doctor thesis - 早稲田大学リポジトリ(DSpace@Waseda University)
Contents
1.2. 4 2 4 2 1
3. 103
4. 84 Ht o 4a VDT Visual Display Terminal 1419
5. HTE LEs 1 2 at bel CN WEF 5 1 120 3H 80 5 2
6. 3D H 1 61 pp 612 613 2007 2 R Engle Beowulf 3D a case study Proc SPIE 6803 68030R 2008 3 R Neuman Bolt 3D a case study Proc SPIE 7237 72370F 2009 4 T H Turner Case study Beauty and the Beast 3D benefits of 3D viewing for 2D
7. 2D 2D 2 T
8. 2 R 4 4 LS 110 25 63 a ZRA
9. 3
10. 5 3 5 3 1 2D 2D 2
11. FPD 3D 1 8D 4 2 2
12. 4 1 3 1 1 1
13. 0 33 0 81 0 26 0 29 0 36 0 29 0 29 0 29 0 36 0 43 0 36 0 29 0 46 0 05 19 0 31 0 21 0 21 0 17 0 43 0 45 0 36 0 14 0 57 0 79 0 14 0 14 0 36 0 21 0 57 0 00 0 57 0 93 0 43 0 00 0 00 0 07 0 14 0 14 0 68 0 76 0 07 0 19 0 36 HY 4a pii N ak 2 F 70 334 p lt 1 Bonferroni F 3 282 p lt 1 2 924 p lt 1 DLP
14. 29 2D 2D3D 1 DD FPD DVD
15. 101 H 2D yee
16. EMR EMR OM EMR 60Hz 30Hz 1 60
17. E 75 Bi fat
18. CFF 102 pii H
19. FPD ON OFF 4 1 99
20. 2 2 37 R22 No 37 1 2 3 1 0 36 1 05 0 71 2 0 29 0 14 0 43 3 0 14 0 07 0 14 4 ROTAR 0 24 0 90 0 33 5 0 48 0 90 0 26 6 0 43 0 76 0 50 7 0 40 0 19 0 57 8 0 07 0 43 0 50 18 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37
21. S CG 1 3 2 2 W 4a Kat BF El A 1H A CgA CHS MEK
22. IPA WIT KY HRA H 3 H i CBU
23. 4 Z 5
24. CBU OCBU 1 2 3 4 5 6 7 8 M Mori T Hatada K Ishikawa T Saishoji O Wada J Nakamura N Terashima Mechanism of color breakup in field sequential color Projectors SID Digest pp 350 353 1999 O Wada J Nakamura K Ishikawa T Hatada Analysis of color breakup in field sequential color projection system for large area displays Proc IDW pp 993 996 1999 T Jarvenpaa Measuring color breakup of stationary images in fieldsequential color displays Journal of the SID
25. 2 HE EY AV Er TEx H CBU H J x W 4a 3
26. Color Breakup EH BY JER W a 2 H CBU User Experience
27. 57 W D ot PDP 1 60 et OFF ON 1060 1 120 1 120 41 3D 1 Flicker CFF Critical Flicker Frequency 9
28. 1 44 Rii W fat t t 7 82 p lt 05 t 2 56 p lt 05 3 9 1 2 CBU CBU 3 0 12 5 2 5 12 0 2 0 11 5 a a 1 5
29. 60 4 3 3D 1 Binocular Rivalry 4 Na Sire A
30. CBU 1 2 1 CgA 1 6 1 4 1 2 0 8 0 6 0 4 0 2 0 0 1 2 3 4 5 6 3 13 MERA CgA 50 pi W ak CBU 4 CBU 8 1
31. Artifact PR Lice CHE CRF HE B4 2 In ET 4
32. 34 8 EMR JOZ D DHI EMR Hae DIF EMR 710 3DCG
33. 2D FG
34. 3 2D 1 4 1 1 10 66 HF N fat BU ERIM LTK ERA 0 25 5 4 7 f 2D H
35. CHORE EAD ATA 5 1 81 VOT KE Be LT IO 5 1 pii o 4a 1 mo m m a es ESO gt RS AO GER
36. 36 pp 167 168 2006 4 48 Vol 43 pp 418 419 2007 5 mA 50 Vol 45 pp 172 173 2009 6 URE 1 51 Vol 46 pp 470 471 2010 7 GEM SHS HURE 2
