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河 宗秀 - Kyushu University Library
Contents
1.
2. 3DCG 2DCG
3. 48
4. 5 111 3DCG
5. 1 60 2 120 1 6
6. 0 Negative Parallax Positive Parallax 2 4 gt a 5 0 c 4
7. 1 2 3D 2 3D Consortium 8DC Safety Guidelines for Popularization of Human friendly 3D 3D Consortum 2010 1
8. 0 ME 2 2 2 3
9. 60 9 9
10. ITE Technica1 Report Vo1 27 No 21 pp 21 2003 Vo1 57 No 9 pp 1187 2003 3D 4
11. 20 3
12. 115 1 8D 100 FAN 2012 2 3D 2010 3 3D Consortium 3DC Safety Guidelines for Popularization of Human friendly 3D 3D Consortium 2010 4 2008 5 Marc Lambooji Wijland 1Jsselsteiin Marten Fortuin and Ingrid Heynderickx Visual discomfort and visual fatigue of stereoscopic displays A review Journal of Imagnng Sclence and 1 echnolgy Vol 53 No 3 2009 6 Bernard Mendiburu 3D Movie making Stereoscopic Digital Cinema from Scriptto Screen Focal Press 2009
13. 6 5 3D 1
14. 3 3DTV 3D 3D GPS 2 FIX
15. 3D 2 3D
16. 2
17. 3DCG 2 3 9 4 3 3D BOX 9
18. 3 78 FCP CFC FCC CCT 1 3DCG 5m 36
19. 2010 Panasonic AG 3DA1 3D 3D Panasonico SONY JVC MM AG 8DA1 Panasonic HDR TD20 SONY 2 3D 5 6 8D RIG SD Stereo Rig 2 3D 1 3D High quality Adjustability Mobility Affordability
20. 3 3 1 5 4 3 1 4 87 1 2 3 2
21. 8 2 5 18 2
22. 2 1 Fixed Convergence Point Method FCP Cb 3D 9 Cb d Ca 5 36 Fb Z0 Cb Fb Z0 6 After Zoom in Ca Fa 7Z0 Zoom In Object Fb Focus before Zoom in Fa Focus after Zoom in Cb Converg
23. 5 OO PE ee V 5 2 TSOIWA3 3D 3DC 3DC 2009 11 30 3D 10 3D 2010
24. 24 William James The Principles of psychology ols 1 and 2 New york Dover Publication 1950 Walter B Cannon Bodily changes in pain hunger fear andrage on account of recent reserchers into the function of emotion excitement 2rd ed New york Appleton 1929 25 Whoijong Yoo Influences of a Sound Design of Media Contents on Communication Effects TV CF Sound Using a BQ TEST Journal of broadcast engineering Vol 13 No 5 pp 602 611 2008 4 2 2 4 48
25. CG 2 1 Cc 1 visua1 discomfort the change of visual distance 3 3DCG
26. 3D 2 3 4
27. 3D BOX 18SONY MPE 200 MPES 3D01 5 4
28. 2 3 1 Convergence point 6 5cm 9 3 Convergence Point 3 Toed in configuration
29. pp 39 2008 OO Manchester University New York Friedman calibration 00
30. 1 3 100 1 48 1 12 4 12
31. MO 2 1 1 72 180 200 2N 2 0
32. w 7 a 8 IPD Inter pupillary Distance 7 55 3D 121 cm 6 5 cm 1920 3DC 3 5 68 5 cm 3 205 5 cm NN Vs 55Inch Dis
33. 1 IAD 2D 1 1 Z0 Zoom in Object Fb Focus before Zoom in Fa Focus after Zoom in
34. 3 4 1 2 3 4m 3 1 1 d Fb lt d Z0 d Cb lt d Fb 1 49 ECP FCC CFC
35. EEG 4 110 5 3D
36. 2 1 9 L 2 9
37. 22 Whoijong Yoo Influences of a Sound Design of Media Contents on Communication Effects TV CF Sound Using a BQ TEST Journal of broadcast engineering Vol 13 No 5 pp 602 611 2008 29 Eston R G A VIngledew E K IValidity of heart rate Pedometry and accelerometry for predicting of exercse ntent and behavior in school children Journal of school health Vol59 3 pp 112 115 1998 4 61
38. 26PolarRX800CXMulti 4 85 POLAR 70 27 a 70 b c START 6 24
39. 1 2 2 1 1950 1980 2010 3 1952 54 60 3D 1982 84
40. 26 Convergence Doint before Zoon In Focus before Zoom In Zoom In Object Fb d Cb 26 2 492 1 3 3 Cb 3 9 8 8
41. 1 2 3 4 CCT FCC FCP CCT CCT 4 3 FCC 3 1 FCP 2 5 CCT CCT 1 48 FCC 2 51 FCP 3 43 2 2M 4
42. 3D 3D 2 3D
43. 5 114
44. 41 4 SONY 3D BOX MPE 200 MPES 3D01 41 3 O 3D 2
45. 144 9 144 SONY 3D BOX MPE 200 MPES 3D01 4 FCP 2 3 5 CFC
46. A oR Mobility HXR Nx3D1 SONY 2 9 29mm x10 31mm Affordability 3 3D 3D 7 9013 10
47. 3DCG 1m 1m 1 1m
