[TAKAHASHI, Haruaki ▲高▼橋　玄顕, DOKE, Takehito 道家　健仁, TAKAHASHI, Ryohei ▲高▼橋　遼平, KIN, Taichi 金　太一, SAITO, Toki 斎藤　季, KUNII, Naoto 國井　尚人, OYAMA, Hiroshi 小山　博史, SAITO, Nobuhito 齊藤　延人] 4F, 4-1-3, Hongo, Bunkyo-ku, Tokyo 〒1500002 東京都文京区本郷四丁目１番３号４階 Tokyo1500002;3-1, Hongo 7-chome, Bunkyo-ku, Tokyo 〒1138654 東京都文京区本郷七丁目３番１号 Tokyo1138654 An acquisition unit of an image processing device acquires intended data that is three-dimensional medical image data from which an area of interest is to be extracted. A conversion unit: performs a conversion process so as to ensure that at least one of the size, direction, and position of the intended data coincides with standard data, which is three-dimensional medical data representing a standard, so that the degree of coincidence between the intended data and the standard data increases; and generates pre-converted data, which is three-dimensional medical data that has been subjected to the conversion process on the intended data. An area extraction unit inputs the pre-converted data to a pre-learned model that has been trained in advance in order to extract an area of interest included in three-dimensional medical image data from the three-dimensional medical image data, and extracts the area of interest included in the pre-converted data through computation by the pre-learned model. An acquisition unit of an image processing device acquires intended data that is three-dimensional medical image data from which an area of interest is to be extracted. A conversion unit: performs a conversion process so as to ensure that at least one of the size, direction, and position of the intended data coincides with standard data, which is three-dimensional medical data representing a standard, so that the degree of coincidence between the intended data and the standard data increases; and generates pre-converted data, which is three-dimensional medical data that has been subjected to the conversion process on the intended data. An area extraction unit inputs the pre-converted data to a pre-learned model that has been trained in advance in order to extract an area of interest included in three-dimensional medical image data from the three-dimensional medical image data, and extracts the area of interest included in the pre-converted data through computation by the pre-learned model.

[KOSUGI SHINICHI, SUE HARUAKI, TAKEZAWA YOSHITAKA, TAKAHASHI HIROYUKI, HARA NAOKI] JP PROVIDED IS A PHENOLIC RESIN COMPOSITION CONTAINING: AN EPOXY RESIN CURING AGENT THAT CONTAINS A HYDROXYBENZENE DERIVATIVE REPRESENTED BY THE FOLLOWING FORMULA (I) AND A PHENOL RESIN HAVING AT LEAST ONE PARTIAL STRUCTURE SELECTED FROM THE GROUP CONSISTING OF THE FOLLOWING FORMULAE (IIA), (IIB), (IIC) AND (IID); AND AN EPOXY RESIN. IN THESE FORMULAE, EACH OF R¹, R², R³, R⁴ AND R⁵ INDEPENDENTLY REPRESENTS A HYDROXY GROUP, A HYDROGEN ATOM OR AN ALKYL GROUP; AT LEAST TWO OF R¹, R², R³, R⁴ AND R⁵ ARE HYDROXY GROUPS; EACH AR INDEPENDENTLY REPRESENTS AT LEAST ONE GROUP SELECTED FROM THE GROUP CONSISTING OF THE FOLLOWING FORMULAE (IIIA) AND (IIIB); EACH OF R¹¹ AND R¹⁴ INDEPENDENTLY REPRESENTS A HYDROGEN ATOM OR A HYDROXY GROUP; AND EACH OF R¹² AND R¹³ INDEPENDENTLY REPRESENTS A HYDROGEN ATOM OR AN ALKYL GROUP.

[TAKAHASHI NAOKI, SHIMODA HARUAKI, TOYOMURA YUJI] <P>PROBLEM TO BE SOLVED: To provide a lower-cost color image forming apparatus on the premise that necessary precision is kept by using a common sensor as both a position shift detecting sensor essential to the color image forming apparatus as well as density detection and an image density sensor. <P>SOLUTION: This color image forming apparatus has a density pattern forming means of forming density patterns for density detection by colors on recording paper, light sources which irradiate the density patterns formed by the density pattern forming means with visible detection light and are less than the colors of the density patterns, a photodetecting means of receiving reflected light of the detection light reflected by the density patterns, a density detecting means of detecting the density of the density patterns on the recording paper with the output of the photodetecting means, and a development agent density estimating means of estimating developing material density according to the density detected by the density detecting means. <P>COPYRIGHT: (C)2004,JPO

[KOSUGI SHINICHI, SUE HARUAKI, TAKEZAWA YOSHITAKA, TAKAHASHI HIROYUKI, HARA NAOKI] JP A phenolic resin composition includes an epoxy resin hardener and an epoxy resin, the epoxy resin hardener including a hydroxybenzene derivative represented by the following Formula (I) and a phenolic resin having at least one partial structure selected from the group consisting of the following Formulae (IIa), (IIb), (IIc) and (IId). In the Formulae, each of R1, R2, R3, R4 and R5 independently represents a hydroxy group, a hydrogen atom, or an alkyl group, and at least two of R1, R2, R3, R4 and R5are a hydroxy group; each Ar independently represents at least one group selected from the group consisting of the following Formulae (IIIa) and (IIIb); each of R11and R14independently represents a hydrogen atom or a hydroxy group; and each of R12 and R13 independently represents a hydrogen atom or an alkyl group.