37. 5 t t 3 03 p lt 05 t 4 32 p lt 05 1 t 3 52 p lt 05 2 23 p lt 05 2 ED HITED 15 amp X 4 20 8 1D
38. CBU CBU DMD ON OFF LCD 1 M J Baker J Xi J Chicharo E Li A contrast between DLP and LCD digital projection te
39. 1 2 BY Y LS ES W 4a HB AY 9B BY E Bes tA 1
40. CgA 20 90dB CgA E CgA 36 pii H CgA 40 5
41. H 2 2 2 CBU CBU 2 2 2 2 CBU 13 CBU CBU 4 6A E W 4a
42. pp 55 58 2005 ADRS 5 JED ZN Hn pp 439 442 2000 45 5 pp 1481 1492 2004 H Blaschko R S Comiline F H Schneider M Silver A D Smith Secretion of a chromaffin granule protein Chromogranin from the adrenal gland after splanchnic stimulation Nature 215 5096 pp 58 59 1967 A R amp D 34 3 pp 17 22
43. CBU CBU CBU CBU 5 CBU 29 pii N 4a
44. 1 00 5 10 5 RU SANE 30 1 10 2 23 15 3 08 2 10 1 92 15 2 38 8 10 1 L MAER 15 2 00 4 10 WE 1
45. 79 ii a at 1 5 5 1
46. FPD Flat Panel Display FPD LCD Liquid Crystal Display PDP Plasma Display Panel JEITA Japan Electronics and Information Technology Industries Association 2008 4 CRT Cathode Ray Tube 2010 FPD D FPD T
47. 1 CgA 1 ERE CgA f 12 O AA CgA HEY CgA a CgA
48. hl Li _I UMMM 1 pixel 4 8 1 2D 68 PADS RETE 7 A aaz 28 4 3 3 B D W 4a 20 30 _ lu 4 3
49. 2 10 48pts 40pts 2 3 3 1 39 3 2 2 CBU
50. 2005 International Telecommunication Union DA F ITU ITU R BT 1702 2 International Organization for Standardization ISO ISO IWAS 2005 28 2006 International Commission on Illumination CIE 5 TC1 67 3 OER ISO 6 ISO TC 159 SC 4 SG on Image Safety 28 TSO TC159
51. 59 94p frame s MPEG2 ER 5 NVIDIA Stereoscopic Player 2D Stereoscopic Player 3dtvat 1 pixel 6 4 7 3 2D 1 4 1 20 s 120 Hz
52. BIEN l FREDRE 5 PHB E CBU CBU 4 9 CBU lL t CBU E 2 Saccadic Eye movement Saccade EE CBU CBU CFF CFF Critical Flicker Frequency
53. E E 3A Mi HHH 29 Ro AWT g HH om
54. 1990 1 3 3D 3DC zH
55. 2 6 937 p lt 01 F 6 619 p lt 01 6 7 F 3 716 p lt 05 F 3 247 p lt 05 F 83 565 p lt 05 F 8 146 p lt 05 F 3 685 p lt 05 5 2 8 25 2 6
56. CBU CBU Ly 1 2 1 CBU
57. CBU 1 HHT ss a a 33 pii H 8 1 a b SPM c CBU c a 3 1 CBU EOG 9
58. BSNS 96 Ht o 4a 2D 1 1 Ua
59. 2 3 2 1 250cm 100 44 2 DLP HRA DLP LCD 8 LCD DLP LOD DLP DLP 15 Bi N ak
60. 3 4 5 4 Adobe Premiere Pro 2 0
61. 98 Ht o 4a 1 9 1 3 4 8 9 OT BR 13 14 5 EER COM 1 37 00 35 69 18 27 8 30 622 8 9 29 08 12 43 2 31 38 5 OBA E E8 67 blinks min SD 2 E12 80 4 34 15 11 23 5 35 69415 57 4 1 113 78 AE 3 3 27 9213 45 4 25 38 15 01 29 31 15 76 13 14 1
62. 0 37 s X 4 5 H 1 1 0 37 s 4 5 1 8 4 2
63. 2 5 Es SPM 67 pi N fat 3 4 2 ORIN BAR LE 2D 1 2
64. 2D 2 2 2D
65. CBU CBU E CBU CBU
66. 1 285 36 19 29 20 2010 3D
67. CBU 4a he CBU AV BLD Pla D 2 2 2 E
68. 2D A CL SAR
