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    • 21. 发明申请
    • MOVING IMAGE DECODING APPARATUS, MOVING IMAGE CODING APPARATUS, MOVING IMAGE DECODING CIRCUIT, AND MOVING IMAGE DECODING METHOD
    • 移动图像解码设备,移动图像编码设备,移动图像解码电路和移动图像解码方法
    • US20120147959A1
    • 2012-06-14
    • US13255267
    • 2011-03-02
    • Hiroshi AmanoTakeshi TanakaTakashi HashimotoYoshiteru Hayashi
    • Hiroshi AmanoTakeshi TanakaTakashi HashimotoYoshiteru Hayashi
    • H04N7/32
    • H04N19/82H04N19/117H04N19/43H04N19/44H04N19/513H04N19/61
    • A moving image decoding apparatus which enables reduction in the memory bandwidth and the memory access latency for the motion compensation filter coefficients for use in inter-picture prediction involving motion compensation using variable coefficients includes: a decoding unit (101) which decodes, from a coded stream, a plurality of motion compensation filter coefficients; a memory (109) for holding the motion compensation filter coefficients included in the coded stream; a filter coefficient storage unit (103) for holding at least one of the motion compensation filter coefficients which is required for the motion compensation; a motion compensation unit (107) which performs motion compensation using the required motion compensation filter coefficient held in the filter coefficient storage unit; and a filter coefficient transfer control unit (102) which writes, in the memory, the motion compensation filter coefficients decoded by the decoding unit, and transfers the required motion compensation filter coefficient from the memory to the filter coefficient storage unit, only when the required coefficient is not yet stored therein.
    • 一种运动图像解码装置,其能够减少使用可变系数的运动补偿的帧间预测中使用的运动补偿滤波器系数的存储器带宽和存储器访问等待时间,包括:解码单元, 流,多个运动补偿滤波器系数; 用于保持包含在编码流中的运动补偿滤波器系数的存储器(109) 滤波器系数存储单元,用于保持运动补偿所需的运动补偿滤波器系数中的至少一个; 使用保持在滤波器系数存储单元中的所需运动补偿滤波器系数进行运动补偿的运动补偿单元(107) 以及滤波器系数传递控制单元(102),其在存储器中写入由解码单元解码的运动补偿滤波器系数,并且将所需的运动补偿滤波器系数从存储器传送到滤波器系数存储单元,只有当所需的 系数尚未存储在其中。
    • 22. 发明申请
    • IMAGE DECODING DEVICE, IMAGE CODING DEVICE, IMAGE DECODING METHOD, IMAGE CODING METHOD, PROGRAM, AND INTEGRATED CIRCUIT
    • 图像解码装置,图像编码装置,图像解码方法,图像编码方法,程序和集成电路
    • US20120099657A1
    • 2012-04-26
    • US13379442
    • 2010-07-05
    • Takeshi TanakaNaoki Yoshimatsu
    • Takeshi TanakaNaoki Yoshimatsu
    • H04N7/26
    • H04N19/436
    • An image decoding device and an image coding device are each capable of using spatial dependence across a boundary between slices to smoothly execute parallel processing. The image decoding device includes: a first decoding unit (801) decoding a block in a first slice; a second decoding unit (802) decoding a block in a second slice; and a first storage unit (811) storing inter-slice neighboring information (i) generated by decoding a boundary block included in the first slice and adjacent to the second slice and (ii) referenced when a boundary neighboring block included in the second slice and adjacent to the boundary block is decoded. The first decoding unit (801) generates the inter-slice neighboring information by decoding the boundary block and stores the generated information into the first storage unit (811). The second decoding unit (802) decodes the boundary neighboring block by reference to the stored inter-slice neighboring information.
    • 图像解码装置和图像编码装置各自能够在切片之间的边界上使用空间依赖来平滑地执行并行处理。 图像解码装置包括:第一解码单元,对第一切片中的块进行解码; 第二解码单元,对第二片中的块进行解码; 以及第一存储单元(811),其存储通过对包括在所述第一切片中并与所述第二切片相邻的边界块进行解码而生成的切片间相邻信息(i),以及(ii)当包括在所述第二切片中的边界相邻块时被参考, 邻接边界块被解码。 第一解码单元(801)通过解码边界块来生成切片间相邻信息,并将生成的信息存储到第一存储单元(811)中。 第二解码单元(802)通过参照所存储的切片间相邻信息对边界相邻块进行解码。
    • 23. 发明申请
    • IMAGE CODING METHOD AND IMAGE DECODING METHOD
    • 图像编码方法和图像解码方法
    • US20110317769A1
    • 2011-12-29
    • US13148957
    • 2010-10-13
    • Takeshi TanakaHisao Sasai
    • Takeshi TanakaHisao Sasai
    • H04N7/26
    • H04N19/44H03M7/4006H03M7/4018H04N19/13H04N19/176H04N19/194H04N19/46H04N19/61H04N19/91
    • An image coding method for improving coding efficiency by using more appropriate probability information is provided. The image coding method includes: a first coding step (S811) of coding a first set of blocks included in a first region sequentially based on first probability information; and a second coding step (S812) of coding a second set of blocks included in a second region sequentially based on second probability information. In the first coding step (S811), the first probability information is updated depending on data of a target block to be coded, after coding the target block and before coding a next target block. In the second coding step (S812), the second probability information is updated depending on the first probability information updated in the first coding step (S811), before coding the first target block.
