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    • 3. 发明申请
    • SOY MILK CONTAINING FIBROUS MATERIAL AND TOFU-LIKE FOOD, PROCESSES FOR PRODUCTION OF THOSE PRODUCTS, AND DEHULLED SOYBEAN POWDER MATERIAL
    • 含有纤维素材和类似食物的大豆,生产这些产品的方法,以及脱脂大豆粉末材料
    • US20120231119A1
    • 2012-09-13
    • US13510805
    • 2010-12-09
    • Masaru MatsuuraMasaki SatoNobuhiro HirasawaSachiko TadokoroKenji Koga
    • Masaru MatsuuraMasaki SatoNobuhiro HirasawaSachiko TadokoroKenji Koga
    • A23C11/10A23L1/308A23L1/20
    • A23C11/103A23C20/025A23L11/07
    • Provided are: tofu-like food and soy milk containing fibrous material, each of which has good texture and flavor and enables simultaneous intake of almost all of nutritional components in soybeans, such as proteins, lipids, glucides, fibrous material, minerals, vitamin components, and isoflavone compounds. Also provided is a process for producing soy milk containing fibrous material, which comprises the steps of: (A) dissolving and dispersing dehulled soybean powdery material having a nitrogen solubility index of 75 to 90, a lipoxygenase value of 30 to 120, an n-hexanal content of 0.5 ppm to 2 ppm, and a peroxide value of 0.2 meq/kg to 3.0 meq/kg in water to obtain dispersion; (B) subjecting the dispersion to heat treatment at 120° C. to 160° C. for 1 to 600 seconds; and (C) after the step (B), cooling the dispersion to 100° C. or lower and subjecting the resultant dispersion to emulsification and dispersion treatment under a pressure of 25 MPa to 200 MPa to produce soy milk containing fibrous material.
    • 提供:含有纤维素的豆腐样食品和豆浆,其中每种都具有良好的质地和风味,并能同时摄取大豆中几乎所有的营养成分,例如蛋白质,脂质,糖,纤维材料,矿物质,维生素成分 ,和异黄酮化合物。 还提供了一种生产含有纤维材料的豆浆的方法,其包括以下步骤:(A)将氮溶解度指数为75至90,脂氧合酶值为30至120的脱壳大豆粉末材料溶解并分散, 己烷含量为0.5ppm至2ppm,过氧化值为0.2meq / kg至3.0meq / kg,以获得分散体; (B)使分散体在120℃至160℃下热处理1至600秒; 和(C)步骤(B)之后,将分散体冷却至100℃以下,在25MPa〜200MPa的压力下进行乳化分散处理,得到含有纤维材料的豆浆。
    • 4. 发明申请
    • WAVELENGTH MULTIPLEXING OPTICAL COMMUNICATION DEVICE AND OPTICAL DISPERSION COMPENSATION METHOD
    • 波长多路复用光通信设备和光分散补偿方法
    • US20120099867A1
    • 2012-04-26
    • US13254134
    • 2010-03-01
    • Atsuya HottaMasaki Sato
    • Atsuya HottaMasaki Sato
    • H04J14/02
    • H04J14/0279H04B10/2513H04B2210/258
    • A wavelength multiplexing optical communication device having an optical dispersion-compensating function compensating for waveform variation of an optical signal due to optical dispersion of a transmission line determines optimum dispersion-compensating values causing a minimum error rate with respect to pre-installed wavelength channels, produces a dispersion map of the transmission line based on optimum dispersion-compensating values, predicts an initial value of a dispersion-compensating value per a newly added wavelength channel with reference to the dispersion map, and starts scanning at the initial value so as to determine an optimum dispersion-compensating value of the newly added wavelength channel, thus updating the dispersion map by adding the optimum dispersion-compensating value of the newly added wavelength channel. Thus, it is possible to set an optimum dispersion-compensating value per each wavelength channel with a high precision, thus shortening the setting time.
    • 具有补偿由于传输线的光学色散引起的光信号的波形变化的光学色散补偿功能的波分复用光通信装置确定了相对于预先安装的波长信道产生最小误差率的最佳色散补偿值,产生 基于最佳色散补偿值的传输线的色散映射,参照分散图预测每一个新加入的波长信道的色散补偿值的初始值,并以初始值开始扫描,以便确定 新添加的波长信道的最佳色散补偿值,通过添加新添加的波长信道的最佳色散补偿值来更新色散图。 因此,可以高精度地设定每个波长通道的最佳色散补偿值,从而缩短凝固时间。
    • 5. 发明授权
    • Surroundings monitoring apparatus and surroundings monitoring method for reducing distortion caused by camera position displacement
    • 环境监测装置及周边环境监测方法,用于减少摄像机位置位移引起的失真
    • US08139114B2
    • 2012-03-20
    • US11541684
    • 2006-10-03
    • Kunio NoboriMasaki Sato
    • Kunio NoboriMasaki Sato
    • H04N7/18
    • G07C5/0891B60R1/00B60R2300/102B60R2300/105B60R2300/301B60R2300/305B60R2300/402B60R2300/607B60R2300/806H04N7/181
    • A surrounding monitoring apparatus reduces distortion caused by camera position displacement. A position displacement information obtainment unit obtains position displacement information and outputs it as camera position displacement information, a moving object state detection unit detects vehicle information and outputs it as a moving object state, a coordinate transformation parameter selection unit selects a coordinate transformation parameter according to the camera position displacement information, an image synthesis parameter selection unit selects a reference image synthesis parameter and a graphics parameter according to the moving object state, a coordinate transformation unit performs coordinate transformation on image coordinates of a captured image which are included in the reference image synthesis parameter using the coordinate transformation parameter and outputs the image coordinates as a transformed image synthesis parameter, and an image synthesis unit generates and outputs a synthetic image according to the transformed image synthesis parameter.