69. Bonferroni 5 lt 05 1 p lt 001 1 2 lt 01 3 4 p lt 001 1 4 lt 001 2 4 3 4 lt 01 1 2 3 p lt 05 4 lt 001 1 4 lt 01 4 10 25 DI D 2 O83 4 2 0 1 5 0 5 0 0
70. CBU CBU CBU 1 CBU Y N CBU 2 DLP 1 8 6 3 DLP 2 8 5 5 DLP 3 8 5 5 DLP PTV 5 8 5 4 3 14 CBU 4 Y N Y ERA REN 2 2 2 0 1 8 1 6 1 4 de 1 2 10 0
71. Oe ELAT 55 HY fat 2010 D90
72. 4 10 2D 5 1 F 86 073 p lt 001 8 4 1 2 4 11 2D Mach Dvorak 1 2 3 4 Mach Dvorak Sn fics W A ot 5 0 4 0 30 2 0 1 0
73. n 2 3 6 4 5 1 W 4a 1 2010 9 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 http www jeita or jp japanese stat digital 2010 10 html 2010 S Pastoor M Wopking 3 D
74. LEs 3 ab 4 5 s 1 4 8 3 2 4 3
75. 5 2 5 1 BAH2 3 gt ROTAR 2 5 5 1 CBU 2 20 Ht N 4a CBU 3 CBU 2 4 2 4 1
76. 4 5 4 5 4
77. TW 1 5 i 3 pp 695 701 2008 NY 1 Vol 61 No 12 pp 1742 1749 2007 2 Takashi Kawai Shinsuke Kishi Sanghyun Kim Takashi Yamazoe Takashi Shibata Tetsuri Inoue Yusuke Sakaguchi Kazushige Okabe Kuno Yasuhiro Ergonomic approaches to content creation for 3D displays Journal of Information Display Vol 8 No 1 pp 26 31 2007 3 Sanghyun Kim Takashi Shibata Takashi Kawai Kazuhiko Ukai Ergonomic evaluation of a field sequential colour projection system Displays Vol 29 pp 132 137 2008 4
78. 20 30 13 m 9 ee oe 1 1 2 2 1 1 3 1 0 0 5 0 1 z 4 1 1 5 10 15 30 t 5 6 89 Ht o 4a 5 3 3 1 5 7
79. 3 Reduced Spatial Resolution 1 QE LIL 1 1 1 1 1
80. 60 3D JEH CO EMR 35 ETA
81. 2 R 3 8 1 2 LCD CBU D 1 2 3 5 3 0 2 5 20 P 1 1 0 0 5 0 0 10pts 60pts H38 1 2 1 RMR CBU
82. 3 CBU CFF CBU 500Hz 848 DI CBU 4 Phantom Array ES OY mj RUD Ze HT HR tas CBU aZ Iu 10 CBU FAL Visual Stability Sli Saccadic Suppression
83. 17 4 5 15 pii N 4a 6 15 4 E 8 TBR Lc 2 3 3
84. VTR Video Tape Recording POG Electro Oculography VTR 5 2 Do 8 Frame 9 Frame 10 Frame 5 2 VTR EOG
85. 22 1680x1050 pixel SAMSUNG 2233RZ SyncMaster NVIDIA 3D Vision 120 Hz 60 Hz 2 Xpol HYUNDAI IT W2208 60 Hz 2 Cross Talk 2
86. CBU CBU 1 CBU 2 1 pay 2 2 2 2 1 LCD DLP CRT
87. DLP 0 76 DLP CBU LCD LCD 5 DLP CBU
88. Ergonomic study on psycho physiological effects and time space characteristics of display devices 2011 3 A Ergonomic study on psycho physiological effects and time space characteristics of display devices 2011 3 I EB 1 1 1 1 2 1 3 2 2 1 2 2 2 2 1 2 2 2 2 3 2 3 1 2 3 2 2 3 3 2 4 2 4 1 2 4 2 2 4 3 2 5
89. 4 3 1 3 LCD LCD 1 60 1 2 46 DLP 9 DLP 3 DLP W 4a 3 DLP 5 DLP 5 DLP DLP PTV LCD 5 DLP 5 LCD PTV 2 3 1 3 1 1 2 DLP 2 3 DLP 3 5 DLP 4 LCD 5 5 DLP PTV 6 LCD PTV
90. DLP 570 1x DLP 245 lx 3 LCD 410 lx 2 3 2 3 2 8 DLP DLP 3 LCD 8 2 1 1 DLP 2 DLP 3 3 LCD 16 aH N at SARTO FAM LTA 1 5 5 2 4
