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    • 1. 发明授权
    • Image processing method and image processing apparatus, and program thereof
    • 图像处理方法和图像处理装置及其程序
    • US07751618B2
    • 2010-07-06
    • US11469193
    • 2006-08-31
    • Takahiro Matsuura
    • Takahiro Matsuura
    • G06K9/00G03F3/08
    • H04N1/401H04N1/6033
    • A color chart and an illumination unevenness correcting chart are shot by a digital camera 1 under the same illumination, and color data on a first image obtained by shooting the color chart and color data on a second image obtained by shooting the illumination unevenness correcting chart are input to a color processing parameter editing apparatus 2 for generating a color processing condition used in color processing to be performed on an image shot by the digital camera 1. A correcting unit 204 corrects the color data on the first image using the color data on the second image. Target color data corresponding to the corrected color data on the first image is input. A parameter optimizing unit 205 generates a color processing condition for converting the corrected color data on the first image into the target color data.
    • 在相同的照度下由数码相机1拍摄彩色图和照明不均匀性校正图,并且通过拍摄通过拍摄照明不均匀校正图获得的第二图像上的颜色图和颜色数据获得的第一图像上的颜色数据是 输入到颜色处理参数编辑装置2,用于生成在由数字照相机1拍摄的图像上执行的颜色处理中使用的颜色处理条件。校正单元204使用第一图像上的颜色数据来校正第一图像上的颜色数据 第二张图片。 输入与第一图像上的校正颜色数据相对应的目标颜色数据。 参数优化单元205生成用于将第一图像上的校正颜色数据转换为目标颜色数据的颜色处理条件。
    • 2. 发明申请
    • Battery Condition Monitor
    • 电池状态监视器
    • US20080183408A1
    • 2008-07-31
    • US11885184
    • 2006-03-03
    • Takahiro MatsuuraYoichiro AnzaiShuji Mayama
    • Takahiro MatsuuraYoichiro AnzaiShuji Mayama
    • G01R31/36G06F19/00
    • G01R31/3651G01R31/362G01R31/3624G01R31/3648
    • An object of the present invention is to provide a battery condition monitor that is capable of reducing labor and equipment costs for parameter setting for evaluation of the battery's condition and capable of readily responding to variations due to individual differences among the same model of vehicles. The battery condition monitor according to the present invention measures a lower limit voltage value for the time when a load during engine startup is substantially connected to a brand-new battery, as an initial reference lower limit voltage value VLIF; and derives a reference discharge characteristic of the brand-new battery with respect to the vehicle-unique load during engine startup, using the initial reference lower limit voltage value VLIF, an initial reference no-load voltage value VOIF which is a no-load voltage of that battery, and information about the rate of change in the internal resistance with respect to change in the no-load voltage of the battery, the information being previously stored in a storage unit, thereby to evaluate the condition of the battery based on the reference discharge characteristic.
    • 本发明的目的是提供一种电池状态监视器,其能够降低用于评估电池状态的参数设置的人力和设备成本,并且能够容易地响应由于相同型号的车辆之间的个体差异而引起的变化。 根据本发明的电池状态监视器测量在发动机启动期间的负载基本上连接到全新电池的时间的下限电压值作为初始参考下限电压值V LIF ; 并且使用初始参考下限电压值V LIF ,使用初始参考空载电压值,在发动机启动期间,相对于车辆唯一负载导出全新电池的参考放电特性 作为该电池的空载电压的V O O O 以及关于电池的空载电压变化的内部电阻的变化率的信息,预先存储的信息 在存储单元中,从而基于参考放电特性来评估电池的状态。
    • 3. 发明申请
    • Spark plug
    • 火花塞
    • US20070277764A1
    • 2007-12-06
    • US11785840
    • 2007-04-20
    • Hirohito ItoTakahiro Matsuura
    • Hirohito ItoTakahiro Matsuura
    • H01T13/02
    • H01T13/39
    • A spark plug having a protrusion amount t of not smaller than 0.3 mm and satisfying a relation θ1+θ2≦93° in which θ1 is an included angle between virtual lines s1 and s2, and θ2 is an included angle between virtual lines s3 and s4 when the virtual line s1 is taken as a line parallel to a direction of an axis and including the other end side edge on a leading end surface of a first precious metal tip, the virtual line s2 is taken as a line connecting the other end side edge and a point of intersection between an inner circumferential surface of a ground electrode body and the other end surface of the ground electrode body, the virtual line s3 is taken as a line parallel to the direction of the axis and including the other end side edge on a leading end surface of a center electrode, and the virtual line s4 is taken as a line including the other end side edge and tangent to an insulator.