48. 60 3 70 d Fb d ZO d Cb gt d ZO CO Mb lIm Near A2m Far X2m Near X33m Far 3m Near 4m Far Binocular Disparity ho 4m Near Before FCP FCC CFC 60 6 7 7 d Fb gt d Z0 d Cb lt d 0 61 7 FCP 1 2m CFC 2 3m FCP 3 4m CFC 2 3m FCC CCT 16 d Fb gt d ZO d Cb lt d ZO camera ZO Zoom In Object Fb Focus before Zoom in Cb Convergnece before Zoom in 61 7
49. 56 d Fb d Z0 d Cb lt d EDb to a a lm Far 1m Near A2m Far X2m Near X33m Far 3m Near 4m Far Binocular Disparity lt ho oO 1 CETTTTTTE LT 4m Near Before FCP 56 4 5 5 d Tb d Z0 d Cb d Z0 d Cb d Fb 57 5 14 d Fb d ZO d Cb d ZO d Cb d FD ZO Zoom In Object Fb Focus before Zoom in Cb Convergnece before Zoom in 57 5 3 67 Far 2 50 Near 1 04 Far 2 08 Near 0 63 Far 1 88 Near 0 00 Far 1 67 Near 0 63 14 5 ee ee Po noe ck cri Far 0 83 Near 0 00 Far 0 21 Near 0 21 Far 0 21 Near 0 21 Far 0 21 Near 0 21 2 Far 0 83 Near 0 00 Far 0 21 Near 0 21 Far 0 21 Near 0 21 Far 0 21 Near 0 21 Far 0 83 Near 0 00 Far 0 21 Near 0 21 Far 0 21 Near 0 21 Far 0 21 Near 0 21 Far 0 83 Near 0 00 Far 0 21
50. a Before zoom In b After zoom in 13 Visual discomfort 3DC comfort zone 1 1 The change of visual distance
51. 1 S6 3 5 25m 5 25m 1 25m 1m 5 25m 6 3 COnVerdgence pefore Zoom in after Zoom in point 6 1 25m 5 25m 1 O7 2 lt lt Y
52. 2 1 1 5 25m 1 25m 5 25m 1m 5 5 25m 1 25m 5 25m 5 25m
53. CCT 9 CCT
54. Study on adjustment of convergence point for zooming technique in stereoscopic video 2013 12 Jongsoo HA 1 7 27 1 1 kk 1 2 kk 2 2 1 esses 2 2 2 3 2 3 6 2 4 kk 15 2 5 kk 18 EU RR LN dA 20 i ib 21 5 22 1 25 25 1 1 kk 25 1 2 kk 25 1 3 kk 28 2 Ok 28 3 3DCG kk 29 MR coo 30 3 2 cs 31 1 2 5754945 PH690Pt DP PR PP 33 2 ZN 270 22 2 2 38 2 40 1 40 EA 40
55. 5 2 27PolarRX800CXMulti 4 86 100 71 Polar Precision Performance fie Edt Vuew fook fests Reports Options Windows Help OO 9 11 2013 MOF IFTFTIEEEHYIESRTIERTEFTIEERHYHmmm EcerciselF rae Time 8 44 11 Hes afl rate So 5pm Sport Running Person ha jongso0 Ipate 189 9 Heart n Tate 71 bpm lt INote 71 Polar Precision Performance
56. 4 ee gt i 2 9mm 10 Ye oe a oe A 12 3D 3D 13 a
57. 4 9 1m 2m 3m 4m 4 4 112 SONY 3D BOX
58. 3D 3 13 3D 3D 2 2009 2010 3D 3D 3D TV
59. 1 Bonferroni 1 mean SD FCC FCP FCP 1m 1 Bonferroni 4 88 22 1m 1 CZP lt 05 lt 07 00 F i CCT GOT FCP FCP FCP CCT i 0 9 ccT FCP 2 3 C CK C KK 2 C CIC KK K C C b Bonferroni 6 ECP
60. 5 25m 1 25m 1m 5 2 COnVerdgence pefore Zoom in after Zoom in point 5 5 25m 1 25m 1 5 25m 4 25m 3 25m 2 25m 1 25m 22 2 2 22
61. Electrocardogram ECG 2 5 1 22 gt 24 1 55 3DTV LG TV 55LA6950 68 5cm 3 205 5cm 68 PolarRX800CXMul1ti Polar Precision Performance 68 4 83 2 20 40 23 2 48 64 6 35 4 3
62. 2 4 2 1 1 3D SONY 3D PMW TD300 42 42 SONY 3D PMW TD300 3 54 1 2
63. d Cb lt d FD d Cb lt d Cb d Fb d ZO d Cb d ZO d Cb d Fb d ZO lt d Cb d Fb gt d ZO d ZO lt s d Cb lt d Fb 8 27 1 Cb Fb Z0 d Fb lt d ZO d Cb lt d Fb ZO Zoom In Object Fb Focus before Zoom in Cb Convergnece before Zoom in 27 1 2 43 28 2 05 5b 720 Z0 d Fb lt d ZO d Fb lt d Cb lt d ZO ZO Zoom In Object Fb Focus before Zoom in Cb Convergnece before Zoom in 28 2 29 3 Cb Fb Z0
64. 1m 5 25m 1 25m 5 2 10 20 20 19 23 21 5 44 4 55 69 3D 3DTV 3 5 4 3 1 GU
65. In 1 CCT FCP FCC CCT FC P p lt 0 001 2 FCP FCC 22 722 4 09 case1 1m case2 1m case3 1m case4 1m case6 1m case7 1m case8 1m case9 1m 72 1m 1 72 1m 1 9 CCT 4 90 mean SD
66. Z0 Z0 d Fb lt d ZO d ZO lt d CD ZO Zoom In Object Fb Focus before Zoom in Cb Convergnece before Zoom in 29 3 30 4 Cb fb Z0 2 44 d Fb d ZO d Cb lt d FD ZO Zoom In Object Fb Focus before Zoom in Cb Convergnece before Zoom in 30 4 31 5 Cb Fb Z0 d Fb d ZO d Cb d ZO d Cb d FD ZO Zoom In Object Fb Focus before Zoom in Cb Convergnece before Zoom in 31 5 332 6 Fb Z0