91. CBU Rt gu 3 2 3 2 1 SGPM smooth pursuit eye movement LAF SPM Vestibulo Ocular Reflex 9 Fovea Centralis
92. 2D 1 2 Pseudo Parallax Nii E FPD ODT AT TP E 2
93. 2 1838 2 7 1 15 180 90 10 2 MNREAD J 19 10 MNREAD J 2 4
94. t t 2 735 t 2 728 p lt 01 65 W A fat R42 0 64 4 60cm 43 27 7 2 4 6 2D 4 6 5 4 2 2
95. 5 DLP PTV 5 48 1 2 3 4 5 6 3 11 83 12 CBU 2 CBU 4 6 LCD
96. 1 E E ok REAR HO be 5 3 2 1 EBL 46 Hyundai IT
97. 1 4 lt 05 1 1 2 4 13 2732 W A ak 1 G82 E843 4 0 5 0 0 4 13
98. 250cm 100 144cm 30 16 9 43 8 10 144cm 3 10 2 6 6
99. 1 2 61 Bi N fat 1 2D 2D Pixel by Pixel Mach Dvorak
100. 41 6 pp 549 555 1987 17 8D 3D 3DC 74 2010 4 20 ISOIWA pp 40 2010 18 G S Harker The Mach Dvorak phenomenon and binocular fusion of moving stimuli Vision Rresearch 13 1041 1058 1973 19 C E Michaels C Carello B Shapiro C Steitz An onset to onset rule for binocular integration in the Mach Dvorak illusion Vision Research 17 pp 1107 1113 1977 20 S Mateev Saccadic eye movements and localization of visual stimuli Perception and Psychophysics 24 3 pp 215 224 1978 21 W A Hershberger Saccadic eye movements and the perception of visual direction Perception amp Psychophysics 41 35 44 1987 22 VRex Inc http vrex com products micropol shtm1l 2010 23 BERIA Xpol 3D TV 14 pp 219 232 2010 24 pp 34 2008 25 2
101. QBVS Qualified Binocular Viewing Space QSVS Qualified Stereoscopic Viewing Space 3 International Electrotechnical Commission FPD 1 W 4a 3D 3DC 8D 28
102. 4 1 4 1 8 35 9 18 64 HF N fat 3 08 1
103. H 2D Ae We PTAC LICK Be BR 5 2 81 2D 3D 2D 15 L BEA q 1 HHT DR CIAL Het A BOB
104. W 4a E COB KERO EE 1
105. 1 2 CBU Rt tn gt ARBRE ORE D5 CBU
106. Mauchly EIRE OD isi W A tik 28 2 F 8 900 p lt 001 F 8 772 p lt 001 F 4 416 p lt 001 1 1 1 OF 20 s
107. HAR OIL HERP CgA Lk tore M MH CgA 3 es tL WEVA CgA AN GH AY A AIL MECHA CgA 1 CgA aS 19 ER UREE 15 NREL MEK
108. 21 pii N ak 26 2 3 3 2 7 DLP amp DLP 3 LCD 3 CBU 2 2 3 2 3 DLP 1 4 6 DLP 2 3 LCD 3 5 7 1 5 2003 12 10
109. b gt b c 4 4 a fat c 100 b c x100 x 100 FIZ M
110. A H Stern 2022 RAO BRASIL lt E E IREZ EY Bit A T E 95 29 VDT Ly EESAN aH o ah 50 0 45 0 40 0 1 2 sso
111. 2 1 Color Sequential RGB CBU D
112. 12 DMD 9 RGB 8 W 4 Y C 5 M 6 99 1 60 RGB 1 2 3 DIZ
113. 2 CBU 3 1 2 E EA wee CBU 4 4 4 E 5 4 By YE Oe 6 BO EA W 4a EY YER BY ES
114. CBU 2 4 2 1 1 100 250cm DLP DLP LCD 8 DLP BE DLP 3 DLP 405 lx DLP 405 lx LCD 410 lx 2 6 1 83
115. Hershberger 20 4 2 3 Passive Glasses Xpol Xpol nPol 2
116. 3 3 1 3 2 3 2 1 3 2 2 3 3 3 3 1 3 3 2 3 3 3 3 4 3 4 1 3 4 2 3 4 3 LD EED 4 4 1 4 2 4 2 1 4 2 2 4 2 3 4 3 4 3 1 4 3 2 4 3 3 4 4 5 5 1 5 2 5 3 5 3 1 5 3 2