    • 具有不小于0.3mm的突出量t并且满足θ1+θ2<= 93°的火花塞,其中θ1是虚拟线s 1和s 2之间的夹角,θ2是 虚拟线s 3和s 4当假想线s 1被取为平行于轴线方向的线并且包括在第一贵金属尖端的前端表面上的另一端侧边缘时,假想线s 2为 作为连接另一端侧边缘的线和接地电极体的内周面与接地电极体的另一端面之间的交点,假想线s 3被取为平行于方向 并且包括在中心电极的前端表面上的另一端侧边缘,并且假想线s 4被视为包括另一端侧边缘并与绝缘体相切的线。
    • 4. 发明申请
    • IMAGE PROCESSING METHOD AND IMAGE PROCESSING APPARATUS, AND PROGRAM THEREOF
    • 图像处理方法和图像处理装置及其程序
    • US20070058223A1
    • 2007-03-15
    • US11469193
    • 2006-08-31
    • TAKAHIRO MATSUURA
    • TAKAHIRO MATSUURA
    • G03F3/08
    • H04N1/401H04N1/6033
    • A color chart and an illumination unevenness correcting chart are shot by a digital camera 1 under the same illumination, and color data on a first image obtained by shooting the color chart and color data on a second image obtained by shooting the illumination unevenness correcting chart are input to a color processing parameter editing apparatus 2 for generating a color processing condition used in color processing to be performed on an image shot by the digital camera 1. A correcting unit 204 corrects the color data on the first image using the color data on the second image. Target color data corresponding to the corrected color data on the first image is input. A parameter optimizing unit 205 generates a color processing condition for converting the corrected color data on the first image into the target color data.
    • 在相同的照度下由数码相机1拍摄彩色图和照明不均匀性校正图,并且通过拍摄通过拍摄照明不均匀校正图获得的第二图像上的颜色图和颜色数据获得的第一图像上的颜色数据是 输入到颜色处理参数编辑装置2,用于生成在由数字照相机1拍摄的图像上执行的颜色处理中使用的颜色处理条件。 校正单元204使用第二图像上的颜色数据校正第一图像上的颜色数据。 输入与第一图像上的校正颜色数据相对应的目标颜色数据。 参数优化单元205生成用于将第一图像上的校正颜色数据转换为目标颜色数据的颜色处理条件。
    • 7. 发明授权
    • Method of preparing silicon nitride porous body
    • 氮化硅多孔体的制​​备方法
    • US5846460A
    • 1998-12-08
    • US686818
    • 1996-07-26
    • Takahiro MatsuuraChihiro KawaiAkira Yamakawa
    • Takahiro MatsuuraChihiro KawaiAkira Yamakawa
    • B01D39/20B01D71/02B01J27/24B01J32/00B01J35/04C04B35/584C04B38/00C04B38/04
    • B01D67/0041B01D39/2079B01D71/02B01J27/24C04B38/00B01D2323/10C04B2111/00793C04B2111/0081
    • A silicon nitride ceramic porous body having excellent acid and alkali resistance, mechanical strength, and durability can be employed as a filter or a catalytic carrier. The silicon nitride porous body contains a plurality of silicon nitride crystal grains with pores formed in grain boundary parts thereof, or includes a body part and a pore part wherein the body part is formed by a plurality of silicon nitride crystal grains and the pore part forms a three-dimensional network structure. The body part is formed by at least 90 vol. % of silicon nitride crystal grains, which are directly bonded to each other. In order to prepare the finished ceramic porous body, a porous body compact which is mainly composed of silicon nitride, is brought into contact with an acid and/or an alkali so that a component other than silicon nitride is partially or entirely dissolved and removed from the compact. The compact is prepared from a mixed powder of silicon nitride powder and at least one of a rare earth compound powder, a transition metal compound powder, and a bismuth compound, which is heat treated in the temperature range from 1600.degree. C. to 2100.degree. C.
    • 可以使用具有优异的耐酸碱性,机械强度和耐久性的氮化硅陶瓷多孔体作为过滤器或催化载体。 氮化硅多孔体含有在其晶界部分形成有孔的多个氮化硅晶粒,或包括主体部分和孔部分,其中主体部分由多个氮化硅晶粒形成并且孔部分形成 一个三维网络结构。 身体部位形成至少90体积。 %的氮化硅晶粒直接接合。 为了制备成品陶瓷多孔体,将主要由氮化硅组成的多孔体压块与酸和/或碱接触,使得除了氮化硅以外的成分部分或全部溶解并从其中去除 紧凑型。 该压块由氮化硅粉末和稀土化合物粉末,过渡金属化合物粉末和铋化合物中的至少一种的混合粉末制备,其在1600℃至2100℃的温度范围内进行热处理 C。
    • 8. 发明授权
    • Method for preparing an aluminum nitride sintered body
    • 氮化铝烧结体的制备方法
    • US5449648A
    • 1995-09-12
    • US236707
    • 1994-05-02
    • Seiji NakahataTakahiro MatsuuraKouichi SogabeAkira Yamakawa
    • Seiji NakahataTakahiro MatsuuraKouichi SogabeAkira Yamakawa
    • C04B35/581C04B35/626H01L21/48H01L23/15H05K1/03C04B35/58
    • C04B35/581H01L21/4807
    • An aluminum nitride sintered body has a high breakdown voltage for serving as a substrate material particularly suited to highly integrated circuits. The aluminum nitride sintered body contains titanium, which is included as a solid solute in the aluminum nitride crystal lattice in a weight ratio of at least 50 ppm and not more than 1000 ppm. The unpaired electron concentration in the sintered body as determined from an absorption spectrum of electron spin resonance is at least 1.times.10.sup.13 /g. At least 0.1 percent by weight and not more than 5.0 percent by weight, in terms of TiO.sub.2, of an oxy-nitride of titanium and aluminum exists in the aluminum nitride sintered body. The aluminum nitride sintered body has a breakdown voltage of 20 kV/mm. The sintered body is obtained by nitriding aluminum nitride raw material powder in a nitrogen atmosphere at a temperature of 800 to 1400.degree. C., adding an oxy-nitride of titanium thereto with a sintering assistant, and sintering the mixture.
