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    • 2. 发明授权
    • Method of manufacturing an organic electroluminescence device using a liquid droplet ejection method
    • 使用液滴喷射方法制造有机电致发光器件的方法
    • US07896721B2
    • 2011-03-01
    • US12392661
    • 2009-02-25
    • Shuichi TakeiMasaki ItoShunichi Seki
    • Shuichi TakeiMasaki ItoShunichi Seki
    • H01J9/00B05D1/06
    • H01L27/3246H01L51/0003H01L51/5228H01L51/5234
    • There is provided a method of manufacturing an organic electroluminescence device including a plurality of light-emitting elements. The organic electroluminescence device includes a partition wall layer having a first partition wall layer with openings corresponding to the light-emitting elements and a second partition wall layer which is disposed on the first partition wall layer, the partition wall layer extends so as to follow the gap of the light-emitting elements, and has a groove on the top. The method of manufacturing includes forming the partition wall layer by forming the first partition wall layer and forming the second partition wall layer on the first partition wall layer such that the first partition wall layer is exposed at the bottom of the groove. The first partition wall layer is composed of an inorganic material, and the second partition wall layer is composed of an organic material.
    • 提供了一种制造包括多个发光元件的有机电致发光器件的方法。 有机电致发光元件具有分隔壁层,具有与发光元件对应的开口部的第一分隔壁层和配置在第一分隔壁层上的第二分隔壁层,隔壁层延伸, 发光元件的间隙,并且在顶部具有凹槽。 制造方法包括通过形成第一分隔壁层并在第一分隔壁层上形成第二分隔壁层,使得第一分隔壁层在凹槽的底部露出来形成分隔壁层。 第一分隔壁层由无机材料构成,第二分隔壁层由有机材料构成。
    • 3. 发明申请
    • METHOD OF MANUFACTURING ORGANIC ELECTROLUMINESCENCE DEVICE
    • 制造有机电致发光器件的方法
    • US20090215350A1
    • 2009-08-27
    • US12392661
    • 2009-02-25
    • Shuichi TakeiMasaki ItoShunichi Seki
    • Shuichi TakeiMasaki ItoShunichi Seki
    • H01J9/00
    • H01L27/3246H01L51/0003H01L51/5228H01L51/5234
    • There is provided a method of manufacturing an organic electroluminescence device including a plurality of light-emitting elements, The method of manufacturing an organic electroluminescence device according to Claim 1, wherein the partition wall layer includes a first partition wall layer having openings corresponding to the light-emitting elements and a second partition wall layer which is disposed on the first partition wall layer, and extending so as to follow the gap of the light-emitting elements, and has the groove on the top thereof; the forming the partition wall layer includes forming the first partition wall layer and forming the second partition wall layer on the first partition wall layer such that the first partition wall layer is exposed at the bottom of the groove; and the first partition wall layer is composed of an inorganic material, and the second partition wall layer is composed of an organic material.
    • 提供一种制造包括多个发光元件的有机电致发光器件的方法。根据权利要求1所述的有机电致发光器件的制造方法,其中所述分隔壁层包括具有对应于所述光的开口的第一分隔壁层 发光元件和第二隔壁层,其设置在第一分隔壁层上,并且延伸以跟随发光元件的间隙,并且在其顶部具有凹槽; 形成分隔壁层包括形成第一分隔壁层并在第一分隔壁层上形成第二分隔壁层,使得第一分隔壁层在凹槽的底部露出; 第一分隔壁层由无机材料构成,第二分隔壁层由有机材料构成。
    • 4. 发明授权
    • Separate-type signal processing apparatus and software version updating method therefor
    • 分离式信号处理装置及其软件版本更新方法
    • US08677311B2
    • 2014-03-18
    • US11589540
    • 2006-10-30
    • Masaki Ito
    • Masaki Ito
    • G06F9/44
    • G06F11/1433G06F8/65
    • A separate-type signal processing apparatus includes: a first device having a data acquisition part; and a second device connected with the first device by wire or wireless, wherein the first and second devices work in cooperation to execute a predetermined process, the first device acquires version renewal data for addition to or renewal of software components for respectively controlling the first and second devices, through the data acquisition part, the first device has a first control part for sending a completion-of-acquisition notice signal to the second device, the second device has a second control part for sending a response signal to the first control part when the notice signal is input thereto, and the first control part transfers at least a part of the acquired version renewal data to the second control part on receipt of the response signal as an input thereto.