    • 提供了一种通过使用更合适的概率信息来提高编码效率的图像编码方法。 图像编码方法包括:基于第一概率信息,顺序地对包含在第一区域中的第一组块进行编码的第一编码步骤(S811) 以及基于第二概率信息顺序地对包括在第二区域中的第二组块进行编码的第二编码步骤(S812)。 在第一编码步骤(S811)中,根据要编码的目标块的数据,在对目标块进行编码之后并对下一个目标块进行编码之前,更新第一概率信息。 在第二编码步骤(S812)中,在对第一目标块进行编码之前,根据第一编码步骤(S811)中更新的第一概率信息来更新第二概率信息。
    • 24. 发明授权
    • Power conversion device
    • 电源转换装置
    • US08044632B2
    • 2011-10-25
    • US12376464
    • 2006-10-19
    • Hideo ObiTakahiro KikuchiTakeshi TanakaDaisuke ItoKeita Hatanaka
    • Hideo ObiTakahiro KikuchiTakeshi TanakaDaisuke ItoKeita Hatanaka
    • H02P27/04
    • H02P27/06
    • A power conversion device includes a converter that converts AC power to DC power, a converter controller that controls an output voltage of the converter, an inverter that converts the DC power to AC power at a variable frequency, an inverter controller that controls an output frequency of the inverter, and a current detector that detects an AC current on an input side of the converter. It is configured in such a manner that the inverter controller adjusts a slip frequency of the induction motor in response to a fluctuation of the AC current on the input side of the converter detected by the current detector. It thus becomes possible to suppress a beat current in an output current of the inverter at the occurrence of a load fluctuation as well as a power supply voltage fluctuation.
    • 电力转换装置包括将交流电转换为直流电的转换器,控制转换器的输出电压的转换器控制器,以可变频率将直流电转换为交流电的逆变器,控制输出频率的逆变器控制器 以及检测转换器的输入侧的交流电流的电流检测器。 以使逆变器控制器响应于由电流检测器检测的转换器的输入侧的交流电流的波动来调整感应电动机的转差频率的方式构成。 因此,在发生负载变动以及电源电压变动的情况下,可以抑制逆变器的输出电流中的节拍电流。
    • 26. 发明申请
    • IMAGE DECODING APPARATUS AND IMAGE DECODING METHOD
    • 图像解码设备和图像解码方法
    • US20100322317A1
    • 2010-12-23
    • US12866430
    • 2009-10-27
    • Naoki YoshimatsuDaisuke IwahashiTakeshi Tanaka
    • Naoki YoshimatsuDaisuke IwahashiTakeshi Tanaka
    • H04N7/26
    • H04N19/40H04N19/174H04N19/436H04N19/44H04N19/70
    • To provide a simply-structured image decoding apparatus which appropriately executes parallel decoding processing. The image decoding apparatus includes: a stream segmentation unit (130) which generates plural segment streams by segmenting each of the pictures included in a bit stream into plural MB lines, and assigning each of the plural MB lines to a corresponding one of the plural segment streams to be generated; and plural decoding engines (120) which decode the respective plural segment streams in parallel. In the case where at least two consecutive MB lines in the bit stream have a dependency indicated by a predetermined code word, the stream segmentation unit (130) sets the code word to the segment streams so as to update the dependencies to new dependencies depending on the contexts of MB lines in the respective segment streams.
    • 提供一种适当执行并行解码处理的简单结构的图像解码装置。 图像解码装置包括:流分割单元,通过将包含在比特流中的每个图像分割成多个MB线来生成多个分段流,并将多个MB线分配给多个分段中的相应一个 要生成的流; 以及并行解码各个分段流的多个解码引擎​​(120)。 在比特流中至少两个连续的MB线具有由预定码字指示的依赖性的情况下,流分段单元(130)将码字设置为片段流,以便根据依赖关系将依赖性更新为新依赖 各行段流中MB行的上下文。
    • 27. 发明申请
    • METHOD AND DEVICE FOR IMPLEMENTING SIMULATED TEST OF CENTRIFUGAL STRESS IN TURBINE BLADE
    • 用于实施涡轮叶片中离心应力模拟试验的方法和装置
    • US20100288052A1
    • 2010-11-18
    • US12730416
    • 2010-03-24
    • Takeshi TanakaHaruhiko AsakaJunya MichinishiKeiichiro MiyajimaKazushi Mori
    • Takeshi TanakaHaruhiko AsakaJunya MichinishiKeiichiro MiyajimaKazushi Mori
    • G01M13/00
    • F01D25/285F05D2260/94F05D2270/114G01M15/14
    • The object is to provide a method and device to detect internal defect in the weld overlaid portion of erosion resistant material in the border portion between the blade profile and the shroud of a turbine blade with high accuracy by a static test method for an individual turbine blade applying a resultant pressing force, corresponding to centrifugal force and untwisting force of the turbine blade 10 in operation of the turbine, to the shroud 12 with installing the blade root 18 of the turbine blade 10 to the blade root retainer 20 and applying a force in the direction of centrifugal force on the blade root 18 from outside of the blade root retainer 20 to eliminate backlash between the blade root 18 and blade root retainer 20, retaining securely the shroud 12 on the side opposite to the portion which is applied the pressing force, and implementing simulated test of centrifugal stress in the weld-overlaid portion by applying the resultant pressing force, corresponding to centrifugal force and untwisting force of the turbine blade 10 in operation of the turbine, to the shroud 12.