    • 氮化铝烧结体具有高的击穿电压,用作特别适用于高集成电路的衬底材料。 氮化铝烧结体含有钛,其以氮化铝晶格内的固体溶质以至少50ppm至不大于1000ppm的重量比包含在其中。 由电子自旋共振的吸收光谱确定的烧结体中不成对的电子浓度为至少1×10 13 / g。 在氮化铝烧结体中存在钛和铝的氮氧化物的至少0.1重量%且不超过5.0重量%(以TiO 2计)。 氮化铝烧结体的击穿电压为20kV / mm。 烧结体是通过在氮气气氛中在800〜1400℃的温度下氮化氮化铝原料粉末,用烧结助剂向其中加入钛的氮氧化物,烧结该混合物而得到的。
    • 9. 发明授权
    • Battery condition monitor
    • 电池状态监视器
    • US07676334B2
    • 2010-03-09
    • US11885184
    • 2006-03-03
    • Takahiro MatsuuraYoichiro AnzaiShuji Mayama
    • Takahiro MatsuuraYoichiro AnzaiShuji Mayama
    • G01R31/36G06F17/40
    • G01R31/3651G01R31/362G01R31/3624G01R31/3648
    • An object of the present invention is to provide a battery condition monitor that is capable of reducing labor and equipment costs for parameter setting for evaluation of the battery's condition and capable of readily responding to variations due to individual differences among the same model of vehicles. The battery condition monitor according to the present invention measures a lower limit voltage value for the time when a load during engine startup is substantially connected to a brand-new battery, as an initial reference lower limit voltage value VLIF; and derives a reference discharge characteristic of the brand-new battery with respect to the vehicle-unique load during engine startup, using the initial reference lower limit voltage value VLIF, an initial reference no-load voltage value VOIF which is a no-load voltage of that battery, and information about the rate of change in the internal resistance with respect to change in the no-load voltage of the battery, the information being previously stored in a storage unit, thereby to evaluate the condition of the battery based on the reference discharge characteristic.
    • 本发明的目的是提供一种电池状态监视器,其能够降低用于评估电池状态的参数设置的人力和设备成本,并且能够容易地响应由于相同型号的车辆之间的个体差异而引起的变化。 根据本发明的电池状态监视器将发动机启动时的负载基本上连接到全新电池的时间的下限电压值作为初始参考下限电压值VLIF; 并使用初始参考下限电压值VLIF,作为空载电压的初始参考空载电压值VOIF,在发动机起动期间,根据车辆唯一负载得出全新电池的参考放电特性 ,以及关于电池的空载电压变化的内部电阻变化率的信息,该信息预先存储在存储单元中,从而基于该电池的状态来评估电池的状态 参考放电特性。
    • 10. 发明申请
    • Image processing method and apparatus
    • 图像处理方法和装置
    • US20060093211A1
    • 2006-05-04
    • US11259052
    • 2005-10-27
    • Takahiro Matsuura
    • Takahiro Matsuura
    • G06K9/00
    • H04N1/6033H04N1/6058
    • An image obtained by being imaged by an imaging device and converted to color data using a color processing parameter is input and target color data corresponding to converted color data is input. Next, the color processing parameter is optimized based upon the color difference between the converted color data and target color data. When the optimization processing is executed, first optimization processing is executed for optimizing the color processing parameter using the first target color data being within a prescribed color gamut, and the converted color data corresponding to the target color data, and second optimization processing is executed for optimizing the color processing parameter using second target color data, which includes the target color data being out of the prescribed color gamut and is less than a prescribed threshold value, and the converted color data corresponding to the second target color data.
    • 输入通过成像装置成像并使用颜色处理参数转换为彩色数据而获得的图像,并输入与转换后的颜色数据对应的目标色彩数据。 接下来,基于转换的颜色数据和目标颜色数据之间的色差优化颜色处理参数。 当执行优化处理时,执行使用在规定色域内的第一目标色彩数据优化颜色处理参数的第一优化处理,并且对应于目标色彩数据的转换色彩数据进行第二优化处理,并执行第二优化处理 使用包括目标颜色数据在规定色域之外并且小于规定阈值的第二目标色彩数据来优化色彩处理参数,以及与第二目标色彩数据对应的转换色彩数据。