67. 26 76 case1 1m Case2 1m case3 1m 5 00 4 00 3 00 2 00 1 00 M 0 00 T T 1 FCP FCC CCT case4 1m case6 1m Case7 1m FCP FCC CCT case8 1m case9 1m 5 00 4 00 3 00 2 00 Hl T T 0 00 T T FCP FCC CCT FCP FCC CCT 76 1m 1 76 1m 1 9 CCT 4 98 mean SD FCC FCP FCP 2m 1 Bonferroni
68. 6 17 2 1 28 3D0 11
69. oR 2m 3m 4 5 6m 4m 6 8 10m 43 43 2m Fb 270 Cb 9 1m 2m 3m 4m 44 Z70 ZO0 44 45 3 55 46 FHb 45 46 1 3 2 16 9 144 20
70. 12 Sony 3D HDR TD10 2 9mm pp594 2008 Bernard Mendiburu 8D Movie making Stereoscopic Digital Cinema from Scriptto Screen Focal Press 2009 13Miyasita T amp Uchida T Cause of Fatigue and its Improvement in Stereoscopic Displays Proceedings of Society for Informatnon Display Vol 31 pp 249 254 1990 29mm 2 2
71. 50 FCP 36 1 FCP FCC d Fb lt d ZO d Cb lt d Fb X2m Near X33m Far 3m INear 4m Far CC gt G So ri A pl Q rr QO a ri 4m Near Before FCP 50 1 2 2 qd Tb lt d Z0 A d Fb lt d Cb lt d Z0 51 2 FCC CFC FCP CCT
72. 1 i lt CC 1 1 H i t 1 7 J 8 J M 1 1 7 1 1 1 FF V 7 1 i Vi W 6 1920 2 6 5cm 3 2 1 0 7 40 31 1 1 0 60 57 2 1 5 90 85 2 0 120 SE 1920 93D Consortium 3DC Safety Guidelines for Popularization of Human friendly 3D 3D Consortum 2010
73. 32 32 3m 2 lt 05 CCT 79 698 1 608 0 223 73 992 0 914 0 416 76 201 81 746 0 597 0 560 x RS YY x OO CO Go Oo C 6 QO YY x QO QO QO x Co QO J CO Ne Ol dg Co oO Co NN Ke 0 1 0 9 es Ne F x 80 115 0 055 0 946 80 885 0 177 0 839 oO J 1 Co QO 1 lt 81 637 81 141 FCP 79 468 32 3m CCT FCP F CC YY x OO QO CO1 Oo to Sla to x CCT FCP 1 4
74. Ca 9 Ca Ca 0 Ca 6 39 d ZO 39 d 9 d 0 IM le B 0 5 IAD tanB d Z0 nn Ed 2d Z0 0 5 0 008722 rad tan aa 722 0 0 008 rad 2 5 IAD tano Ca IAD d Ca tan CC 1AD IAD 2d Z0 2 tan tan 0 008722 d 0 d Z0 d Ca IAD 1 IAD 2xtan tan Gazoo 0 008722 d Z0 9 40 Fb Z0 Cb Fb Z0 Ex camera ZO cplF Thread Hold
75. Cb Z0 2 Ex IAfter Zoom In FD ZO Zoom In Object Fb Focus before Zoom in Fa Focus after Zoom in Cb Convergece before Zoomin Ca Convergence after Zoom in 38 2 4 Convergence Comfort Threshold Method CCT Cb 7 d Cb Z0 d Fb lt g then d Ca d Cb 9 Z0 d Fb If d Cb d Z0 d Fb gt g 2 49 then Co 8 d
76. 67 67 2 4 80 1
77. F CC 77 465 80 799 79 700 2 952 0 075 79 659 1 931 FCC 72 545 71 016 71 708 0 734 0 492 72 790 4 105 2 31 31 85 00 60 00 50 00 1 2 3 2m 2 2m mean SD FCC FCP FCP lt 05 2 230 1 394 0 269 1 180 0 825 79 886 4 058 9 192 77 712 77 063 0 173 0 841 75 288 75 036 0 243 0 786 0 609 0 609 F 72 742 72 387 73 588 72 898 72 670 74 680 74 185 74 041 4 80 2m 4 4 106 31 80 2 2m 4 3 3m mean SD FCC FCP FCP
78. 23 3 3 2 23 6 1 25m 5 25m 4
79. 1 3 3DTV 3D 3D 2 17 3
80. 3 9 4 MA
81. Bonferroni 26 1m 1 CP lt Q05 lt 7 b FCC 1 000 000 CCT 1 000 5 CCT FCP 312 FCP 001 16 343 I 0 OOl k 3 12 730 060 1 000 1 000 1 00 FCP CCT 060 003 003 003 FCP FCP 006 FCC 1 000 FCP 000 0 CCT 1 000 FCP 000 CCT 0OO k FCP 000 FCC 9 FCP CCT FCP 002 _00 912 00 FCC 2 17 180 _207 FCP CCT 00 00 Si 0 a ee a vc 9 b Bonferroni 4 J 6 FCP Im 1 CCT FCP FCC
82. lt 0 05 ttest FCC FCP CCT p 0 01 4 109 3 3D 2D
83. Blu ray Panasonic Sony 2 3D 100 2012 gt 3D S np 8 2010 2 2 1 2
84. 100 8 10 1 S0 2 22 24 55 3DTV LG TV 55LA6950 68 5cm 3 205 5cm 19 55inch Displa play NG 4SS NN 68 5cm h 205 5cm 3h 19 3 2 20 20 20 1
85. case1 2m Case2 2m Case3 2m 1 op T A T T M 1 FCP FCC CCT FCP FCC CCT case4 2m case6 2m case7 2m FCP FCC CCT FCP FCC CCT Case8 2m case9 2m FCP FCC CCT FCP FCC CCT 77 2m 1 77 2m 1 9 CCT 4 100 mean SD FCC FCP FCP 3m 1 Bonferroni 26 3m 1 CPZ lt 05 lt 7 a a FCC FCP CCT CcT FCP 73 FCP CCT FCP FCP b 0 CCT 1 000 0 0
