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    • 61. 发明专利
    • Method for reading bar code
    • 阅读条码的方法
    • JP2010097569A
    • 2010-04-30
    • JP2008270195
    • 2008-10-20
    • Tokyo Metropolitan Univ公立大学法人首都大学東京
    • WAKAUMI HIROO
    • G06K7/10
    • PROBLEM TO BE SOLVED: To read at high speed a ternary bar code for recording a large amount of information. SOLUTION: A method for reading a bar code including an array of first bars and spaces different in reflectance to reading light executes the steps of detecting reflected light from a reading light scan of a bar code to generate a detection signal, generating an envelope detection signal of the detection signal with a time constant τ of not more than T/60, where T is the time required to scan the single bar code, attenuating the envelope detection signal at a predetermined rate to generate a reference signal, and generating a first bar signal corresponding to the first bars from an average signal resulting from the subtraction of the reference signal from the detection signal. The method may further execute the steps of generating a differential signal of the average signal, generating a delayed mixed signal corresponding to first and second bars, and generating a second bar signal corresponding to the second bars from the first bar and delayed mixed signals. COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:高速读取用于记录大量信息的三元条形码。 解决方案:一种用于读取包括第一条和阵列的反射率与读取光不同的阵列的条形码的方法执行检测来自条形码的读取光扫描的反射光以产生检测信号的步骤,产生检测信号 检测信号的包络检测信号具有不大于T / 60的时间常数τ,其中T是扫描单个条形码所需的时间,以预定速率衰减包络检测信号以产生参考信号,并产生 从根据检测信号减去参考信号而得到的平均信号对应于第一条的第一条信号。 该方法还可以执行以下步骤:产生平均信号的差分信号,产生对应于第一和第二条的延迟的混合信号,以及从第一条和延迟的混合信号产生对应于第二条的第二条信号。 版权所有(C)2010,JPO&INPIT
    • 62. 发明专利
    • Environmentally friendly vehicle and method of controlling driving force thereof
    • 环境友好型车辆及其驱动力控制方法
    • JP2010051136A
    • 2010-03-04
    • JP2008214794
    • 2008-08-25
    • Tokyo Metropolitan Univ公立大学法人首都大学東京
    • MUTO NOBUYOSHI
    • B60L9/18B60K17/356
    • PROBLEM TO BE SOLVED: To achieve stable running and to improve safety without causing wheel spin and wheel lock to occur even with the change of road surface conditions by controlling driving torque and braking torque of each of a front wheel driving system and a rear wheel driving system independently by a front wheel driving system torque control mechanism and a rear wheel driving system torque control mechanism and by performing slip control of front wheels and rear wheels with coordinated control between the front wheel driving system torque control mechanism and the rear wheel driving system torque control mechanism so as to control the driving torque and braking torque of the rear wheel driving system based on a friction coefficient on the road surface estimated by the front wheel driving system torque control mechanism.
      SOLUTION: The environmentally friendly vehicle of a front- and rear-wheel independent driving type includes a front- and rear-wheel coordinated control means, which performs slip control of the front wheels and rear wheels with coordinated control between the front wheel driving system torque control mechanism and the rear wheel driving system torque control mechanism.
      COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:即使通过控制前轮驱动系统和前轮驱动系统中的每一个的驱动转矩和制动转矩,通过路面状况的变化,实现稳定的行驶和提高安全性,而不会引起车轮旋转和车轮锁定 后轮驱动系统由前轮驱动系统转矩控制机构和后轮驱动系统扭矩控制机构独立地进行,并且通过前轮驱动系统转矩控制机构与后轮之间的协调控制执行前轮和后轮的滑动控制 驱动系统转矩控制机构,以基于由前轮驱动系统转矩控制机构估计的路面上的摩擦系数来控制后轮驱动系统的驱动转矩和制动转矩。 解决方案:前轮和后轮独立驾驶型的环保车辆包括前轮和后轮协调控制装置,其执行前轮和后轮的滑动控制,前后轮 驱动系统扭矩控制机构和后轮驱动系统扭矩控制机构。 版权所有(C)2010,JPO&INPIT
    • 63. 发明专利
    • Method for manufacturing positive electrode active material for lithium secondary battery, positive electrode active material, and lithium secondary battery
    • 用于锂二次电池,正极电极活性材料和锂二次电池的正极活性物质的制造方法
    • JP2010044890A
    • 2010-02-25
    • JP2008206552
    • 2008-08-11
    • Furukawa Battery Co Ltd:TheSumitomo Osaka Cement Co LtdTokyo Metropolitan Univ住友大阪セメント株式会社公立大学法人首都大学東京古河電池株式会社
    • ABE HIDETOSHISUZUKI TOMOMUNEKANEMURA KIYOSHISAITO MITSUMASA
    • H01M4/58C01B25/45H01M4/36
    • C01B25/45H01M4/02H01M4/364H01M4/5825H01M4/625H01M10/052H01M2004/021
    • PROBLEM TO BE SOLVED: To provide a method for manufacturing a positive electrode active material bringing about a lithium secondary battery improved in charging/discharging characteristics and having long-term stability by using, as a positive electrode, electrode active material powder which can be simply obtained by synthesizing and manufactured with a large particle diameter compared with that of the conventional positive electrode powder, while eliminating a process of calcinating a precursor obtained through reaction by a liquid phase process or a solid phase process with respect to various kinds of salts which are starting raw materials necessary for manufacturing the positive electrode active material formed of a positive electrode material containing bivalent metals of different kinds as components.