117. 15 1 2D 3D 2 1 2D 1 2D 5 15 1 3D 2D 1 2 3 wa 5 Pre 5 10 15 Post 5 7 2
118. 5 5 15 1 15 2 5 15 CBU EMR 8 4 EIMR 44 44 2 EMR 3 44
119. Dark Focus Harita Dark Convergence RARD 5 1 ET up We 34 cf CHER AR D ER SAS AR ERT OB Z EA At Fl
120. 3D 33 16 pp 25 30 2009 26 45 pp 40 41 2009 27 REWA 28 54 9 pp 1298 1304 2000 pp 218 219 1998 ai AT e HY fat 29 Head Mounted Display EA 54 6 pp 887 891 2000 ul 30 mH Stereo fly test Stereo Optical Co Inc 2009 31 S Ishihara Ishiha
121. IOT 1 2 3 4 5 pp 7 2009 a VISION 17 2 pp 118 122 2005 73 12 pp 2047 2054 1990 EHHE 48 10 pp 1801 1305 1994 8D
122. MS 2 4 10 2 180 293 R24 pii N 4a logMAR cm pts 1 2 180 7 3 0 13 1 60 1 1 143 5 2 4 10 4 48 1 0 114 0 1 9 8 3 40 0 9 90 6 1 5 6 6 32 0 8 71 9 1 2 5 2 23 0 7 57 1 1 0 4 2 20 0 6 45 4 0 8 3 3 16 0 5 36 0 0 6 2 6 14 0 4 28 6 0 5 2 1 10 0 3 22 7 0 4 1 7 8 3 1 5 15 1 TA 5 BBA a2 7eVV EK ORCL
123. 2 2 5 5 CA aLI 6 47 pii 4a MEK HA CgA 5 MEH CgA 15 MEH CgA 15 9 BLES 15 8
124. 4 2 TOTAL TIME ONSET ONSET IOD A B C D EDs ED gt c 2 A B AST LS INTEROCULAR DISTANCE 4 2 3 Phantom Array 20 59 a A fat
125. 5 8 1 5 2 77 10 9 10 3 00 3 5 3 31 2 85 EDULERL RIE A 15 W 4a 3 85 2 15 2 92 10 3 15 LRV M R 15 1 00 4 OF 10 1 08 3 54 15 2 15 2 3 69 5 F 27 563 p lt 01 PEIER AER 5 3 15 5 1 15 BM bie KE HS 15 lt 01
126. 1 O82 ROTER 3 6 2 1 1 2 1 CBU 42 pii 4a 2 CBU CBU
127. 4 Co E 1 CBU HMC SIV ATT 32 2 E CBU CBU PROT UVF pii H CBU CBU
128. 52 pii 4a A CBU CBU CBU CBU CBU
129. EL CBU E CBU 4 E CBU 2 4 E 14 E iL pii N 4a
130. 74 Bi N fat 4 4 N FPD Mach Dvorak
131. 1 8 3 EK 1 2 3 4 5 6 3 12 49 Rii W ak 2 CgA mg X 3 13 1 4 DLP 3 LOD 4 4 6 LCD PTV 5 5 DLP PTV
132. 9 59 2 38D 7
133. Liquid Crystal Polymer 2 Xpol 1 Xpol 1 4 4 8
134. 60pts 1 2 1 sec size gt L E pete oon Se 7s ae O IR TA 0 00 99 99 100 00 199 99 200 00 299 99 300 00 399 99 400 00 499 99 500 00 1 2 3 7 84 K 43 10pts 60pts t 60pts t 83 44 p lt 05 1
135. 26C pii o 4a 5 E 4 3 2 509 2D 2 2D 0
136. 1 1 2 2 3 4 72 W DA tok 0 8 0 7 0 6 0 5 0 4 0 3 0 2 0 1 0 0 1 2 3 4 4 12
137. CgA EP CgA EP CgA CBU ite b bic MER CgA N ay ul a 3 3 3 3 1 CBU
138. LCD 3 LCD DLP 3 DLP 5 DLP Aus ay K ie Hist DLP DMD 48 1831 EEEo TH 12 12 Ht 4a DMD Digital Micromirror Device 12 2 DLP DMD 3 3 DLP RGB 3
139. 10 1 1 10 2 5 2 1 15 3 1 10 0 2D 5 4 1 10 1 5 SARL AE 5 0 15 SAR 5 5 MM S A gt v WAER 88 pii o 4a 30 5 HEROE
140. 30 15 CBU 15 3 CBU CBU Y N DLP 1 4 6 3 1 CBU Y 1 4 6 1 4 6 Y N 2 10 197s Y N 1 4 1 2 1 0 0 4 0 2
141. 4 2D 5 1 F 32 229 p lt 001 1 2 OF p lt 1 1 8 4 lt 001 4 14 1 2 1 2 Sieve Effect 32 5 0 4 0 3 0 Ir 2 0 1 2 3 4 4 14 2D