86. 4 Seq 10 1 Depth Script Parallax Scoring 700 800 900 1000 1100 Time Frames Char Near m Far Sky Cuts lt 15 Depth Script Brian Gardner P 0 A Point Of Attention 20Brain Grdner Creative COW Magazine Steroscopic 3D Creative COW pp 9 10 2009 1 26 3D 2010 7 8 3D NTT 4
87. 1 3D a AD Inter Axial Distance PMW TD300 SONY 40 280mm x 45mm High quality AG 3DP1G Panasonic 34 578mm x17 58mm AdjustabDility AG 3DA1 Panasonic 47 1 264mm x5 6 60mm HDC Z10000 Panasonic 32 320mm x10 42mm GY HMZ1 JVC 3 76 18 86mm x5 35mm HDKR TD10 SONY 2 9 29mm x10 31mm HDKR TD20V SONY 3 34 33 4mm x10 21mm 2 2 3D 2 2 IAD Inter Axial Distance
88. 1m 4m 4 5 1 4 14 1 2
89. ZO Zoom In Object Fb Focus before Zoom in Cb Convergnece before Zoom in FCP FCC CEFC a Disparity Disparity Disparity Disparity Far 1 88 Near 0 42 Far 1 25 Near 0 83 Far 1 25 Near 1 04 Far 1 04 Near 1 04 53 3 12 3 Far 3 33 Near 7 29 Far 3 33 Near 3 96 Far 3 33 Near 3 7 Far 2 71 Near 3 13 em Le We Far 0 21 Near 3 96 Far 0 21 Near 0 42 Far 0 21 Near 0 00 Far 0 21 Near 0 00 Nm Far 5 63 Near 6 46 Far 4 79 Near 5 21 Far 4 38 Near 4 79 Far 3 54 Near 3 75 a Far 2 50 Near 3 13 Far 2 71 Near 3 13 Far 2 92 Near 3 33 Far 2 71 Near 2 92 3 64 3 FCC CFC
90. 3 4 o 14 24 1 3DCG 1 1 1
91. 57 1920x3 60801 121 57 2510 14 2 4 1 3 3 3
92. 00 i 3 61 Disparity Disparity Disparity Disparity d Fb lt d ZO d Fb lt d C b lt ZO Zoom In Object Fb Focus before Zoom in Cb Convergnece before Zoom in Far 2 50 Near 0 21 Far 2 08 Near 0 21 Far 1 67 Near 0 63 Far 1 46 Near 0 63 51 11 2 Far 3 54 Near 3 13 Far 2 71 Near 2 50 Far 2 92 Near 2 71 Far 2 50 Near 2 29 2 Far 0 21 Near 0 21 Far 0 21 Near 0 00 Far 0 00 Near 0 21 Far 2 21 Near 2 21 Far 2 08 Near 2 50 Far 1 88 Near 2 29 Far 1 46 Near 1 67 Far 1 04 Near 1 04 Far 2 50 Near 2 08 Far 2 50 Near 2 29 Far 2 50 Near 2 29 Far 3 12 Near 2 92 2 4 3 62 CFC
93. 62 3 7 d Fb gt d ZO d Cb lt d Z0 CO Ww 1m Near A2m Far DD x2m Near X33m Far 3m Near 4m Far Binocular Disparity 4m Near Before FCP FCC CFC 62 7 8 8 d Fb gt d Z0 d Z0 lt d Cb lt d Fb 68 8 FCP 1 2m CFC Im FCP 3 4m CFC 2 3 4m FCC CCT 17 d Fb gt d ZO d ZO lt d Cb lt d Fb a 26 ZO Zoom In Object Fb Focus before Zoom in Cb Convergnece before Zoom in 63 8 3 73 Disparity D
94. 27 2m 1 CPZ lt 5 lt 7 2 C 2 2K C3 KK C C CK C2 a V C w b CCT FCP FCP CCT FCP FCP 1 000 0 0 i FCC FCP 124 911 F CCT 20 CCT 1 000 FCP CCT FCP 0 FCC FCP C2 a b Bonferroni 4 99 1 2m 1 CCT FCP ECC 27 77
95. 40 280mm 7 3 5 9 9 mu EE RNN Nm PaPa mn 3 57 2 2 1 SONY 3D BOX MPE 200 MPES 3D01 HD SDI OUT 4 Focal Length L Facal Length L Stereo Analysis Disparity Coverage Disparity Far Disparity Near Vertical Offset Roll Angle Scale RIL Disparity Key Disparity Guide 48 MPES 3D01 47 SONY MPES 3D01 48 epth Budget 0 10 3D 3DC Fe
96. 2 3 Coupled Focus Convergence Method CFC Cb 2 48 9 Z0 g Fb d Ca d Cb Ca 9 Cb g Z0 g Fb 38 Cb Z0 Fb Cb Fb Z0 Cb
97. 3 3 FCC 64 d Fb lt d ZO d Cb gt d ZO CO Mb 1m Near A 2m har X2m Near X33m Far 3m INear 4m Far gt ea Q ea Q bm QO a mm aa 4m Near Before FCP 54 3 4 4 d Fb d Z0 d Cb lt d Fb 55 4 FCP CEC 1 2 4m 3m FCC CCT 13 3 65 camera gt d Fb
98. 3D 3D AE Auto Exposure AF Auto Focus 3D
99. binocular disparity 6 5cm 9 keystone distortion 2 3D 3D 2 2010 2 2
100. 4 94 mean SD FCC FCP FCP 4m 1 Bonferroni 25 4m 1 lt 05 lt 7 b FCC OOO k_ CCT OOOxk_ CCT OOO k FCP 006 FCP N Or FCP CCT a 6 Cr FCP ge 0 66 FCP FCP b Bonferroni 4 95 4 FCC 4m 1 CCT FCP