    • 一种分离式信号处理装置,包括:具有数据采集部分的第一装置; 以及通过有线或无线与第一设备连接的第二设备,其中第一和第二设备协同工作以执行预定过程,第一设备获取用于分别控制第一和第二设备的软件组件的添加或更新的版本更新数据, 第二装置,通过数据获取部分,第一装置具有用于向第二装置发送获取完成通知信号的第一控制部分,第二装置具有用于向第一控制部分发送响应信号的第二控制部分 当所述通知信号被输入时,并且所述第一控制部件在接收到所述响应信号时将所获取的版本更新数据的至少一部分传送到所述第二控制部件作为其输入。
    • 5. 发明授权
    • Method for controlling heterogeneous multiprocessor and multigrain parallelizing compiler
    • 用于控制异构多处理器和多线并行编译器的方法
    • US08250548B2
    • 2012-08-21
    • US11656531
    • 2007-01-23
    • Hironori KasaharaKeiji KimuraJun ShirakoYasutaka WadaMasaki ItoHiroaki Shikano
    • Hironori KasaharaKeiji KimuraJun ShirakoYasutaka WadaMasaki ItoHiroaki Shikano
    • G06F9/45
    • G06F9/5044G06F2209/5012Y02D10/22
    • A heterogeneous multiprocessor system including a plurality of processor elements having mutually different instruction sets and structures avoids a specific processor element from being short of resources to improve throughput. An executable task is extracted based on a preset depending relationship between a plurality of tasks, and the plurality of first processors are allocated to a general-purpose processor group based on a depending relationship among the extracted tasks. A second processor is allocated to an accelerator group, a task to be allocated is determined from the extracted tasks based on a priority value for each of tasks, and an execution cost of executing the determined task by the first processor is compared with an execution cost of executing the task by the second processor. The task is allocated to one of the general-purpose processor group and the accelerator group that is judged to be lower as a result of the cost comparison.
    • 包括具有相互不同的指令集和结构的多个处理器元件的异构多处理器系统避免了特定的处理器元件缺少资源以提高吞吐量。 基于多个任务之间的预设依赖关系来提取可执行任务,并且基于提取的任务之间的依赖关系将多个第一处理器分配给通用处理器组。 将第二处理器分配给加速器组,基于每个任务的优先级值从所提取的任务确定要分配的任务,并且将由第一处理器执行所确定的任务的执行成本与执行成本进行比较 由第二处理器执行任务。 该任务被分配给作为成本比较的结果被判断为较低的通用处理器组和加速器组中的一个。
    • 6. 发明授权
    • Glass antenna for an automobile
    • 汽车玻璃天线
    • US08040285B2
    • 2011-10-18
    • US12251570
    • 2008-10-15
    • Kenichiro ShimoMitsuro WatanabeMasaki Ito
    • Kenichiro ShimoMitsuro WatanabeMasaki Ito
    • H01Q1/32
    • H01Q1/1271H01Q1/1278H01Q5/00H01Q5/40
    • A glass antenna for an automobile improving antenna gain is provided.The glass antenna can receive two wavelength bands, that are a first wavelength band and a second wavelength band higher than the first wavelength band, and provided that the first wavelength band is designated as H band and the second wavelength band is designated as L band, antenna conductors 6, 7 for H band each having a shape and dimension configured to receive H band is provided on a rear glass plate 10 for an automobile, and an antenna conductor 1 for L band having a shape and dimension configured to receive L band is provided on the rear window glass plate 10, the antenna conductors 6, 7 for H band and the antenna conductor 1 for L band constitute two types of antenna conductors, the antenna conductor 1 for L band has a portion extending in a predetermined direction, and provided that the portion is designated as a predetermined direction extending portion 1c, the predetermined direction extending portion 1c has a detour portion 1b.
