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    • 1. 发明申请
    • VIDEO AUDIO PROCESSING DEVICE AND STANDBY AND RETURN METHOD THEREOF
    • 视频音频处理设备及其备用和返回方法
    • US20120327305A1
    • 2012-12-27
    • US13604855
    • 2012-09-06
    • Tomokuni YAMAGUCHINorihiko MizobataShirou Yoshioka
    • Tomokuni YAMAGUCHINorihiko MizobataShirou Yoshioka
    • H04N5/222
    • H04N5/44H04N5/63H04N21/4436
    • In a video audio processing device, a signal processing block (11, 12) includes an instruction memory (111, 121) and performs signal processing in accordance with a program loaded into the instruction memory. A main storage section (20) has a self-refresh function and is accessible from the signal processing block. An auxiliary storage section (30) stores the program for making the signal processing block perform the signal processing. Upon receipt of a standby instruction, a control section (15) performs control in such a manner as to transfer the program from the auxiliary storage section to the main storage section, and set self-refresh in the main storage section, and upon receipt of a return instruction, performs control in such a manner as to cancel the self-refresh in the main storage section, load the program from the main storage section to the instruction memory in the signal processing block, and activate the signal processing block.
    • 在视频音频处理装置中,信号处理块(11,12)包括指令存储器(111,121),并根据加载到指令存储器中的程序进行信号处理。 主存储部分(20)具有自刷新功能,并且可从信号处理块访问。 辅助存储部分(30)存储用于使信号处理块执行信号处理的程序。 控制部(15)在接收到备用指示时,以从辅助存储部向主存储部传送程序的方式进行控制,在主存储部中设置自刷新,并且在接收到 返回指令以取消主存储部中的自刷新的方式进行控制,将程序从主存储部加载到信号处理块中的指令存储器,并且激活信号处理块。
    • 3. 发明授权
    • Digital broadcast data receiving apparatus
    • 数字广播数据接收装置
    • US07012932B1
    • 2006-03-14
    • US09339246
    • 1999-06-24
    • Norihiko Mizobata
    • Norihiko Mizobata
    • H04J1/00H04K1/00H04N7/20
    • H04N21/435H04H40/18H04N5/4401H04N21/235H04N21/4263
    • A digital broadcast data receiving apparatus comprises a plurality of broadcast data receiving units for receiving digital broadcast data supplied from a plurality of digital broadcast data sources, respectively and a parallel receiving unit for receiving, from the digital broadcast data output from the plural broadcast data receiving units, object program broadcast data which are multiplexed digital broadcast data including program broadcast data relating to an object program broadcast to be viewed by the viewer, and received broadcast data which are digital broadcast data output from the broadcast data receiving unit different from the broadcast data receiving unit which outputs the object program broadcast data. The parallel receiving unit performs the following processes according to time division multiplexing: a process of extracting program broadcast data relating to the object program broadcast to be viewed from the object program broadcast data, and a process of extracting data including information to be obtained even when the viewer does not watch the broadcast, from the received broadcast data. Therefore, it is possible to realize a receiving apparatus Which receives digital broadcast data supplied from plural input sources at the same time, and obtains necessary data included in the digital broadcast data supplied from one of the input sources while displaying the digital broadcast data supplied from the other input source, on a television receiver.
    • 数字广播数据接收装置包括分别从多个数字广播数据源接收数字广播数据的多个广播数据接收单元和一个并行接收单元,用于从多个广播数据接收中输出的数字广播数据接收 单元,对象节目广播数据,其是包括与观众要观看的广播目标节目相关的节目广播数据的复用数字广播数据,以及作为从广播数据接收单元输出的不同于广播数据的数字广播数据的接收广播数据 接收单元,其输出对象节目广播数据。 并行接收单元根据时分多路复用进行以下处理:从目标程序广播数据中提取与要广播的对象节目有关的节目广播数据的处理,以及提取包含即使在 观众不会从收到的广播数据中观看广播。 因此,可以实现从多个输入源同时接收的数字广播数据的接收装置,并且从显示从一个输入源提供的数字广播数据的同时获得包括在从一个输入源提供的数字广播数据中的必要数据, 另一个输入源,在电视接收机上。
    • 4. 发明申请
    • Data consistency detection device, data consistency detection method and data selection device
    • 数据一致性检测装置,数据一致性检测方法和数据选择装置
    • US20050004901A1
    • 2005-01-06
    • US10880665
    • 2004-07-01
    • Norihiko MizobataKoichi Tsutsumi
    • Norihiko MizobataKoichi Tsutsumi
    • H04N7/08G06F7/00H04J3/00H04N5/00H04N7/081H04N7/24H04N21/434
    • H04N21/434
    • A first memory stores in advance, in an address assigned to each of possible values that each of the plurality of data segments can have, reference data which indicates that the possible value is consistent with the detection condition (“consistency”) or reference data which indicates that the possible value is inconsistent with the detection condition (“inconsistency”) based on the detection condition. A data extraction section sequentially extracts a data segment from the input data to supply an address corresponding to a value of the extracted data segment to the first memory. The first memory outputs reference data stored in the address supplied from the data extraction section. A determination section determines whether or not the input data is consistent with the detection condition based on the reference data output from the first memory.
