Takashi Obi scite author profile

This study was performed to examine the usefulness of medical endoscopic imaging utilizing narrow-band illumination. The contrast between the vascular pattern and the adjacent mucosa of the underside of the human tongue was measured using five narrow-band illuminations and three broadband illuminations. The results demonstrate that the pathological features of a vascular pattern are dependent on the center wavelength and the bandwidth of illumination. By utilizing narrow-band illumination of 415+/-30 nm, the contrast of the capillary pattern in the superficial layer was markedly improved. This is an important benefit that is difficult to obtain with ordinary broadband illumination. The appearances of capillary patterns on color images were evaluated for three sets of filters. The narrow, band imaging (NBI) filter set (415+/-30 nm, 445+/-30 nm, 500+/-30 nm) was selected to achieve the preferred appearance of the vascular patterns for clinical tests. The results of clinical tests in colonoscopy and esophagoscopy indicated that NBI will be useful as a supporting method for observation of the endoscopic findings of early cancer.

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Endoscopic Observation of Tissue by Narrowband Illumination

Gono

Yamazaki

Doguchi

et al. 2003

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270

238

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Multispectral image enhancement for effective visualization

Hashimoto¹,

Murakami²,

Bautista³

et al. 2011

Opt. Express

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Color enhancement of multispectral images is useful to visualize the image's spectral features. Previously, a color enhancement method, which enhances the feature of a specified spectral band without changing the average color distribution, was proposed. However, sometimes the enhanced features are indiscernible or invisible, especially when the enhanced spectrum lies outside the visible range. In this paper, we extended the conventional method for more effective visualization of the spectral features both in visible range and non-visible range. In the proposed method, the user specifies both the spectral band for extracting the spectral feature and the color for visualization respectively, so that the spectral feature is enhanced with arbitrary color. The proposed color enhancement method was applied to different types of multispectral images where its effectiveness to visualize spectral features was verified.

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Known plaintext attack on double random phase encoding using fingerprint as key and a method for avoiding the attack

et al. 2010

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We have shown that the application of double random phase encoding (DRPE) to biometrics enables the use of biometrics as cipher keys for binary data encryption. However, DRPE is reported to be vulnerable to known-plaintext attacks (KPAs) using a phase recovery algorithm. In this study, we investigated the vulnerability of DRPE using fingerprints as cipher keys to the KPAs. By means of computational experiments, we estimated the encryption key and restored the fingerprint image using the estimated key. Further, we propose a method for avoiding the KPA on the DRPE that employs the phase retrieval algorithm. The proposed method makes the amplitude component of the encrypted image constant in order to prevent the amplitude component of the encrypted image from being used as a clue for phase retrieval. Computational experiments showed that the proposed method not only avoids revealing the cipher key and the fingerprint but also serves as a sufficiently accurate verification system.

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<title>Expanded color gamut reproduced by six-primary projection display</title>

Ajito

Obi

Yamaguchi

et al. 2000

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Color Enhancement in Multispectral Image Using the Karhunen-Loeve Transform

Mitsui

Murakami

Obi

et al. 2005

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Color Conversion Method for Multiprimary Display Using Matrix Switching

Ajito

Ohsawa

Obi

et al. 2001

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Transaxial system models for jPET-D4 image reconstruction

Yamaya¹,

Hagiwara

Obi

et al. 2005

Phys. Med. Biol.

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A high-performance brain PET scanner, jPET-D4, which provides four-layer depth-of-interaction (DOI) information, is being developed to achieve not only high spatial resolution, but also high scanner sensitivity. One technical issue to be dealt with is the data dimensions which increase in proportion to the square of the number of DOI layers. It is, therefore, difficult to apply algebraic or statistical image reconstruction methods directly to DOI-PET, though they improve image quality through accurate system modelling. The process that requires the most computational time and storage space is the calculation of the huge number of system matrix elements. The DOI compression (DOIC) method, which we have previously proposed, reduces data dimensions by a factor of 1/5. In this paper, we propose a transaxial imaging system model optimized for jPET-D4 with the DOIC method. The proposed model assumes that detector response functions (DRFs) are uniform along line-of-responses (LORs). Then each element of the system matrix is calculated as the summed intersection lengths between a pixel and sub-LORs weighted by a value from the DRF look-up-table. 2D numerical simulation results showed that the proposed model cut the calculation time by a factor of several hundred while keeping image quality, compared with the accurate system model. A 3D image reconstruction with the on-the-fly calculation of the system matrix is within the practical limitations by incorporating the proposed model and the DOIC method with one-pass accelerated iterative methods.

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Takashi Obi

Appearance of enhanced tissue features in narrow-band endoscopic imaging

Endoscopic Observation of Tissue by Narrowband Illumination

Multispectral image enhancement for effective visualization

Known plaintext attack on double random phase encoding using fingerprint as key and a method for avoiding the attack

<title>Expanded color gamut reproduced by six-primary projection display</title>

Color Enhancement in Multispectral Image Using the Karhunen-Loeve Transform

Color Conversion Method for Multiprimary Display Using Matrix Switching

Transaxial system models for jPET-D4 image reconstruction

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