142. LCD DLP 2 CBU 2 3 2 3 1 CBU CBU
143. 4 3 4 3 1 4 2 2 8 62 Bi N fat 4 3 2 1
144. FPD 29 FPD
145. 8D 3DC 2010 4 20 ISOIWA EW pp 22 2010 97 6 7 8 9 10 11 12 13 14 wma 15 16 17 18 19 pii a 4a IRA 2 60 6 pp 934 942 2006 REE OCS RBC BIT 5 MAR OWES e EA 56 pp 447 454 2002 IRES Vision 17 pp 101 112 2005 Sul k l uf T Iwasaki T Kubota A Tawara The tolerance range of binocular disparity on a 3D display based on the physiological characteristics of ocular accommodation Displays 30 1 pp 44 48 2009
146. 28 No No 1 15 2 16 3 17 4 18 5 19 6 20 7 21 8 22 9 23 10 24 11 25 12 26 13 27 14 28 4 3 3 1 7 o H 1 EE Qreenhouse Geisser e 69 0
147. 1 1 BE OFF 2D 1 1 2 2 4 5 5 5 87 Ht o 1 gt 1 Nbp ante AY 00 03 1 ooo X 00 01 03 0 60 9 1 2 2 90 92 02 5 5 4 1 4 0 5 1 1
148. FPD 2 W
149. SPM 9 5 60 Es 3 Convergence Divergence 20 Es 9
150. SER SWR BIRSA Vol 44 No 6 pp 341 348 2008 5 Sanghyun Kim Shinsuke Kishi Takashi Kawai Toyohiko Hatada Time series evaluation of visual fatigue and depth sensation using a stereoscopic display Journal of Information Display Vol 10 No 4 pp 62 68 2009 6 Jukka H kkinen Jari Takatalo G te Nyman Vol 64 No 12 pp 1912 1920 2010 1 Takashi Shibata Takashi Kawai Sanghyun Kim Kazuhiko Ukai Ergonomic evaluation of color breakup in field sequential color projection system Proceedings of the 5th IMID pp 121 124 2005 2 Sanghyun Kim Takashi Shibata Takashi Kawai Kazuhiko Ukai Physiological effects of color breakup in field sequential color projection system SID Symposium Digest Vol 37 pp 311 314 2006 3 Shinsuke Kishi Sanghyun Kim Takashi Shibata Takashi Kawai Jukka H kkinen Jari Takatalo G te Nyman Scalable 3D image conversion and ergonomic ev
151. CBU 7 3 3 2 1 MRE HR CBU 2 DLP Hewlett Packard xb31 CBU 3 LCD EPSON EMP TW200H 2 1 226 1x 2 220 Ix 250cm 100
152. 2 EMR CBU CBU EMR Model 8P 505 EMR 1 8 1D 4 2 1 1 2 CBU 1 2 3 7 84
153. 4 HE REH SDE HOSE Se 9 Eom ELT 1 4 E BA ZIN wn Ae F
154. DLP 1 CBU 6 7 6 7 30 9 2 9 15 26 Rii N ak 0 8 06 0 2 0 0 1 2 3 4 5 6 7 2 9 CBU
155. HWM 1997 9 1998 NHK 19 W 4a 19 2003
156. 5 2 13 HY a at J 5 2 17 Bt BAO R RURE WEEE ER LAR KIR RY 83 ii a at
157. DLP 5 1 2 83 LCD 4 6 DLP CBU ke 3 5 CBU
158. 2 0 5 3 10 5 Oa 44 2 E aes B24 3 10 5 87 1 2 3 10
159. Ey ZEB wee ad He 1H 4 We 1 6
160. 55Hz 110Hz 16 8D CFTF 2 Pseudo Parallax SPM Mach Dvorak 2D eis 58 Ht
161. 2 1 FRO 3 12 O 56 Bi N fat
162. o W g aap wo MED HEY RITA O FEARS RORE MEE LB 82
163. CBU CBU 2 2 1 LY FARA ADF G I ERE CBU E7 48g TS IF Hx
164. 15 2 26 5 OF 10 1 85 15 1 92 2 F 89 885 p lt 01 F 2 760 p lt 01 15 1 3 1 5 p lt 05 1 2 lt 1 1 1 2 1 10 8