    • 第一存储器预先存储分配给多个数据段中的每一个可能具有的每个可能值的地址,指示可能值与检测条件(“一致性”)或参考数据一致的参考数据,其中 表示可能的值与基于检测条件的检测条件(“不一致”)不一致。 数据提取部分从输入数据中顺序地提取数据段,以将提取的数据段的值提供给第一存储器。 第一存储器输出存储在从数据提取部分提供的地址中的参考数据。 确定部分基于从第一存储器输出的参考数据来确定输入数据是否与检测条件一致。
    • 5. 发明授权
    • Workstation for displaying dynamic image with real-time special effects
    • 用于显示具有实时特效的动态图像的工作站
    • US5524197A
    • 1996-06-04
    • US944385
    • 1992-09-14
    • Masaru UyaNorihiko MizobataTakuya SayamaSatoshi TakahashiTakeshi IchiseTakeshi KawanoTaizo Tsujimoto
    • Masaru UyaNorihiko MizobataTakuya SayamaSatoshi TakahashiTakeshi IchiseTakeshi KawanoTaizo Tsujimoto
    • G06F3/14G06F3/048G06F3/153G06T3/00G06T11/00G06T13/00G06T13/20G06T13/80G09G5/06G09G5/14G09G5/36G06F15/00
    • G09G5/14G06T11/00G09G5/06G09G2340/125
    • A dynamic-image displaying workstation provided with a display device for displaying an image, a video signal processing circuit for outputting dynamic-image data representing a dynamic image corresponding to a video signal, a first dual port memory for receiving and storing the dynamic-image data outputted from the video signal processing circuit, a second dual port memory for storing data representing pixels of an image to be displayed by the display device, and a third dual port memory for storing data representing a window area. The window area is an area of a window, to which the dynamic-image belongs, and is not covered by any other windows. The workstation is further provided with a fourth dual port memory for storing data representing a dynamic-image display effective area corresponding to the dynamic image represented by the dynamic-image stored in the first dual port memory, a data selector for receiving data read from the first dual port memory at a first input terminal thereof, and data read from the second dual port memory at a second input terminal thereof, for selecting one of the third and fourth dual port memories and receiving data read from the selected dual port memory at a third input terminal thereof, for selecting the data received at the first input terminal thereof if the data read from the third dual port memory is the data representing the window area, and the data read from the third dual port memory is the data representing the dynamic-image display effective area, for selecting the data received at the second input terminal thereof and for outputting a signal representing the selected data to the display device.
    • 一种具有显示图像的显示装置的动态图像显示工作站,用于输出表示对应于视频信号的动态图像的动态图像数据的视频信号处理电路,用于接收和存储动态图像的第一双端口存储器 从视频信号处理电路输出的数据,用于存储表示要由显示装置显示的图像的像素的数据的第二双端口存储器,以及用于存储表示窗口区域的数据的第三双端口存储器。 窗口区域是动态图像所属的窗口区域,不被任何其他窗口覆盖。 该工作站还设置有第四双端口存储器,用于存储表示与由存储在第一双端口存储器中的动态图像表示的动态图像相对应的动态图像显示有效区域的数据,用于接收从第一双端口存储器读取的数据的数据选择器 在其第一输入端处的第一双端口存储器,以及在其第二输入端从第二双端口存储器读取的数据,用于选择第三和第四双端口存储器中的一个并且接收从所选择的双端口存储器读取的数据 如果从第三双端口存储器读取的数据是表示窗口区域的数据,并且从第三双端口存储器读取的数据是表示动态的数据的数据,则用于选择在其第一输入端子接收的数据 - 图像显示有效区域,用于选择在其第二输入端接收的数据,并将表示所选数据的信号输出到di 喷射装置
    • 7. 发明申请
    • Start time reduction device and electronic device
    • 启动时间减少装置和电子装置
    • US20060184780A1
    • 2006-08-17
    • US10548290
    • 2004-04-16
    • Mikihiko YamadaNorihiko MizobataTaku Arakawa
    • Mikihiko YamadaNorihiko MizobataTaku Arakawa
    • G06F15/177
    • G06F9/4403
    • With a temporary operating unit being operating, a user provides a boot timing using a boot timing instructing unit. This causes a CPU to compute a boot preparation timing based on the boot timing, and store the boot timing and boot preparation timing to a boot timing memory. At this time, a timer begins a time-keeping operation. After that, the user turns off the power to the temporary operating unit. A boot preparation instructing unit determines whether or not the time being measured by the timer coincides with the boot preparation timing stored in the boot timing memory. When the time measured by the timer coincides with the boot preparation timing stored in the boot timing memory, the boot preparation instructing unit provides the CPU with a boot preparation instruction. This turns on the power to the temporary operating unit, and the CPU performs a boot preparation.
    • 在操作临时操作单元的情况下,用户使用引导定时指令单元提供启动定时。 这导致CPU基于引导定时计算引导准备定时,并将引导定时和引导准备时序存储到引导定时存储器。 此时,定时器开始计时操作。 之后,用户关闭临时操作单元的电源。 引导准备指示单元确定定时器测量的时间是否与存储在引导定时存储器中的引导准备定时一致。 当由定时器测量的时间与存储在引导定时存储器中的引导准备定时一致时,引导准备指令单元向CPU提供引导准备指令。 这将打开临时操作单元的电源,并且CPU执行启动准备。
    • 8. 发明授权
    • Stream processor
    • US07054989B2
    • 2006-05-30
    • US10210096
    • 2002-08-02
    • Norihiko Mizobata
    • Norihiko Mizobata
    • G06F13/00
    • H04N5/765H04N5/775
    • The stream processor of the present invention includes: a selection section and first to fifth processing sections. In the selection section, a plurality of inputs are associated with a plurality of outputs according to control from outside so that streams sent to the plurality of inputs are passed to the associated outputs. The first processing section sends a first stream to the first input among the plurality of inputs. The second processing section sends a second stream to the second input among the plurality of inputs. The third processing section receives a stream from the first output among the plurality of outputs. The fourth processing section receives a stream from the second output among the plurality of outputs. The fifth processing section receives a stream from the third output among the plurality of outputs, subjects the received stream to predetermined processing, and sends the processed stream to the third input among the plurality of inputs.