      SOLUTION: The positive electrode active material is manufactured by mixing the powder of a plurality kinds of olivine type M lithium phosphates having different kinds of M in the olivine type M lithium phosphate (M is a bivalent metal), carrying out solution treatment to the mixed powder by sintering in an inert atmosphere or in a vacuum, composing the positive electrode material composed of a single compound including different kinds of the bivalent metals as components, and producing powder with a mean particle diameter of 1 micron or larger by crushing.
      COPYRIGHT: (C)2010,JPO&INPIT
    • 解决的问题:为了提供一种制造具有提高充放电特性并且具有长期稳定性的锂二次电池的正极活性物质的方法,其使用作为正极的电极活性物质粉末 可以简单地通过与常规的正极粉末相比大粒径的合成和制造而获得,同时消除通过液相法或固相法对通过液相法或固相法获得的前体进行煅烧的方法 作为制造由含有不同种类的二价金属的正极材料形成的正极活性物质所需的原料的盐作为组分。 解决方案:正极活性物质通过在橄榄石型M型磷酸锂(M为二价金属)中混合具有不同种类的M的多种橄榄石型M型磷酸锂的粉末,进行固溶处理 通过在惰性气氛或真空中烧结而形成混合粉末,构成由包含不同种类的二价金属作为组分的单一化合物构成的正极材料,并通过粉碎产生平均粒径为1微米或更大的粉末 。 版权所有(C)2010,JPO&INPIT
    • 64. 发明专利
    • Screening system
    • 筛选系统
    • JP2009293928A
    • 2009-12-17
    • JP2008144561
    • 2008-06-02
    • Tokyo Metropolitan Univ公立大学法人首都大学東京
    • AIGAKI TOSHIROTSUDA MANABUSATO YUKIKO
    • G01N33/50G01N33/15
    • PROBLEM TO BE SOLVED: To simplify screening operation, to improve throughput of the screening operation, and to improve the accuracy of evaluation of an inspection object.
      SOLUTION: This system is provided with a lift-putting a case, composed of a transparent material, formed with a plurality of cells being adjacent with each other for installing inspection objects at a predetermined inspection position; a photographic device photographing the case, in a state the inspection objects are installed in each cell and an analysis processing means analyzing the photographed image of the case at the inspection position. Since the case is put at a predetermined inspection position, in a state where the inspection objects are installed in each cell, and the case is photographed and the photographed image of the case is analyzed at the inspection position, a variety of inspection objects can be evaluated that simplifies the screening operation of compounds; and the throughput of the screening operation is improved, and the evaluation precision of the inspection object is improved.
      COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:为了简化筛选操作,提高筛选操作的产量,并提高检查对象的评价准确性。 解决方案:该系统设有升降机,由透明材料组成,形成有彼此相邻的多个单元,用于在预定检查位置安装检查对象; 在每个单元中安装检查对象的状态下拍摄该情况的摄影装置,以及分析处理装置,在检查位置分析该案件的拍摄图像。 由于把这种情况放在预定的检查位置,所以在检查对象被安装在每个单元中的状态下,并且在被检查的情况下被检测,并且在检查位置分析了该案件的拍摄图像,因此可以将各种检查对象 评估,简化化合物的筛选操作; 提高了筛选操作的吞吐量,提高了检查对象的评价精度。 版权所有(C)2010,JPO&INPIT
    • 65. 发明专利
    • Heavy metal removing apparatus
    • 重金属去除装置
    • JP2009268690A
    • 2009-11-19
    • JP2008121502
    • 2008-05-07
    • Tokyo Metropolitan Univ公立大学法人首都大学東京
    • ITO DAISUKETAKEUCHI MICHIHIRO
    • A61M1/36B01J20/26B03C1/02
    • PROBLEM TO BE SOLVED: To provide a device for removing heavy metal, especially mercury, in a body in a short period of time. SOLUTION: This problem is solved by the application of magnetic engineering using magnetic force. That is to say, the blood is extracorporeally circulated and separated into hemocyte and plasma, heavy metal contained in the plasma is adsorbed by micro-size magnetic beads having superior selective adsorption characteristic and is separated and recovered from the plasma along with the beads by the magnetic separation so as to remove the heavy metal, especially mercury, in the plasma. COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提供在短时间内在身体中去除重金属,特别是汞的装置。

      解决方案:这个问题是通过使用磁力的磁性工程的应用来解决的。 也就是说,血液被体外循环并分离成血细胞和血浆,包含在血浆中的重金属被具有优异的选择性吸附特性的微尺寸磁珠吸附,并与珠一起从血浆中分离和回收 磁分离以除去等离子体中的重金属,特别是汞。 版权所有(C)2010,JPO&INPIT

    • 66. 发明专利
    • Resonance type dc chopper circuit
    • 谐振型DC CHOPPER电路
    • JP2009254062A
    • 2009-10-29
    • JP2008096813
    • 2008-04-03
    • Tokyo Metropolitan Univ公立大学法人首都大学東京
    • OKUHIRA SHIZUMASA
    • H02M3/155
    • Y02B70/1491
    • PROBLEM TO BE SOLVED: To solve the problem with a resonance type DC chopper circuit which controls the output by switching when the current or voltage is zero, specifically the problem that since the moment in time when the current or voltage becomes zero depends on a resonance element, switching period must be increased for controlling the output to be decreased, but since the switching frequency decreases, a large resonance coil is required or noise is generated.
      SOLUTION: A resonance capacitor consists of two resonance capacitors and a switching element 11 and a diode are connected in parallel with one resonance capacitor 10. Two kinds of resonance circuit are obtained depending on the fact that the switching element 11 is on or off. A resonance period when the switching element 11 is on can be varied by turning the switching element 11 off at an appropriate moment in time. Consequently, the output by a switching element 2 can be controlled without changing the switching period.
      COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题为了解决当电流或电压为零时通过切换来控制输出的谐振型DC斩波电路的问题,具体地说,由于电流或电压变为零的时刻,因为 在谐振元件上,必须增加开关周期以控制输出降低,但是由于开关频率降低,所以需要大的谐振线圈或产生噪声。 解决方案:谐振电容器由两个谐振电容器组成,开关元件11和二极管与一个谐振电容器10并联连接。根据开关元件11导通的事实获得两种谐振电路, 关闭 可以通过在适当的时刻关闭开关元件11来改变开关元件11导通的共振周期。 因此,可以在不改变开关周期的情况下控制开关元件2的输出。 版权所有(C)2010,JPO&INPIT
    • 68. 发明专利
    • Tether measuring device, and tether measuring method using same
    • TETHER测量装置,以及使用该方法的TETHER测量方法
    • JP2009204365A
    • 2009-09-10
    • JP2008045187
    • 2008-02-26
    • Tama Tlo LtdTokyo Metropolitan Univタマティーエルオー株式会社公立大学法人首都大学東京
    • FUJII HIROTSUNEKUSAYA HIROOWATABE TAKEO
    • G01L5/04
    • PROBLEM TO BE SOLVED: To provide a tether measuring device capable of measuring the tension and the rate of stretch of a tether, even in a case where it is difficult to bring a sensor unit into contact with the tether because of the materials or the like of the tether, and so on.
      SOLUTION: The tether measuring device for measuring the tension and/or the rate of stretch of the tether 10 includes a light source 12a, a light receiving part 12b, and a signal processing part 13. The light source 12a emits sheetlike light L, and is arranged so that the tether 10 passes through an area to which the sheetlike light L is emitted; the receiving part 12b receives the sheetlike light L and outputs a received light signal; and the processing part 13 gets an input of the received light signal, and from the received light signal calculates the tension and/or the rate of stretch of the tether 10.
      COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:即使在由于材料难以使传感器单元与系绳接触的情况下,提供能够测量系绳张力和拉伸速率的系绳测量装置 或类似物,等等。 解决方案:用于测量系绳10的张力和/或拉伸速率的系绳测量装置包括光源12a,光接收部分12b和信号处理部分13.光源12a发射片状光 L,并且被布置成使得系绳10穿过片状光L被发射的区域; 接收部分12b接收片状光L并输出接收的光信号; 并且处理部分13获得接收的光信号的输入,并且从接收的光信号计算系绳10的张力和/或拉伸速率。版权所有(C)2009,JPO&INPIT
    • 69. 发明专利
    • Method and apparatus for detecting state of circuit under test
    • 检测电路状态的方法和装置
    • JP2009156675A
    • 2009-07-16
    • JP2007333981
    • 2007-12-26
    • Tama Tlo LtdTokyo Metropolitan Univタマティーエルオー株式会社公立大学法人首都大学東京
    • MIURA YUKIYA
    • G01R31/26
    • PROBLEM TO BE SOLVED: To provide a method and an apparatus for detecting a state of a circuit under test, capable of simply modeling the state of the circuit under test and easily evaluating the state of the circuit under test.
      SOLUTION: The apparatus comprises: a power supply circuit 3 for supplying a variable voltage VDD(t) which varies temporally, to the circuit under test 2 which has a plurality of CMOS transistors (semiconductor devices); an input signal supplying section 5 for supplying an input voltage Vi(t) which is lower than the variable voltage VDD(t) and varies temporally, to an input terminal T1 of the circuit under test 2 in a period starting before or after supplying the variable voltage VDD(t); and a control section 7 for collecting temporally varying operation states of one or more object transistors among the plurality of transistors, and detecting at least a portion of circuit information including the object transistor from the collected operation states.
      COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:提供一种用于检测被测电路的状态的方法和装置,其能够简单地模拟被测电路的状态并容易地评估被测电路的状态。 该装置包括:电源电路3,用于将时变的可变电压VDD(t)提供给具有多个CMOS晶体管(半导体器件)的被测电路2; 一个输入信号提供部分5,用于在供给时间之前或之后的期间内向被测电路2的输入端T1提供低于可变电压VDD(t)的输入电压Vi(t)并且瞬时变化 可变电压VDD(t); 以及控制部分7,用于收集多个晶体管中的一个或多个对象晶体管的时间上不同的操作状态,并从收集的操作状态检测包括对象晶体管的电路信息的至少一部分。 版权所有(C)2009,JPO&INPIT
    • 70. 发明专利
    • Standing action support device, system, program and method
    • 支持行动支持设备,系统,程序和方法
    • JP2009142517A
    • 2009-07-02
    • JP2007324224
    • 2007-12-17
    • Tokyo Metropolitan Univ公立大学法人首都大学東京
    • NITTA OSAMUYAMAGUCHI TORUFUJIMOTO YASUNARIKARIBE DAISUKE
    • A61G5/00
    • PROBLEM TO BE SOLVED: To execute a support suited to a posture when a user performs a standing action, support the standing action at a timing that the user expects and appropriately exert the motor ability of the user. SOLUTION: This standing action support device (ECH) is characterized in having: a grip object part moving means C3 for moving a grip object part G via a grip object part moving member GM when the grip object part G is gripped; raising start determination means C3B, C3B', C3B" and C3D for determining whether or not the center of gravity of the user's body is in a raising start position preset based on the grounding position of the user's feet, the user bends the upper body forward and completes the forward movement of the center of gravity and the center of gravity moves to the raising start position for starting to raise the upper body; and a grip object part moving means C3 raising the grip object part G when determining that the center of gravity is moved to the raising start position. COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:当用户执行站立动作时执行适合于姿势的支持,在用户期望的时刻支持站立动作,并适当地施加用户的运动能力。 该立体动作支撑装置(ECH)的特征在于具有:夹持物部分移动装置C3,用于在握持物体部分G被夹持时通过握持物部分移动部件GM移动抓握物部分G; 用于确定用户身体的重心是否处于基于用户脚的接地位置而预先设定的提升开始位置的提升开始确定装置C3B,C3B',C3B“和C3D,用户将上身向前弯曲 并且完成重心的向前运动并且重心移动到起始起始位置以开始升高上身;以及抓握物体部分移动装置C3,当确定重心时,抓握物体部分G 被转移到起始位置。版权所有(C)2009,JPO&INPIT