through scattering media.

Abookasis D, Rosen J.

Opt Lett. 2006 Mar 15;31(6):724-6.

PMID:
16544603
5.
6.

Real-time three-dimensional object recognition with multiple perspectives imaging.

Matoba O, Tajahuerce E, Javidi B.

Appl Opt. 2001 Jul 10;40(20):3318-25.

PMID:
18360355
7.

Design and fabrication of a freeform microlens array for a compact large-field-of-view compound-eye camera.

Li L, Yi AY.

Appl Opt. 2012 Apr 20;51(12):1843-52. doi: 10.1364/AO.51.001843.

PMID:
22534888
8.

Three-dimensional temporal image reconstruction of an object hidden in highly scattering media by time-gated optical tomography.

Kalpaxis LL, Wang LM, Galland P, Liang X, Ho PP, Alfano RR.

Opt Lett. 1993 Oct 15;18(20):1691-3.

PMID:
19823486
9.

Micro-optical artificial compound eyes.

Duparré JW, Wippermann FC.

Bioinspir Biomim. 2006 Mar;1(1):R1-16. Epub 2006 Apr 6. Review.

PMID:
17671298
10.

Telemedicine-based digital retinal imaging vs standard ophthalmologic evaluation for the assessment of diabetic retinopathy.

Li Z, Wu C, Olayiwola JN, Hilaire DS, Huang JJ.

Conn Med. 2012 Feb;76(2):85-90.

PMID:
22670358
11.

Image formation with a microlens-based optical detector: a three-dimensional mapping approach.

Unholtz D, Semmler W, Dössel O, Peter J.

Appl Opt. 2009 Apr 1;48(10):D273-9.

PMID:
19340119
12.

Transmission and fluorescence angular domain optical projection tomography of turbid media.

Vasefi F, Ng E, Kaminska B, Chapman GH, Jordan K, Carson JJ.

Appl Opt. 2009 Nov 20;48(33):6448-57. doi: 10.1364/AO.48.006448.

PMID:
19935964
13.

Biomimetic machine vision system.

Harman WM, Barrett SF, Wright CH, Wilcox M.

Biomed Sci Instrum. 2005;41:175-80.

PMID:
15850101
14.

Review of three-dimensional holographic imaging by multiple-viewpoint-projection based methods.

Shaked NT, Katz B, Rosen J.

Appl Opt. 2009 Dec 1;48(34):H120-36. doi: 10.1364/AO.48.00H120.

PMID:
19956282
15.

Standardized speckle measurement method matched to human speckle perception in laser projection systems.

Roelandt S, Meuret Y, Craggs G, Verschaffelt G, Janssens P, Thienpont H.

Opt Express. 2012 Apr 9;20(8):8770-83. doi: 10.1364/OE.20.008770.

PMID:
22513588
16.

Optical Cluster Eye fabricated on wafer-level.

Meyer J, Brückner A, Leitel R, Dannberg P, Bräuer A, Tünnermann A.

Opt Express. 2011 Aug 29;19(18):17506-19. doi: 10.1364/OE.19.017506.

PMID:
21935117
17.

Time-resolved and nonlinear optical imaging for medical applications.

Alfano RR, Demos SG, Galland P, Gayen SK, Guo Y, Ho PP, Liang X, Liu F, Wang L, Wang QZ, Wang WB.

Ann N Y Acad Sci. 1998 Feb 9;838:14-28. Review.

PMID:
9511792
18.

Digital image archiving: challenges and choices.

Dumery B.

Radiol Manage. 2002 May-Jun;24(3):30-8; quiz 39-41.

PMID:
12080930
19.

Feasibility study of imaging of intraductal papillary mucinous tumors of the pancreas based on integral photography.

Tanizawa Y, Nakagohri T, Kinoshita T, Konishi M, Takahashi S, Nakajima S, Kobayashi E, Liao H, Sakuma I, Dohi T.

Hepatogastroenterology. 2005 Jan-Feb;52(61):258-60.

PMID:
15783044
20.

Performance of a PSPMT based detector for scintimammography.

Williams MB, Williams MB, Goode AR, Galbis-Reig V, Majewski S, Weisenberger AG, Wojcik R.

Phys Med Biol. 2000 Mar;45(3):781-800.

PMID:
10730971

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