101. CCT 3 59 10 d Fb lt d ZO d Cb lt d Fb ZO Zoom In Object Fb Focus before Zoom in Cb Convergnece before Zoom in 49 1 10 1 FCP FCC CFC CCT i a a 1 1 1 a Far 3 33 Far 7 92 Far 0 21 Far 2 71 Far 2 71 Near 1 88 Near 7 50 Near 0 42 Near 2 29 Near 2 29 Far 3 33 Far 9 79 Far 0 00 Far 2 92 Far 2 71 Near 2 29 Near 3 96 Near 0 29 Near 0 00 Near 0 21 Far 3 33 Far 9 79 Far 0 00 Fars 2 30 Far 2 92 Near 2 29 Near 0 21 Near 2 50 Near 0 21 Near 0 42 Far 3 33 Far 9 79 Far 0 00 Fa 2 7 1 Far 3 13 Near 2 29 Near 0 21 Near 2 29 Near 0 42 Near 0 83 3 60 1
102. 3DCG 3DCG Autodesk 3ds MAX 18 1 29 18 3DCG 3 1 1 3DCG 6 5cm 80cm 5 25m 1 25m 1 25m 1m 5 25m 12m 15m
103. 1 1 0 00 FCP FCC CCT FCP FCC CCT 78 3m 1 78 3m 1 9 CCT 4 102 mean SD FCC FCP FCP 4m 1 Bonferroni 29 4m 1 CZ lt 05 lt 7 T a RCC _ 002 FCP _000 161 966 FCC CUI 002 000 000 _000 CCT FCP FCP CCT FCP 12 158 FCC CT FCP FCP FCC CCT FCC 3 18 053 CCT FCP 005 0 2 012 199 199 002 002 002 912 000 000 000 000 016 000 010 000 000 CCT FCC FCP CCT
104. 3D 3D 3D 3D
105. CCD 2 1 2 ZO Zoom In Object IAD Inter Axnal Distance 1 1 4 Charge Coupled Device
106. d4 24 2 40 Focus before Zoom In Zoom In Object A 1 d ZO 24 3D 3D d Fa d Z0 Z0 Fb Fb Z0 7 3 d0 7 HEC ms a
107. 1 32 3 3 1 5 25m 1 25m 5 25 m 1m 4 1 Convergenc before Zo0om in After Zoom In point 1 OO 4 1 25m 5 25m 1 25m
108. 3 71 er ee Pa dk or cer Far 3 33 Disparity Near 1 88 Far 2 92 Disparity Near 1 88 Far 3 33 Disparity Near 2 08 Far 3 33 Disparity Near 1 88 16 7 Far 6 25 Near 5 63 Far 9 17 Near 8 75 Far 9 79 Near 4 38 Far 9 79 Near 0 42 2 Far 0 21 Near 0 42 Far 3 13 Near 0 21 Far 3 13 Near 0 42 Far 2 92 Near 0 42 Far 8 54 Near 7 50 Far 9 79 Near 0 63 Far 9 58 Near 5 00 Far 9 79 Near 4 79 Far 3 13 Near 2 71 Far 2 71 Near 2 08 Far 2 92 Near 2 29 Far 3 18 Near 2 29 7 FCP CEFC FCP CEFC FCC
109. 107 4 4m mean SD FCC FCP FCP 33 33 4m 2 05 79 800 64 369 2 545 0 101 0 914 0 416 1 CO 1O 1 1 Ow lo QOIhS 1 1 QO 1 OE Ne 1 1C5 1 76 181 75 351 82 163 83 456 82 320 81 616 79 995 Co l 1O F O 16C51O 1 CO TO TO TS OO Olw 1 Ol IIo lO 83 634 84 589 83 350 82 153 0 597 0 560 0 055 0 946 0 177 0 839 0 395 0 678 0 528 0 597 79 468 33 4m CCT FCP FCC J1O 1 1 1m 1 OO wl OI 79 401 81 321 80 027 81 637 61 141 1 CTIO le 1 TS 1 OC OIRO NI 79 246 76 955 FCP 7 6 124 76 276 83 456 81 746 82 320 79 529
110. TITE Technical Report Vol 34 No 12 pp 5 2010 TITE Technical Report Vo1 34 No 24 pp 19 2010 3D
111. 1 5 FCC CCT 2 1 3 79 4
112. 25 15 ICoraline 3D Meet The Robinsons 3D Bolt 3D 3D Brian Gardaner O epth Script 15 negative parallax positive parallax 4 X Y 2K be 8 EE Depth Pikels of 2K Paralsx 8888888 8 EN NNN INN II NIININIINIIIIIL
113. TCC FCP FCP 2m 1 7 Bonferroni 23 2m 1 CZP lt 05 lt 07 b Bonferroni 4 91 1 7 2m 1 CCT FCP AONO 8 23 73 case1 2m Case2 2m case3 2m FCC
114. 3 25m 1 25m 3D 3DC 3 57 2 25m 3 25m 4 25m 5 25m 21 1 1 21 2 25m 1 25m 1 25m 1 94 2
115. 35 9 Fb Z0 Cb Fb Z0 d Fb gt d ZO d Fb lt d Cb camera a ZO Zoom In Object Fb Focus before Zoom in Cb Convergnece before Zoom in 35 9 2 46 2 2
116. 1 2 3 1 2 3 2 41 20 1 2 CDb Convergence point before Zoom in Ca 25 d0 Convergence point before Zoon in camera d Cb 25
117. NTT TV TV STYLBI 6 3D 16 3D 2D 3D 3D 3D UT Ue 16 3D AV watch http av watch impress co jp 2013 11 18 1 27 3D 3D
118. FCC 25 75 case1 4m case2 4m case3 4m l i FCP FCC CCT FCP FCC CCT case4 4m case6 4m case7 4m 0 i B FCP FCC CCT FCP FCC CCT FCP FCC CCT case8 4m casse9 4m T T 1 T T FCP FCC CCT FCP FCC CCT 75 4m 1 75 4m 1 9 CCT 4 96 2 mean SD TCC FCP FCP 1m 1 6
119. 3 58 3 3 0 0 7 15 Far Near 0 0 2 2 16 9 144 144
120. Cb Fb ZO Z0 d Fb d ZO d ZO lt d Cb ZO Zoom In Object Fb Focus before Zoom in Cb Convergnece before Zoom in 32 6 33 7 Fb ZO0 Cb ZO 2 45 Z0 d Fb gt d ZO d Cb lt d ZO Camera ee s ZO Zoom In Object Fb Focus before Zoom in Cb Convergnece before Zoom in 33 34 8 Cb Z0 Fb Z0 d Fb gt d ZO d ZO lt d Cb lt d Fb camera ZO Zoom In Object Fb Focus before Zoom in Cb Convergnece before Zoom in 34 8