[TAGUCHI, Takahiro 田口　貴大, TAKAHASHI, Toru ▲高▼橋　亨, TAKIGAWA, Haruaki 滝川　晴章] 10-1, Higashikotari 1-chome, Nagaokakyo-shi, Kyoto 〒6178555 京都府長岡京市東神足１丁目１０番１号 Kyoto6178555 A heat flux measurement device (1A) is provided with: a first heat flux sensor (50A) having a pair of heat flux detection surfaces (50Aa, 50Ab) opposite to each other in the thickness direction; and at least a first heat flux control member (60A), among the first heat flux control member (60A) and a second heat flux control member (60B) that differ from the first heat flux sensor (50A) in heat capacity and that mutually differ in heat capacity. The first heat flux control member (60A) is provided only on one heat flux detection surface of the pair of heat flux detection surfaces (50Aa, 50Ab) of the first heat flux sensor (50A), or the first heat flux control member (60A) is provided on the one heat flux detection surface and the second heat flux control member (60B) is provided on the other heat flux detection surface.

[Kenji Mori, Hiromu Hirai, Haruaki Otsuki, Tsuyoshi Takahashi, Jun Naruse, Yuji Nishimura, Muneo Kawamoto] JPX Tokyo A magnetic disk system utilizes both of voice coil motor and a piezoelectric element provided on a head supporting arm to precisely position a head to a predetermined position on a disk. The piezoelectric element is built in the distal end portion of the head supporting arm and is restricted in respect of its movement by a resilient mechanism which has low rigidity in the driving direction of the piezoelectric element and high rigidity in the other directions. The resilient mechanism is formed by pairs of doubled parallel leaf springs so arranged that each pair is disposed on either side of the piezoelectric element.

[Takehito Doke, Haruaki Takahashi, Toki Saito, Taichi Kin, Hiroshi Oyama, Nobuhito Saito] JP Tokyo A medical image processing device acquires a user operation. The medical image processing device specifies, from a three-dimensional medical image in which one or more organs appear, an organ of interest to which to apply information. The medical image processing device applies predetermined information to the organ of interest that has been specified. The medical image processing device controls a display device so as to display the three-dimensional medical image.

[Shinichi Kosugi, Haruaki Sue, Yoshitaka Takezawa, Hiroyuki Takahashi, Naoki Hara] JP Tokyo Provided is a phenolic resin composition containing: an epoxy resin curing agent that contains a hydroxybenzene derivative represented by the following Formula (I) and a phenol resin having at least one partial structure selected from the group consisting of the following Formulae (IIa), (IIb), (IIc) and (IId); and an epoxy resin. In these Formulae, each of R1, R2, R3, R4 and R5 independently represents a hydroxy group, a hydrogen atom or an alkyl group; at least two of R1, R2, R3, R4 and R5 are hydroxy groups; each Ar independently represents at least one group selected from the group consisting of the following Formulae (IIIa) and (IIIb); each of R11 and R14 independently represents a hydrogen atom or a hydroxy group; and each of R12 and R13 independently represents a hydrogen atom or an alkyl group.

[KOSUGI, Shinichi, SUE, Haruaki, TAKEZAWA, Yoshitaka, TAKAHASHI, Hiroyuki, HARA, Naoki] 9-2, Marunouchi 1-chome, Chiyoda-ku Tokyo 100-6606, JP Provided is a phenolic resin composition containing: an epoxy resin curing agent that contains a hydroxybenzene derivative represented by the following Formula (I) and a phenol resin having at least one partial structure selected from the group consisting of the following Formulae (IIa), (IIb), (IIc) and (IId); and an epoxy resin. In these Formulae, each of R＜sup＞1＜/sup＞, R＜sup＞2＜/sup＞, R＜sup＞3＜/sup＞, R＜sup＞4＜/sup＞ and R＜sup＞5＜/sup＞ independently represents a hydroxy group, a hydrogen atom or an alkyl group; at least two of R＜sup＞1＜/sup＞, R＜sup＞2＜/sup＞, R＜sup＞3＜/sup＞, R＜sup＞4＜/sup＞ and R＜sup＞5＜/sup＞ are hydroxy groups; each Ar independently represents at least one group selected from the group consisting of the following Formulae (IIIa) and (IIIb); each of R＜sup＞11＜/sup＞ and R＜sup＞14＜/sup＞ independently represents a hydrogen atom or a hydroxy group; and each of R＜sup＞12＜/sup＞ and R＜sup＞13＜/sup＞ independently represents a hydrogen atom or an alkyl group. ＜chemistry id="chema01" num="0001"＞＜img id="ia01" file="imga0001.tif" wi="165" he="86" img-content="chem" img-format="tif" /＞＜/chemistry＞

[TAKIGAWA, Haruaki 滝川　晴章, TAGUCHI, Takahiro 田口　貴大, TAKAHASHI, Toru ▲高▼橋　亨, SAKAI, Akito 酒井　明人, NAKATSUJI, Satoru 中辻　知] 10-1, Higashikotari 1-chome, Nagaokakyo-shi, Kyoto 〒6178555 京都府長岡京市東神足１丁目１０番１号 Kyoto6178555;3-1, Hongo 7-chome, Bunkyo-ku, Tokyo 〒1138654 東京都文京区本郷七丁目３番１号 Tokyo1138654 A thermoelectric body according to the present invention contains a thermoelectric material that has an anomalous Nernst effect and has a plate-like shape. With respect to the peak intensity of this thermoelectric body as determined by an X-ray diffraction method, if the peak intensity of (220) is taken as 100, the peak intensity of (111) is 1.1 or more. When the whole of a cross-section along the longitudinal direction and the thickness direction that is perpendicular to the longitudinal direction is observed, the average crystal grain size of the thermoelectric material in the longitudinal direction is 9.6 µm or more.