165. CgA 3 4 3 1 8 11 5 8 6 1 8 3 2 8 7 3 4 6 8 6 1 4 2 DLP 1
166. Bonferroni 7 lt 05 1 p lt 001 4 2 3 p lt 05 1 2 p lt 1 3 p lt 01 4 p lt 01 1 3 p lt 05 4 p lt 01 1 3 p lt 1 4 2 3 lt 05 1 8 p lt 05 1 2 p lt 05 8 4 lt 01
167. 5 3 2 WEI AR BE 2 at MA 45 LOR SC 200lux 77284 EDF Lal 57cm 3H 171cm 38 19 4 1 86 pe eT Ho 5 4 HEL Hfi E C7612 4 HES Wie
168. CBU RGB CBU CBU CBU zi 100 gt w H ELAR C CBU lt wyar REGRET pii H CBU
169. E4658 Xpol a H Xpol 5 3 50 R 100
170. CBU 1 30 30 15 1 2 3 929 Ht N LU 2 7 6 7 Microsoft MNREAD MNREAD J 3 MNREAD J
171. 5 3 6 2 3 1 5 LICS CgA 5 5 15 1 2
172. 51 Vol 46 pp 472 473 2010 8 Bh BITES WAS 40 pp 160 161 2010 9 PC 40 pp 164 165 2010
173. 15 6 15 15 K 7 30 CBU 2 4 3 1
174. 5 10 3 5 6 1 5 5 1 5 HDR EX1 30 frames s Standard NTSC Signal 2m ote BEA OMIEIL 3 HAER 3
175. 1 2 3 4 4 11 2D 2 7 28 2 F 7 492 p lt 001 F 11 371 p lt 001 2 980 p lt 01 1 4 12 1 2 tp lt 05 3 4 p lt 01 1 HBA
176. 3 4 25 0 20 0 Pre 2 3 8 9 13 14 Post 5 9 5 4 2D 15 QE
177. 2 t 5 23 p lt 05 t 3 5 CBU 20 30 ROB H f 5 1 2 IRO 1 2 08 0 4 0 2 0 0 ROTER 3 5 1 2 t 9 00 p lt 01 t 8 57 p lt 01 4 74 p lt 01 t 3 67 p lt 01 4 1 8 6 1
178. 7 0 8 0 6 0 4 0 2 0 0 2 8 6 1 4 8 048 p lt 01 F 6 666 p lt 01 TF 5 552 p lt 01 F 7 102 p lt 01 F 10 978 p lt 01 5 1 4 7 3 5 4 508 F 3 518 p lt 05 3 4 LCD DLP 5 1 4 6
179. DLP DLP DLP 1 DMD 3 DMD Im yg E Color Wheel Filter DMD 2 1 5 gt 4 segment a 3 segment 5 segment 6 segment 2 1 a DLP 192 1 D a eh b aH N at DMD
180. E EY 9B ara E 5 wt H v n CBU m
181. CBU CBU CBU CBU
182. Ome Ge ICME L SDR 5 100 3 2 1 38 aH 2 1 2 6 7 90 10 1 15 CBU 8 8 2 1 90 30 60pts 5 30 10
183. 12 93 94 W 4a 9 3 OF 6 45 H 2D 1 MO Appice E
184. 2 3 1 5 1 3 p lt 05 3 p lt 001 p lt 1 2 2D 2D 1 3 2D 0 3 1 4 1 5
185. 33 92 14 834 2 34 084 3 26 23410 96 30 00 11 45 1 42 38 15 24 2 41 852 E15 81 4 29 15417 15 5 13 72 3 37 08 9 90 AVE 4 4 45 08 17 15 5 38 31 14 82 5 9 2 F 2 160 p lt 1 F 27 939 p lt 05 1 688 p lt 1 Bonferroni 13 14 1 2 p lt 01 2 4 lt
186. 11 0 1 0 al 10 5 0 5 10 0 0 0 9 5 1 2 1 2 3 9 A 2 CBU 3 4 3 4 1 CBU 3 3 LCD 3 LCD 45 Ht LU 3 4 2 1
187. D 4a SPM Pseudo Parallax ED Exposure Duration OD Interocular Delay OR SARE CORFE Onset Onset 60msec 70msec 9 ED 8 3msec 120Hz
188. SPM 2 8 4 4 9 0 8 07 0 6 0 5 0 3 0 2 0 1 0 0 1 2 3 4 4 9 70 W A tok
189. 0 0 1 4 6 2 10 6 Y N 2 11 t t 2 23 t 2 48 t 2 40 2 24 lt 05 CBU CBU Y N 1 4 1 2 1 0 0 4 0 2 0 0 ROTER 2 11 6 98 pii N 4a 2 5 CBU
190. 15 1 2 2 2 4 in BR 1H 7 E CI LUCHA A 92 Ht o 4a 4 0 3 5 a 3 0 gt 1 fa 2 2 5 3 4 5 1 5 1 0 5 10 15 5 8 3 AARE 1 2