121. ml 2 C 2 2K C3 KK C C CK C2 a V C w FCC FCP CCT FCC FCP CCT FCC FCP CCT FCC FCP CCT FCC b Bonferroni 4 93 1 24 74 case1 3m case2 3m Case3 3m 1 FCP FCC CCT case4 3m case6 3m Case7 3m W 1 i FCP FCC CCT FCP FCC CCT Case8 3m case9 3m 74 3m 1 74 3m 1 FCC 9 CCT
122. 5 4 3 1 1 2 5 5 4 4 3 3 2 2 1 5 Polar RS800CX MULTI 69 POLAR RS800CXMulti Polar ECG 69
123. 9 4 FCP CFC FCC CCT 5 4 2 9 19 3 77 19 FCP FC RC GT LEIIEOKTIEIEIETKIInIEIE KITIETETIKrl I II I II I 1 1 1 sl 1 1
124. 3 1 4 CCT 9 2 3 1
125. 3 3D SONY PMW TD300 SONY 3DBOX 3DC 1 2 3D BOX 9 4 36 4 20 SONY 3D BOX MPE 200 MPES 3D01
126. 3D 5 113
127. Near 0 21 Far 0 21 Near 0 21 Far 0 21 Near 0 21 5 4 2 I a T 58 3 68 d Fb d ZO d Cb d ZO d Cb d Fb 1m Far 1m Near A2m Far X2m Near X33m Far 3m Near 4m Far Binocular Disparity Before FCP FCC CFC 4m Near 58 5 6 6 d Fb d Z0 d Cb gt d Z0 59 6 FCP CFC FCC CCT ST el d Fb
128. S05 800 C2 C2 i 0 FCP CCT FCP FCC FCP FCC ECP CD ECP _ EE rr FCC FCP CC FCP rR FCP FCP FCP FCP _ FCC EE FCC re I CP ECC HE CCT ee CCT FCP TE FCP_ I ECP __ FCP b Bonferroni 4 101 1 28 3m 1 CCT FCP 00 8 786 case1 3m Case2 3m Case3 3m FCP FCC CCT FCP FCC CCT case6 3m case4 3m case7 3m T T 1 a p FCP FCC CCT FCP FCC CCT FCP FCC CCT case8 3m case9 3m
129. 2 1 Fixed Convergence Point Method OP do 47 2 2 Focus Convergence Corresponding Method FCC kil 48 2 3 Coupled Focus Convergence Method CFC 48 2 4 Convergence Comfort Threshold Method CCT kik 49 5280 Ge 2 2 20 2 ne 51 3 53 1 53 1 1 kk 54 1 2 kk 55 RE 0 56 2 ee 58 ii 58 OOEOCECOE O 55KKKK5 TK 59 3 kk 59 i hi ri RE a i 79 4 80 1 kk 81 0 81 NA DN ii 81 82 0 Be 0 ee
130. 6 82 261 FCC Se CCT FCP FCP CCT PCC FCP CCT 50 658 FCC FCP FCP CCT FCC FCP CCT 51 311 FCC FCP 6 FCP FCP 98 241 FCP CCT FCP b Bonferroni 016 000 016 000 000 000 000 000 000 000 C3 C2 dU la a Co K CO K 1 4 103 4 FCC 1 4m 1 CCT FCP FCC 29 79 case1 4m case2 4m case3 4m FCP Fcc CCT FCP FCC CCT FCP FCC CCT case4 4m case6 4m Case7 4m FCP FCC CCT FCP FCC CCT case
131. 7 TNHK R amp D No 123 2010 8 Miyasita T amp Uchida T Cause of Fatigue and its Improvement in Stereoscopic Displays Proceedhngs of Society for Informatnon Display Vol 31 1990 9 Sumio Yano Shinji Ide Tetsuo Mitsuhashi amp Hai Thwaites A study of visual fatigue and vsual comtort for 3D HDTVHDTVimages JDisplays Vol 23 2002 ITE Technical Report Vol 34 INo 12 2010 11 TITE Technical Report Vol 834 No 24 2010 12 TTE Technical Report Vol 27 No 21 2008 18 Vo1 57 No 9 2003 10 14 Brain Grdner Creative COW Magazine Steroscopic 3D Creative COW 2009 15 AV watch http avwatch impress co jp 2013 10 20 16 Whoijong Yoo Infhuences of a Sound Design of Media Contents on Communication Effects TV CE Sound Using a BQO TEST Journal of broad
132. FCC 52 d Fb lt d ZO d Fb lt d Cb lt d ZO CO to 1m Near A2m har X2m Near ho X3m Far 3m Near 4m Far gt Q ed Q 4 QO ii ri CTTLELLLLLLL 4m Near Before FCP FCC CFC 52 2 3 3 d Fb lt d Z0 d Cb gt d Z0 53 3 CFC FCC 2m 4m 1m FCP CCT 12 3 63 d Fb lt d ZO d ZO lt d CD camera
133. Near 8 54 Far 9 79 Near 9 58 Far 9 79 Near 9 79 Far 0 21 Near 0 42 Far 0 21 Near 0 42 Far 0 21 Near 0 42 Far 0 21 Near 0 42 Far 5 00 Near 5 83 Far 8 96 Near 9 79 Far 3 13 Near 9 38 Far 4 79 Near 9 58 Far 2 29 Near 3 13 Far 2 29 Near 2 92 Far 2 08 Near 2 71 Far 2 29 Near 3 13 9 FCP CFC FCP FCC 66 3 76 d Fb gt d ZO d Cb gt d Fb 1m Near A2m Far X2m Near X33m Far 3m Near 4m Far gt ea Q 4m Near Before 66