    • 周围的监视装置减少由相机位置偏移引起的失真。 位置信息获取单元获取位置信息并将其作为相机位置位移信息输出,运动对象状态检测单元检测车辆信息并将其输出为运动对象状态,坐标变换参数选择单元根据 相机位置位移信息,图像合成参数选择单元根据移动对象状态来选择参考图像合成参数和图形参数,坐标变换单元对包括在参考图像中的拍摄图像的图像坐标进行坐标变换 合成参数,并输出图像坐标作为变换图像合成参数,图像合成单元根据变换图像合成参数生成并输出合成图像。
    • 6. 发明授权
    • Abnormality detecting apparatus
    • 异常检测装置
    • US08081212B2
    • 2011-12-20
    • US11914817
    • 2006-05-19
    • Kenji YoshiokaMasaki Sato
    • Kenji YoshiokaMasaki Sato
    • H04N7/18
    • H04N17/00H04N5/08
    • An abnormality detecting apparatus comprises a synchronous detecting circuit for detecting a synchronous signal from a video signal outputted from a camera unit, and an abnormality detecting circuit for judging whether or not a first direct current signal level obtained from an input path of said video signal is greater than a predetermined first threshold value, whether or not a second direct current signal level obtained from said input path of said video signal is smaller than a predetermined second threshold value, and whether or not said synchronous signal is detected by said synchronous detecting circuit, and determining that said input path of said video signal is in one of a normal state, an open state, a power connected state, and a ground connected state based on the result of the judgments.
    • 一种异常检测装置,包括:用于从摄像机单元输出的视频信号中检测同步信号的同步检测电路;以及异常检测电路,用于判断从所述视频信号的输入路径获得的第一直流信号电平是否为 大于预定的第一阈值,从所述视频信号的所述输入路径获得的第二直流信号电平是否小于预定的第二阈值,以及所述同步检测电路是否检测到所述同步信号, 以及基于判断结果确定所述视频信号的所述输入路径处于正常状态,打开状态,电源连接状态和接地状态之一。
    • 7. 发明申请
    • Apparatus and Method for Detecting Performer's Motion to Interactively Control Performance of Music or the Like
    • 用于检测执行者运动以交互式控制音乐等的性能的装置和方法
    • US20100263518A1
    • 2010-10-21
    • US12780745
    • 2010-05-14
    • Yoshiki NISHITANISatoshi USAMasaki SatoEiko Kobayashi
    • Yoshiki NISHITANISatoshi USAMasaki SatoEiko Kobayashi
    • G10H7/00
    • A63B71/0686A63B69/0028A63B2071/0625A63B2071/0647A63B2220/30A63B2220/34A63B2220/40A63B2220/803A63B2220/805A63B2225/50A63B2230/00A63B2230/065A63B2230/62G10H1/00G10H2220/135G10H2220/206G10H2220/371G10H2220/395G10H2240/211
    • Performance interface system includes a motion detector provided for movement with a performer, and a control system for receiving detection data transmitted from the motion detector and controlling a performance of a tone in response to the received detection data. State of a performer's motion is detected via a sensor of the motion detector, and detection data representative of the detected motion state is transmitted to the control system. The control system receives the detection data from the motion detector, analyzes the performer's motion on the basis of the detection data, and then controls a tone performance in accordance with the analyzed data. With this arrangement, the performer can readily take part in the tone performance in the control system. For example, as the performer moves his or her hand, leg or trunk while listening to a manual or automatic performance of a music piece being carried out by a performance apparatus of the control system, the motion detector detects the performer's motion and transmits corresponding detection data to the control system, which in turn variably controls a predetermined one of tonal factors in the music piece performance. This arrangement can readily provide interactive performance control and thereby allows an inexperienced or unskilled performer to take part in a performance with enjoyment.
    • 性能接口系统包括提供用于与执行者一起移动的运动检测器,以及用于接收从运动检测器发送的检测数据和响应于接收到的检测数据来控制音调的性能的控制系统。 通过运动检测器的传感器检测执行者运动的状态,并将表示检测到的运动状态的检测数据发送到控制系统。 控制系统从运动检测器接收检测数据,根据检测数据对执行者的运动进行分析,然后根据分析数据控制色调性能。 通过这种安排,表演者可以容易地参与控制系统中的音色表现。 例如,当听众手动或自动执行由控制系统的演奏装置执行的乐曲时,表演者移动他或她的手,腿或躯干,运动检测器检测演员的运动并发送相应的检测 数据到控制系统,控制系统又可变地控制音乐作品中的预定音调因素。 这种布置可以容易地提供交互式的性能控制,从而允许没有经验的或不熟练的表演者享受表演。