    • 提供了一种用于汽车改善天线增益的玻璃天线。 玻璃天线可以接收两个波长带,其是比第一波长带高的第一波长带和第二波长带,并且第一波长带被指定为H波段,第二波段被指定为L波段, 用于汽车的后玻璃板10上设置用于H带的每个具有形状和尺寸的H带的天线导体6,7,具有被配置为接收L波段的形状和尺寸的用于L波段的天线导体1是 设置在后窗玻璃板10上的H波段天线导体6,7和L波段的天线导体1构成两种天线导体,L波段的天线导体1具有沿规定方向延伸的部分, 只要该部分被指定为预定方向延伸部分1c,则预定方向延伸部分1c具有绕行部分1b。
    • 7. 发明授权
    • Deuterium lamp
    • 氘灯
    • US07999477B2
    • 2011-08-16
    • US11993621
    • 2006-08-08
    • Yoshinobu ItoMasaki ItoKoji Matsushita
    • Yoshinobu ItoMasaki ItoKoji Matsushita
    • H01J17/16G01J3/42
    • G01J3/10H01J5/48
    • The present invention relates to a deuterium lamp with a structure to enable high-accuracy positioning with respect to a mounting object such as an analyzer. The deuterium lamp comprises a sealed container in which a light-emitting portion to emit a discharge light in a predetermined direction is stored. The sealed container is constituted by a hollow body portion in which the light-emitting portion is stored and a hollow guide portion which guides a discharge light from the light-emitting portion to a light exit window provided at its front end. The deuterium lamp further comprises an axis adjusting member fixed to the hollow guide portion while storing at least a part of the hollow guide portion and a sealing layer for fixing the hollow guide portion and the axis adjusting member to each other. In particular, the sealing layer makes it possible to fix the axis adjusting member to the hollow guide portion with the center axis of the axis adjusting member being made coincident with the emitting direction of a discharge light. Thereby, even when misalignment has occurred between the center axis of the hollow guide portion and the emitting direction of a discharge light due to a manufacturing error in manufacturing of the container, since the axis adjusting member itself is directly fixed to the mounting object, it becomes possible to fix said deuterium lamp to an analyzer or the like with the optical axis aligned at a high accuracy.
    • 本发明涉及具有能够相对于诸如分析仪的安装对象进行高精度定位的结构的氘灯。 氘灯包括密封容器,其中存储有沿预定方向发射放电光的发光部分。 密封容器由存储有发光部的中空主体部分和将发光部分的放电光引导到设置在其前端的光出射窗的中空导向部分构成。 氘灯还包括固定到中空引导部分的轴线调节构件,同时存储中空引导部分的至少一部分和用于将中空引导部分和轴线调节构件彼此固定的密封层。 特别地,密封层使得可以将轴调节构件固定到中空引导部分,同时使轴调节构件的中心轴线与放电灯的发射方向一致。 因此,即使由于制造容器的制造误差而导致中空引导部的中心轴与放电光的发射方向之间发生偏移,由于轴调整部件本身直接固定在安装对象上,所以 可以使所述氘灯以高精度对准的分析器等固定。
    • 10. 发明授权
    • Data stream format conversion method and recording method for the same
    • 数据流格式转换方法和记录方法相同
    • US07499631B2
    • 2009-03-03
    • US10539244
    • 2003-12-18
    • Mutsuyuki OkayamaHirofumi NakagakiMasaki Ito
    • Mutsuyuki OkayamaHirofumi NakagakiMasaki Ito
    • H04N5/91H04N7/01
    • H04N9/8042G11B20/1262G11B27/034G11B27/105G11B27/3027G11B27/329G11B2220/216G11B2220/2562G11B2220/2575H04N5/781H04N5/85H04N9/8063H04N9/8205
    • A method for converting a data stream in a first format into a data stream in a second format is provided. Each stream includes data packs in which video/audio data are stored and a control pack for use in a playback control of the stream. In the first format stream, address information, representing addresses of the data packs and not required while the stream is played back, is present and associated with the stream. In the second format stream, address information, representing addresses of the data packs and required while the stream is played back, is stored in the control pack. The method includes the steps of: acquiring the first format stream and its associated address information; generating a second control pack in the second format from a first control pack in the first format, the second control pack storing the address information acquired; and replacing the first control pack with the second control pack, thereby generating the second format stream from the first format stream.
    • 提供一种将第一格式的数据流转换为第二格式的数据流的方法。 每个流包括其中存储视频/音频数据的数据包和用于流的回放控制的控制包。 在第一格式流中,存在表示数据包的地址并且在流被重放时不需要的地址信息,并且与流相关联。 在第二格式流中,表示地址信息,表示数据包的地址,并且在播放流时所需的地址信息被存储在控制包中。 该方法包括以下步骤:获取第一格式流及其相关联的地址信息; 从所述第一格式的第一控制包生成第二格式的第二控制包,所述第二控制包存储获取的地址信息; 并且用第二控制包替换第一控制包,从而从第一格式流生成第二格式流。