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136. CCT FCP FCC CCT FCP case4 2m case6 2m Case7 2m FCC CCT FCP FCC CCT case8 2m case9 2m FCP FCC CCT 73 2m 1 73 2m 1 4 ECC CCT 4 92 mean SD FCC FCP FCP 3m 1 Bonferroni 24 3m nt 1 CP lt Q 05 lt 07 b FCC FCP PCC CCT CCT FCP 0 FCP a CCT FCP 1 000 Mi FCP 1 000 CCT CCT FCC FCP 1 000 CCT FCP FCP 1 000 a FCC 88 106 FCP FCP
137. d ZO d Cb lt d FD ZO Zoom In Object Fb Focus before Zoom in Cb Convergnece before Zoom in Far 2 92 Disparity Near 1 88 Far 3 54 Disparity Near 2 29 Far 3 54 Disparity Near 2 50 Far 3 33 Disparity Near 2 29 55 4 13 4 Far 6 46 Near 5 83 Far 9 38 Near 8 96 Far 9 79 Near 4 38 Far 9 79 Near 0 83 Far 0 21 Near 0 42 Far 0 42 Near 0 00 Far 0 42 Near 0 00 Far 0 21 Near 0 21 Far 6 67 Near 6 04 Far 8 96 Near 8 54 Far 9 79 Near 4 38 Far 9 79 Near 0 83 Far 3 13 Near 2 50 Far 3 33 Near 2 92 Far 2 92 Near 2 30 Far 2 71 Near 2 50 3 66 4 FCP CFC FCP CFC FCC
138. d ZO d ZO lt d CD ZO Zoom In Object Fb Focus before Zoom in Cb Convergnece before Zoom in 59 6 3 69 Far 2 50 Disparity Near 0 21 Far 1 46 Disparity Near 0 42 Far 1 46 Disparity Near 0 00 Far 1 25 Disparity Near 0 21 15 6 ee ee Pa dk oma cer Far 5 83 Near 6 67 Far 4 79 Near 5 42 Far 4 17 Near 4 58 Far 3 54 Near 3 96 Far 0 63 Near 0 21 Far 0 42 Near 0 42 Far 0 21 Near 0 21 Far 0 21 Near 0 21 Far 4 79 Near 5 83 Far 4 58 Near 5 42 Far 4 17 Near 4 58 Far 3 54 Near 3 96 Far 2 08 Near 2 92 Far 2 50 Near 3 13 Far 2 71 Near 3 13 Far 2 30 Near 2 92 6 FCP CFC FCP CFC FCC
139. stereo displays Journal ot Vision Vol 11 pp 1 29 2011 26 Jongsoo Ha Cheahoon Ban Daewoong Kim Tatsuro Ishii An Adjiustment Method of a Convergence Point for Zoom In on a Dual Lens Stereoscopic Camera Lecture Notes in Electrical Engineering Springer Vol 235 pp 349 357 20183 27 I 1991 28 S3D WORKS Corporation 2011 29 H C Li J H Seo KKham S H Lee Method of Measuring Subjective3 D Visual Fatngue A Hive Factor Model OSA BIOMED DH LACSEA 2008 30 Arditi A Binocular vision Handbook of perception and humanperformance New York Wiley Interscnence 1986 31 Barry S R Fixing my gaze A scientists journey into seeing in threedimensions New York Basic Books 2009 117 32 Biocca F The cyborg s dilemmal progressive embodiment in virtualenvironment JCMC 3 2 1997 33 Howard 1 amp Rogers B Seeing in Depth Vol 2 Depth Perception NewYork Oxford 2008 34 Jones G Lee D Holliman N amp Ezra D Controlling perceived depthin stereoscop1c 1mages 1n Stereoscopc Displays and Virtual RealitySystems VIII Proceednngs of SPIE 4297 42 53 2001 35 Kim T amp Biocca F Telepresence via Television Two Dimensions ofTelepresence May Have Different connections to Memory andPer
140. 8 4m case9 4m FCP FCC CCT FCP FCC CCT 79 4m 1 79 4m 1 9 CCT 4 104 3 3 1 1m nean SD FCC FCP FCP 30 30 1m 2 7 lt 05 0 gt elseww meww rs 78 273 76 650 12 78 095 565 0 504 0 611 78 630 78 405 GOIK ES 12 12 12 12 12 12 2 82 543 78 958 1 109 0 349 80 782 79 172 76 014 2 719 0 090 80 520 79 550 78 768 80 277 80 410 76 616 0 341 0 571 Tr 001 73 409 FOO 73 448 74 228 0 965 0 396 FCP 71 542 74 479 a 71 869 0 538 0 592 FCP 73 023 72 883 CCT 72 048 1 FCC 73 205 71 496 30 1m CCT FCP
141. 82 8080008080088080888080O880RO 83 1 1 26707 PP 83 0 i 87 3 1 ti 87 I I if i 88 3 3 kk 105 EO ik i 109 ii 3D 3D 3D
142. D 3DTV 3 3 9 108 18 2 100 21 21 1 1 1 18 100 4 84 4