    • 本发明的目的是提供一种方法和装置,用于通过用于单个涡轮机叶片的静态测试方法以高精度检测叶片轮廓和涡轮叶片的护罩之间的边界部分中的耐侵蚀材料的焊接覆盖部分中的内部缺陷 将涡轮机叶片10的叶片根部18安装到叶片根部保持器20上并将施加一个力施加到涡轮机的操作中,将相应于涡轮机叶片10的离心力和解捻力的合力施加到护罩12上 叶片根部18从叶片根部保持器20的外侧离心力的方向,以消除叶片根部18和叶根部保持器20之间的间隙,将护罩12牢固地固定在施加有压力的部分的相反侧 并通过施加对应于离心式的合成压力来实现焊接部分中的离心应力的模拟试验 ce和涡轮机叶片10在涡轮机运行中的解捻力。
    • 28. 发明授权
    • Sensor node
    • 传感器节点
    • US07696867B2
    • 2010-04-13
    • US11779020
    • 2007-07-17
    • Kiyoshi AikiShunzo YamashitaTakeshi Tanaka
    • Kiyoshi AikiShunzo YamashitaTakeshi Tanaka
    • G08B1/08G08B21/00G06F1/26G06F1/00
    • H04W52/029H04W84/18H04W88/02
    • A sensor node for intermittently sensing data in a short cycle includes a control unit for acquiring information by driving the sensor, a radio communication unit for transmitting the information acquired by the control unit and a battery for supplying the control unit. The control unit includes a clock supply unit (RTC) for supplying the control unit with clocks at a predetermined frequency. A sensor control unit starts the supply of power to the sensor when the measurement period has begun, maintains the power supply to the sensor even if the control unit has shifted to the standby state during the measurement period, and shuts down the power supply to the sensor when the measurement period has been completed. A measurement unit is also provided for acquiring information from the sensor every time the latter has shifted to the operational state.
    • 用于在短周期内间歇地感测数据的传感器节点包括用于通过驱动传感器获取信息的控制单元,用于发送由控制单元获取的信息的无线电通信单元和用于提供控制单元的电池。 控制单元包括用于向控制单元提供预定频率的时钟的时钟提供单元(RTC)。 当测量周期已经开始时,传感器控制单元开始向传感器供电,即使控制单元在测量期间已经转移到待机状态,也保持对传感器的供电,并且关闭到 传感器,当测量周期已经完成。 还提供测量单元,用于每当后者转移到操作状态时从传感器获取信息。
    • 30. 发明申请
    • Wheel manufacturing method
    • 车轮制造方法
    • US20090158590A1
    • 2009-06-25
    • US12379213
    • 2009-02-17
    • Takeshi Tanaka
    • Takeshi Tanaka
    • B21K1/38
    • B60B3/002B21D53/26B21K1/38B60B3/10B60B23/10B60B25/002Y10T29/49501Y10T29/49524Y10T29/49526Y10T29/49529Y10T29/49531
    • The present invention provides wheel manufacturing method comprising a pressing step in which a primary molded product having a cylindrical shape with a bottom in which a flange part that extends to the outside is disposed on the open side end part is manufactured, a working step in which a secondary molded product is obtained by cutting away the bottom part of the abovementioned primary molded product, and a spinning step in which, the secondary worked product is fit over and fastened to a rotating jig, a rim flange molding roller is pressed against the end part of the flange part while the secondary worked product is rotated together with the rotating jig, so that the flange part is gradually molded into the shape of a rim flange part, and the flange part is subsequently subjected to an angular adjustment to an appropriate angle to mold a rim flange part.
    • 本发明提供一种制轮方法,其特征在于,包括:压制工序,其制造具有底部的圆筒形状的一次成型体,其中向所述开口侧端部设置有向外侧延伸的凸缘部,工作步骤, 通过切除上述一次成型体的底部而获得二次成型体,以及纺丝工序,其中二次加工产品被配合并固定在旋转夹具上,轮辋凸缘成型辊压靠在端部 凸缘部分的一部分,而二次加工产品与旋转夹具一起旋转,使得凸缘部分逐渐地模制成轮缘凸缘部分的形状,并且凸缘部分随后经受角度调整到适当的角度 以模制轮缘凸缘部分。