191. 1999 A 18 3 pp 180 185 2004 5 pp 225 232 2008 A Yohso K Ukai How color break up occurs in the human visual system the mechanism of the color break up phenomenon Journal of the SID 14 pp 1127 1133 2006 54 Bi N fat 4 4 1 RO
192. 5 3 3 5 4 6 W 4a 48 m p 1 1 UD NN NE GR
193. 62 92 BE 44 3 4 EMR 40 1 2 3 AEn 1 15 2 5 4 5 15 6 BERG IL F EIER 1 2 D CBU 3 3 3 1
194. 8 0 6 0 4 0 2 0 0 1 2 3 5 3 14 TERA CgA 2 2 CBU 5 pii 4a CBU CBU 2 CgA
195. Edition Kanehara Trading Inc 2003 W E MacLean M H Lewis W A Bryson Brockmann D N Ellis R E Arendt A A Baumeister Blink rate and stereotyped behavior Evidence for dopamine involvement Biological Psychiatry 20 pp 1321 1325 1985 98 20 J A Stern D Boyer D Schroeder Blink Rate A Possible Measure of Fatigue Human Factors 36 2 pp 285 297 1994 21 R R Mourant R Lakshmanan R Chantadisai Visual Fatigue and Cathode Ray Tube Display Terminals Human Factors 23 5 pp 529 540 1981 22 E Lee K Park M Whang K Min Measuring the degree of eyestrain caused by watching LCD and PDP devices International Journal of Industrial Ergonomics 39 5 pp 798 806 2009 99 6 cu 1 ti FI 2 FY SBR WE
196. 0 2D 1 10 2D 0 N Ivy 90 pii o 4a 2 4
197. 05 5 p lt 01 13 14 13 14 DEORE 8 9 1 1 8 9 14 29 7 90 Cia BRA 1 4
198. 13 pp 139 144 2005 L J Hornbeck Digital Light Processing for high brightness high resolution applications Proc SPIE 3013 Projection Displays III pp 27 40 1997 D Dudley W Duncan J Slaughter Emerging digital micromirror device DMD applications Proc SPIE 4985 pp 14 25 2003 D S Dewald S M Penn M Davis Sequential color recapture and dynamic filtering a method of scrolling color SID 01 Digest 32 pp 1076 1079 2001 M L Jepsen M J Ammer M Bolotski J J Drolet A Gupta Y Lai D Huffman H Shi C Vieri High resolution LCOS microdisplay for single double or triple panel projection systems Displays 23 3 pp 109 114 2002 ARIAL 53 8 pp 1129 1135 1999 30 9 10 11 12 13 14 15 wa 16 pii N 4a y TOMI 92 pp 129 137 2001 A Yohso K Uk
199. 3 145 2005 1SO IWA3 2005 TODAY 6 3 pp 28 29 2006 s Graham F A Harding Peter M Jeavons Photosensitive Epilepsy New Edition Cambridge University Press pp viii 1994 MBE pp 9 2004 http www3 nhk or jp pr keiei otherpress 060831 002 html 2010 W 4a 618 pp 1122 1124 2007 19 18 9 pp 97 106 2005 wm 20 CFF AA 1 51 4 pp 387 395 2009 21 K Ukai P Howarth Visual fatigue caused by viewing stereoscopic motion images Backgroun
200. 3DCG E CG 2D TERLER 3D al Bam EMR EMR EY 9B ae 1 CHR H CBU 4a
201. Ere PRR 5 1 2 3 4 15 24 5 15 15 5 pii N 4a 5
202. FPD LCD LCOS Liquid Crystal On Silicon DLP Digital Light Processing rear projection TV T W 4a 1 FPD
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