Shuzo Hirahara scite author profile

A new mathematical model of the human vision system has been formulated. This model simulates the human vision spatio-temporal responses quantitatively. The physiological characteristics of the human visual nerve system including the X and Y-ganglion cells have been added to a vision model which was formerly proposed for still images. The new model has been applied to flickering sinusoidal waves, and the model's spatio-temporal frequency characteristics agreed well with experimental results.It has also been clarified that the theoretical contrast sensitivities to square waves are almost flat in the lower spatial frequencies in the same way as experimental results. 3.SPATIO-TEMPORALHUMAN VISION MODEL SPIE Vol. 1453 Human Vision, Visual Processing, and Digital Display 11(1991) / 283 Downloaded From: http://proceedings.spiedigitallibrary.org/ on 06/26/2016 Terms of Use: http://spiedigitallibrary.org/ss/TermsOfUse.aspx

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Analysis of Noncontact Squeegeeing Device for Liquid Toner Electrophotography

Hirahara

Yoshikawa

Nukada

et al. 2004

JSME international journal. Ser. B, Fluids and thermal engineer

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A noncontact squeegeeing device is used just after the development process in a liquid toner electrophotographic printing system. By using capillary forces, this device removes almost all of the surplus liquid adhering to the photoreceptor surface. Though the device has a simple structure and has even been used in actual systems, there is not much information regarding the mechanism of the device available in the literature, and the mechanism does not seem to have been theoretically analyzed. In this paper, some equations are derived from the lubrication approximation theory based on the condition that total liquid flow is zero. The calculation results obtained using these equations show good agreement with the experimental results for the variation of the characteristics of the squeegeeing efficiency with the circumferential surface velocities of rollers. The proposed equations make the calculation of the squeegeeing characteristics easy and thus facilitate improvement of the device and further development of the system.

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Analysis of Cohesion on Pigmented Ink Surface (A Spec Consideration for Inkjet Ink)

Hirahara

Minamitani

2004

Trans.JSME, Ser.B

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Inkjet Characteristics Affected by Cohesion on Pigmented Ink Surface

Hirahara

Minamitani

2004

Trans.JSME, Ser.B

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Shuzo Hirahara

Analysis of Electrically Induced Swirling Flow of Isotonic Saline in a Mixing Microchannel

<title>New human vision system model for spatio-temporal image signals</title>

Analysis of Noncontact Squeegeeing Device for Liquid Toner Electrophotography

Analysis of Cohesion on Pigmented Ink Surface (A Spec Consideration for Inkjet Ink)

Inkjet Characteristics Affected by Cohesion on Pigmented Ink Surface

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