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Super-multiview windshield display for driving assistance
Yohei Urano,Shinji Kashiwada,Hiroshi Ando,Koji Nakamura,Yasuhiro Takaki 한국정보디스플레이학회 2011 Journal of information display Vol.12 No.1
A three-dimensional windshield display (3D-WSD) can present driving information at the same depth as the objects in the outside scene. Herein, a super-multiview 3D-WSD is proposed because the super-multiview display technique provides smooth motion parallax. Motion parallax is the only physiological cue for perceiving the depth of a 3D image displayed at a far distance, which cannot be perceived by vergence and binocular parallax. A prototype system with 36 views was constructed, and the discontinuity of motion parallax and accuracy of depth perception were evaluated.
Super-multiview windshield display for driving assistance
Urano, Yohei,Kashiwada, Shinji,Ando, Hiroshi,Nakamura, Koji,Takaki, Yasuhiro The Korean Infomation Display Society 2011 Journal of information display Vol.12 No.1
A three-dimensional windshield display (3D-WSD) can present driving information at the same depth as the objects in the outside scene. Herein, a super-multiview 3D-WSD is proposed because the super-multiview display technique provides smooth motion parallax. Motion parallax is the only physiological cue for perceiving the depth of a 3D image displayed at a far distance, which cannot be perceived by vergence and binocular parallax. A prototype system with 36 views was constructed, and the discontinuity of motion parallax and accuracy of depth perception were evaluated.
Choi, Myeon-Cheon,Hwang, Jae-Chul,Kim, Chiwan,Ando, Shinji,Ha, Chang-Sik Wiley Subscription Services, Inc., A Wiley Company 2010 Journal of polymer science Part A, Polymer chemist Vol.48 No.8
<P>Novel polynorbornene (PNB)-polyimide (PI) copolymers were synthesized based on poly(N-phenyl-exo-norbornene-5,6-dicarboximide) (PPhNI) and chlorinated PI (BPDA/TCDB). Polynorbornene copolymers (PNCs) with diverse compositions of anhydride were synthesized via ring opening metathesis polymerization (ROMP) of N-phenyl-exo-norbornene-5,6-dicarboximide (PhNI) and exo-7-oxanorbornene-5,6-dicarboxylic anhydride(exo-NA), followed by copolymerization through a reaction with aromatic dianhydride (3,3′,4,4′-biphenyltetra-carboxylic dianhydride, BPDA) and tetrachlorinated diamine (2,2′,5,5′-tetrachlorobenzidine, TCDB). The copolymer (PNIC) films exhibited good optical transparency with a transmittance of around 70% at 400 nm and a good thermal stability with a glass transition temperature at 276–300 °C. These flexible films also resisted most organic solvents and chemicals, such as methanol, acetone, tetrahydrofuran, N-methylpyrrolidone, ethyl acetate, hydrochloric acid, sodium hydroxide, and hydrogen peroxide, etc. Indium tin oxide (ITO) coated thin films were prepared at various substrate deposition temperatures with a radio frequency (r.f.) planar magnetron sputtering system. The ITO thin films that were deposited onto the PNIC copolymer substrates had good electrical and optical properties. An organic light-emitting device (OLED) was fabricated using the PNIC copolymer substrate with a structure of PNIC08/ ITO (anode)/hole-transporting layer (HTL)/emitting & electron-transporting layer (EM&ETL)/aluminum (cathode). The flexible OLED fabricated on the ITO-grown PNIC substrate exhibited a performance that was comparable to corresponding ITO-grown glass substrates. Therefore, the ITO-grown PNIC substrate could possibly be a promising candidate as a substrate for flexible displays. © 2010 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem 48: 1806–1814, 2010</P> <B>Graphic Abstract</B> <P>Novel polynorbornene (PNB)-polyimide (PI) copolymers were synthesized based on poly(N-phenyl-exo-norbornene-5,6-dicarboximide) (PPhNI) and chlorinated PI (BPDA/TCDB). The copolymer (PNIC) films exhibited good optical transparency, good thermal stability, and strong resistance against common organic solvents. The flexible OLED fabricated on the ITO-grown PNIC substrate exhibited a performance that was comparable to corresponding ITO-grown glass substrates. Therefore, the ITO-grown PNIC substrate could possibly be a promising candidate as a substrate for flexible displays. <img src='wiley_img_2010/0887624X-2010-48-8-POLA23949-gra001.gif' alt='wiley_img_2010/0887624X-2010-48-8-POLA23949-gra001'> </P>