NATIONAL INSTITUTE OF JAPAN SCIENCE AND TECHNOLOGY AGENCY (Japon)
Inventeur(s)
Arai, Hitoshi
Arai, Shinobu
Abrégé
When obtaining subband signals by performing multiresolution decomposition on image data using a broad-sense pinwheel framelet or a pinwheel wavelet frame, having a degree, that is a set of an approximate filter with no orientation and a plurality of detail filters with respective orientations, and acquiring processed image data by the subband signals in a decomposition phase of the multiresolution decomposition, or processed image data that has been reconstructed into an image by summing the subband signals in a synthesis phase of the multiresolution decomposition, the present invention performs attenuation or amplification of the subband signals in the decomposition phase of the multiresolution decomposition that correspond to at least one of the filters.
Digital filter, and image generating, superhybrid image generating, electronic medium manufacturing, and letter-row tilt illusion generating apparatus, method and program
NATIONAL INSTITUTE OF JAPAN SCIENCE AND TECHNOLOGY AGENCY (Japon)
Inventeur(s)
Arai, Hitoshi
Arai, Shinobu
Abrégé
In the present invention, subband signals are obtained by performing multiresolution decomposition on image data by using a broad-sense pinwheel framelet that is a set of an approximate filter with no orientation and a plurality of detail filters with respective orientations, and that has a degree. When an image is reconstructed by summing the obtained subband signals, the reconstructed image data is generated by attenuating or amplifying a subband signal corresponding to at least one of filters that have predetermined frequency characteristics and/or a predetermined orientation among the filters.
NATIONAL INSTITUTE OF JAPAN SCIENCE AND TECHNOLOGY AGENCY (Japon)
Inventeur(s)
Arai, Hitoshi
Arai, Shinobu
Abrégé
The present invention obtains subband signals by performing a multiresolution decomposition by a wavelet frame with orientation selectivity or a filterbank with orientation selectivity that is a set of an approximate filter with no orientation and a plurality of detail filters with respective orientations on image data, and, when an image is reconstructed by summing the obtained subband signals, generates reconstructed image data that creates a floating illusion by attenuating or amplifying a subband signal corresponding to at least one of detail filters with a predetermined orientation relative to a floating direction, in which an image is desired to be floated due to an illusion, among the detail filters.
NATIONAL INSTITUTE OF JAPAN SCIENCE AND TECHNOLOGY AGENCY (Japon)
Inventeur(s)
Shoemaker, Jason
Kitano, Hiroaki
Kawaoka, Yoshihiro
Abrégé
The present invention acquires a gene list containing genetic information, detects stored genetic information that matches the genetic information contained in the acquired gene list, specifies the type of cell or tissue that corresponds to the gene list on the basis of the detected genetic information and stored cell or tissue information, and outputs the specified information to be output that contains cell information comprising the cell type and/or tissue information comprising the tissue type.
G06F 19/20 - pour l'hybridation ou l'expression génique, p.ex. microréseaux, séquençage par hybridation, normalisation, profilage, modèles de correction de bruit, estimation du ratio d'expression, conception ou optimisation de sonde
5.
IMAGE PROCESSING DEVICE, IMAGE PROCESSING METHOD, PROGRAM, PRINT MEDIUM, AND RECORDING MEDIUM
NATIONAL INSTITUTE OF JAPAN SCIENCE AND TECHNOLOGY AGENCY (Japon)
Inventeur(s)
Arai, Hitoshi
Arai, Shinobu
Abrégé
Multiresolution decomposition involving extended pinwheel framelets or pinwheel wavelet frames possessing degree and constituted by aggregates of an approximate filter lacking directionality and a plurality of detail filters each having a directionality is performed on image data, and sub-band signals are acquired. In the case of acquisition of processed image data afforded by the sub-band signals in the decomposition phase of multiresolution decomposition, or of processed image data of an image reconstituted by summing up the sub-band signals in the synthesis phase of multiresolution decomposition, a damping or amplification process is performed on sub-band signals in the synthesis phase of multiresolution decomposition, which correspond to at least one of the filters.
NATIONAL INSTITUTE OF JAPAN SCIENCE AND TECHNOLOGY AGENCY (Japon)
Inventeur(s)
Kido, Takashi
Abrégé
The present invention obtains self tracked information integrating habitual information and biological signal information, obtains characteristic information pertaining to the characteristics of a user on the basis of personal genome information and the obtained self tracked information, and outputs the obtained characteristic information.
G06F 19/28 - pour la programmation d'outils ou de systèmes de bases de données, p.ex. ontologies, intégration de données hétérogènes, entreposage de données ou architectures informatiques
G06Q 50/22 - Aide sociale ou assistance sociale, p. ex. activités de développement communautaire ou services de consultation
A61B 5/00 - Mesure servant à établir un diagnostic Identification des individus
7.
