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    • 1. 发明授权
    • Coder
    • 编码器
    • US07839312B2
    • 2010-11-23
    • US12439004
    • 2007-10-11
    • Toshihiro TanakaKeiichi Ishida
    • Toshihiro TanakaKeiichi Ishida
    • H03M7/00
    • H03M7/4006H04N19/126H04N19/13H04N19/149H04N19/15H04N19/194H04N19/436H04N19/46H04N19/70
    • A coder has a binarizing circuit (130) for converting multivalued data into a binary symbol sequence, the multivalued data being generated from an input signal and having a plurality of contexts, an arithmetic code amount approximating circuit (200) for calculating a prediction code amount in the predetermined coding unit from the binary symbol sequence, and a coding circuit (102) for coding the input signal arithmetically on the basis of the prediction code amount. The arithmetic code amount approximating circuit (200) includes a selector (230) for dividing the binary symbol sequence into a plurality of groups based on the contexts, a plurality of code amount approximating circuits (211-214) for calculating, from the binary symbol sequence divided into a plurality of groups, the prediction code amount of the group based on at least the section range in arithmetic coding, and an adder (231) for adding the prediction code amounts from all code amount approximating circuits and outputting the prediction code amount in the specified coding unit.
    • 编码器具有二值化电路(130),用于将多值数据转换为二进制符号序列,多值数据从输入信号产生并具有多个上下文,算术码量近似电路(200)用于计算预测代码量 在二进制符号序列的预定编码单元中,以及编码电路(102),用于根据预测码量对算术输入信号进行编码。 算术码量近似电路(200)包括:用于根据上下文将二进制符号序列划分为多个组的选择器(230),用于从二进制符号计算的多个码量近似电路(211-214) 序列划分为多个组,基于算术编码中的至少区间范围的组的预测编码量,以及用于从所有码量近似电路中相加预测码量的加法器(231),并输出预测码量 在指定的编码单位。
    • 8. 发明申请
    • Information Recording Medium
    • 信息记录媒体
    • US20080046675A1
    • 2008-02-21
    • US10585643
    • 2005-01-06
    • Takanori OkadaKeiichi IshidaHiroshi Saitoh
    • Takanori OkadaKeiichi IshidaHiroshi Saitoh
    • G06F12/02
    • G06F12/0246G06F3/0616G06F3/0644G06F3/0679G06F2212/1036G06F2212/7211
    • It is possible to solve the problem that a memory block of a group containing information frequently updated quickly reaches the rewrite service life end when the number of spare blocks prepared in a non-volatile semiconductor recording medium cannot be modified or when the memory block is divided into a plurality of groups so as to be processed alternately. The non-volatile semiconductor recording medium includes a partition management information area and a partition area. Partition area start position information is recorded in the partition management information area. The start position information contains a value assuring a predetermined area between the end of the partition management information area and the head of the partition area. The area assured between the end of the partition management information area and the head of the partition area is set to a state where data is physically erased.
    • 可以解决当在非易失性半导体记录介质中准备的备用块的数量不能被修改或者当存储块被分割时,包含频繁更新的信息的组的存储块快速到达重写使用寿命的问题 成为多个组,以便交替进行处理。 非易失性半导体记录介质包括分区管理信息区域和分区区域。 分区区域开始位置信息被记录在分区管理信息区域中。 起始位置信息包含确保分区管理信息区域的末端与分割区域的头部之间的预定区域的值。 将分区管理信息区域的结束与分割区域的头部之间保证的区域设定为物理地擦除数据的状态。
    • 9. 发明授权
    • Blood sugar analyzer having fixed enzyme membrane sensor
    • 具有固定酶膜传感器的血糖分析仪
    • US4420564A
    • 1983-12-13
    • US318000
    • 1981-11-04
    • Nobuhiko TsujiKeijiroh NakamuraKoichi EndohToshiyoshi HamadaKeiichi Ishida
    • Nobuhiko TsujiKeijiroh NakamuraKoichi EndohToshiyoshi HamadaKeiichi Ishida
    • C12Q1/00G01N33/487G01N33/66
    • G01N27/3271C12Q1/006Y10S435/817Y10T436/144444
    • A blood sugar analyzing apparatus has a reaction cell which houses a fixed enzyme membrane sensor and a measuring electrode which receives a blood specimen which causes a chemical reaction between the blood specimen and said fixed enzyme membrane for measuring the blood sugar concentration in the specimen on the basis of a reaction current signal generated in the sensor by the chemical reaction. The analyzing apparatus has a microcomputer for calculating a conversion coefficient used for converting the reaction current into a blood sugar concentration value by introducing a standard solution having a known blood sugar concentration, for storing data representing the value of said conversion coefficient, for calculating a blood sugar concentration value of a test specimen based upon the stored conversion coefficient value and reaction current from the test specimen. A display and printer provide a read-out of the blood sugar concentration value obtained. The microcomputer controls temperature and timing of the measurement process, as well as other control functions.
    • 血糖分析装置具有容纳固定酶膜传感器的反应池和容纳血样的血液检查体的测定电极,所述血液检查体在血样和固定酶膜之间发生化学反应,以测定样品中的血糖浓度 通过化学反应在传感器中产生的反应电流信号的基础。 该分析装置具有:微型计算机,用于通过引入具有已知血糖浓度的标准溶液来计算用于将反应电流转换为血糖浓度值的转换系数,用于存储表示所述转换系数的值的计算血液 基于存储的转化系数值和来自试样的反应电流的试样的糖浓度值。 显示器和打印机提供读取所获得的血糖浓度值。 微电脑控制测量过程的温度和时间以及其他控制功能。
    • 10. 发明申请
    • CODER
    • 编码器
    • US20100007532A1
    • 2010-01-14
    • US12439004
    • 2007-10-11
    • Toshihiro TanakaKeiichi Ishida
    • Toshihiro TanakaKeiichi Ishida
    • H03M5/02
    • H03M7/4006H04N19/126H04N19/13H04N19/149H04N19/15H04N19/194H04N19/436H04N19/46H04N19/70
    • A coder has a binarizing circuit (130) for converting multivalued data into a binary symbol sequence, the multivalued data being generated from an input signal and having a plurality of contexts, an arithmetic code amount approximating circuit (200) for calculating a prediction code amount in the predetermined coding unit from the binary symbol sequence, and a coding circuit (102) for coding the input signal arithmetically on the basis of the prediction code amount. The arithmetic code amount approximating circuit (200) includes a selector (230) for dividing the binary symbol sequence into a plurality of groups based on the contexts, a plurality of code amount approximating circuits (211-214) for calculating, from the binary symbol sequence divided into a plurality of groups, the prediction code amount of the group based on at least the section range in arithmetic coding, and an adder (231) for adding the prediction code amounts from all code amount approximating circuits and outputting the prediction code amount in the specified coding unit.
    • 编码器具有二值化电路(130),用于将多值数据转换为二进制符号序列,多值数据从输入信号产生并具有多个上下文,算术码量近似电路(200)用于计算预测代码量 在二进制符号序列的预定编码单元中,以及编码电路(102),用于根据预测码量对算术输入信号进行编码。 算术码量近似电路(200)包括:用于根据上下文将二进制符号序列划分为多个组的选择器(230),用于从二进制符号计算的多个码量近似电路(211-214) 序列划分为多个组,基于算术编码中的至少区间范围的组的预测编码量,以及用于从所有码量近似电路中相加预测码量的加法器(231),并输出预测码量 在指定的编码单位。