143. b gt d ZO d ZO sd Cb sd Fb lm Near A2m Far X2m Near X33m Far 3m Near 4m Far 4m Near Before 64 8 9 d Fb gt d Z0 A d Cb gt d Fb 65 9 FCP 1 2m CFC FCP 3 4m FCC CCT 18 d Fb gt d ZO d Fb lt d CDb Fb Cb ZO Zoom In Object Fb Focus before Zoom in Cb Convergnece before Zoom in 65 9 3 75 Disparity Disparity Disparity Far 1 29 Near 0 42 Far 1 67 Near 0 83 Far 1 46 Near 1 04 Far 1 25 Near 1 23 18 9 ey ee Pa dk or Coma Far 8 96 Near 9 79 Far 4 79
144. cast eng1neering Vol 13 No 5 2008 17 Eston R G A VIngledew E K Validity of heart rate Pedometry and accelerometry for prediciting of exercnse ntent and behavnor in school children Journal of 116 school health Vol59 3 1998 18 William James The Principles of psychology ols 1 and 2 New york Dover Publication 1950 19 Walter B Cannon Bodily changes in pain hunger fear andrage onaccount of recent reserchers into the function of emotion excitement 2nd ed New york Appleton 1929 20 Siegmund Pastoor 8D television A survey of recent research results on subjective redunrements SgnalProcessing lmage Communication Vol 4 1991 21 Colin Ware Cyril Gobrecht Mark Paton Algorithm for dynamic disparity adJustment SPIE 2409 Stereoscopnc Displays and Vnrtual Realhty Systems II 150 1995 22 T Motoki H Isono and 1 Yuyama Present status of three dimensional televnsnon reserch Proc of the IEEE 83 pp 1009 1021 1995 23 H Ujike Estimation of Visually Induced Motion Sickness from Velocity Component of Moving Image Virtual and Mixed Reality LNCS vol 5622 DD 186 142 2009 24 8 Knorr K Ide M Kunter and T Sikora The Avoidance of Visual Discomfort and Basic Rules for Producing Good 3D Pictures SMPTE Vol 7 pp 72 79 2012 25 6 Takashi Shibata Joohwan Kim David M Hoffman and Martin 8S Banks The zone of comfort Predicting visual discomfort with
145. ece before Zoom in Ca Convergence after Zoom in 36 2 47 2 2 Focus Convergence Corresponding Method FCC Cb Z0 Ca d Z0 6 37 Fb Z0 Cb Fb Cb Fb Z0 Ex IAfter Zoom Inl ZO Zoom In Object Fb Focus before Zoom in Fa Focus after Zoom 1n Cb Convergece before Zoomin Ca Convergence after Zoom in 37
146. isparity Disparity Far 2 29 Near 0 21 Far 2 08 Near 0 42 Far 1 88 Near 0 63 Far 1 46 Near 0 83 17 8 Far 5 00 Near 5 63 Far 9 17 Near 9 79 Far 9 79 Near 9 58 Far 9 79 Near 9 59 Far 0 21 Near 0 42 Far 0 21 Near 0 42 Far 0 42 Near 0 21 Far 0 42 Near 0 21 Far 9 79 Near 8 75 Far 9 79 Near 8 75 Far 9 79 Near 8 75 Far 9 79 Near 8 75 Far 2 29 Near 2 92 Far 2 29 Near 2 92 Far 2 50 Near 3 33 Far 2 71 Near 3 33 8 FCP CFC FCP CFC FCC 64 3 74 Binocular Disparity 9 d F
147. itive 0 5 Neagtive a gt gt 0 5 3 gt 0 0158187 0 008722 0 0245937 rad 10 11 x 11 A PB 0 5 tano 8 25 A A 3 25 tand 3 25 0 0245937 132 14766 cm A B 205 5 cm B B 205 5 132 14766 73 35234 cm B x A 8 25 B x x BXx3 25 A 73 35234x3 25 132 14766 1 80400 cm x x 2 x xXx2 1 80400x2 3 60801 cm 55 1 3 60801 cm
148. play 68 5cm h 205 5cm 3h 8 1 SS3D 9 8B 8 2 By 325 DD_ 3 _ tan 205 5 L EE_ ji 325 2 tan J 0 0158137 rad 10 a ca a 8 og 8 1 g 0 5 1 0 017444 rad 0 5 0 008722 Grad oe 60 3 25 mm 2 tan L a Bl 1 a B 0 5 2 2 2 2 2 Pos
149. s Before Zoom in After Zoom In 7Z0 Zoom In Object Fb Focus before Zoom in Fa Focus after Zoom in Cb Convergece before Zoom in Ca Convergence after Zoom in 40 3 9 2 5 2
150. suasion JCMC 3 9 1997 36 Qian N amp Zhu Y Physiological computation of binocular disparity Vision Research 87 1811 1827 1997 37 Reeves B Being there Television as symbolic versus naturalexperience Unpublhshed manuscrnpt CA Stanford University Institutetor communication Research 1991 38 Sadowsky W amp Stanney K Measuring and managing presence invirtual environments Handbook of virtual environments technology Hillsdale Lawrence Erlbaum Associates 2002 118
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