Illusion image generating apparatus, medium, image data, illusion image generating method, printing medium manufacturing method, and program
National Institute of Japan Science and Technology Agency (Japon)
Inventeur(s)
Arai, Hitoshi
Arai, Shinobu
Abrégé
The present invention obtains subband signals by performing a multiresolution decomposition by a wavelet frame with orientation selectivity or a filterbank with orientation selectivity that is a set of an approximate filter with no orientation and a plurality of detail filters with respective orientations on image data, and, when an image is reconstructed by summing the obtained subband signals, generates reconstructed image data that creates a floating illusion by attenuating or amplifying a subband signal corresponding to at least one of detail filters with a predetermined orientation relative to a floating direction, in which an image is desired to be floated due to an illusion, among the detail filters.
NATIONAL INSTITUTE OF JAPAN SCIENCE AND TECHNOLOGY AGENCY (Japon)
Inventeur(s)
Arai, Hitoshi
Arai, Shinobu
Abrégé
The present invention involves a set that includes an approximate filter having no orientation and a plurality of precision filters, each of which has an orientation. When reconstructing an image by performing multi-resolution decomposition on image data using a broad pinwheel framelet having order, acquiring sub-band signals, and adding the acquired sub-band signals together, reconstructed image data is generated by attenuating or amplifying a sub-band signal corresponding to at least one of the filters, among the plurality of filters, having prescribed frequency characteristics and/or a prescribed orientation.
National Institute of Japan Science and Technology Agency (Japon)
Inventeur(s)
Arai, Hitoshi
Arai, Shinobu
Abrégé
When carrying out multiple resolution decomposition on image data with a non-orientational approximation filter and either a orientationally selective wavelet frame or a orientationally selective filter bank, which is a set of a plurality of precision filters having respective orientationality, acquiring sub-band signals, and reconfiguring an image by summing the acquired sub-signals, the present invention generates reconfigured image data which generates a floating optical illusion by attenuating and amplifying a sub-band signal which corresponds to at least one precision filter from among the precision filters which has a prescribed orientationality for a float direction in which the image is to be made to float by way of optical illusion.
National Institute of Japan Science and Technology Agency (Japon)
CENTRAL RESEARCH INSTITUTE OF ELECTRIC POWER INDUSTRY (Japon)
Inventeur(s)
Takeya, Junichi
Ono, Shimpei
Seki, Shiro
Abrégé
An organic field-effect transistor generally comprises a source electrode, a drain electrode, an organic semiconductor layer in contact with these electrodes, a gate insulating layer adjacent to the organic semiconductor layer, and a gate electrode in contact with the gate insulating layer. For the gate insulating layer, 旜a substance which is in a liquid form having no content of pastes or thickening agents, and the main constituent thereof is an ionic liquid” is used, thereby 旜a frequency where the capacitance decreases to one-tenth of a capacitance at a modulation frequency of 10Hz in the gate voltage” becomes 10kHz or higher. As a result, an organic field-effect transistor with a low driving voltage, sufficiently high current amplification factor, and a high responsiveness (旜a frequency where the capacitance decreases to one-tenth of the capacitance at the modulation frequency of 10Hz in the gate voltage” is 10kHz or higher) can be provided.
H01L 51/05 - Dispositifs à l'état solide qui utilisent des matériaux organiques comme partie active, ou qui utilisent comme partie active une combinaison de matériaux organiques et d'autres matériaux; Procédés ou appareils spécialement adaptés à la fabrication ou au traitement de tels dispositifs ou de leurs parties constitutives spécialement adaptés au redressement, à l'amplification, à la génération d'oscillations ou à la commutation et ayant au moins une barrière de potentiel ou une barrière de surface; Condensateurs ou résistances à l'état solide, ayant au moins une barrière de potentiel ou une barrière de surface
National Institute of Japan Science and Technology Agency (Japon)
Osaka University ()
Inventeur(s)
Ikeda, Kensuke
Kitayama, Ken-Ichi
Abrégé
A simple structure is used to achieve a high-rate optical analog/digital conversion. There are included an optical pulse branching/delaying/multiplexing unit (40), an optical encoder (60) and an optical threshold value processor (70). The unit (40) branches each of optical pulse sequences (S11), which is obtained by sampling an input optical analog signal (Sin), to generate the same number of replicas of optical pulses as a predetermined number of bits. The unit (40) then imparts a predetermined intensity difference and a predetermined time difference to each of the replicas of optical pulses and multiplexes them to generate and output a sequence of temporally successive optical pulses. The combination of optical encoder (60) and optical threshold value processor (70) encodes and quantizes the optical pulse sequence (S12) to output an optical digital signal (Sout) corresponding to the optical analog signal (Sin).
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