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    • 1. 发明申请
    • Data communication control device
    • 数据通信控制装置
    • US20090248903A1
    • 2009-10-01
    • US12382748
    • 2009-03-23
    • Satoru NishitaOgawa Yuichi
    • Satoru NishitaOgawa Yuichi
    • G06F3/00
    • G06F13/28
    • A data communication control device. The data communication control device includes, a controller comprising a first data storing part, the first data storing part including multiple channels, each channel being applied to store a command for data transfer based on a destination of data, the controller executing the command stored in the channel from the head to transfer data and, an overall controller storing the command in the channel of the first data storing part when the number of commands in a certain channel is not over a upper limit, and stopping to store the command in the channel of the first data storing part and creating a second data storing part and storing the command in the second data storing part when the number of commands in a certain channel is over the upper limit.
    • 数据通信控制装置。 数据通信控制装置包括:控制器,包括第一数据存储部分,第一数据存储部分包括多个信道,每个信道被应用以存储基于数据目的地的数据传输命令,控制器执行存储在 从头部传送数据的通道,以及当特定通道中的命令数量不超过上限时将命令存储在第一数据存储部分的通道中的总体控制器,并且停止将命令存储在通道中 的第一数据存储部分,并且当特定频道中的命令数超过上限时,创建第二数据存储部分并将该命令存储在第二数据存储部分中。
    • 2. 发明授权
    • Automatic drive control system for a bulldozer
    • 推土机自动驱动控制系统
    • US5462122A
    • 1995-10-31
    • US265720
    • 1994-06-24
    • Shigeru YamamotoShigenori MatsushitaShu H. ZhangSatoru NishitaKazushi Nakata
    • Shigeru YamamotoShigenori MatsushitaShu H. ZhangSatoru NishitaKazushi Nakata
    • E02F3/85E02F3/84F16H61/02E02F3/76E02F3/00
    • E02F3/842F16H61/0213
    • An automatic drive control system for a bulldozer comprising a digging start detector for detecting that the bulldozer is in a digging start position, a digging end detector for detecting that the bulldozer is in a digging end position, a driving direction detector for detecting the momentarily varying driving direction of the bulldozer, and a drive controller for shifting a transmission into a forward gear when the digging start detector detects that the bulldozer is presently in the digging start position; shifting the transmission into a reverse gear when the digging end detector detects that the bulldozer is presently in the digging end position; and controlling the bulldozer such that the driving direction detected by the driving direction detector is made coincident with a target driving direction when the bulldozer is moving from the digging start position towards the digging end position.
    • 一种用于推土机的自动驱动控制系统,包括用于检测推土机处于挖掘开始位置的挖掘起动检测器,用于检测推土机处于挖掘结束位置的挖掘端检测器,用于检测瞬时变化的驱动方向检测器 以及驱动控制器,用于当挖掘开始检测器检测到推土机当前处于挖掘开始位置时将变速器换档到前进挡; 当挖掘端检测器检测到推土机当前处于挖掘结束位置时,将变速器转换成倒档; 并且当推土机从挖掘开始位置朝向挖掘结束位置移动时,控制推土机使得由行驶方向检测器检测到的行驶方向与目标驱动方向一致。
    • 3. 发明申请
    • STORAGE APPARATUS AND CONTROL METHOD FOR STORAGE APPARATUS
    • 存储设备的存储设备和控制方法
    • US20120159265A1
    • 2012-06-21
    • US13279491
    • 2011-10-24
    • Satoru NISHITAYukio Nishimura
    • Satoru NISHITAYukio Nishimura
    • G06F11/14
    • G06F11/1443G06F11/10G06F11/2089H04L1/18
    • A first controller stores externally input data to a memory of the first controller, reads data stored in the memory of the first controller and transmits the data to a second controller through a first controller bridge, detects a failure at the first controller bridge in transmission of the data. The second controller receives the data through a second controller bridge, writes the received data into a memory of the second controller, and determines whether the failure is caused by the first controller if a failure occurs in the memory controller and the second controller bridge. If a failure is detected in the first controller and the second controller and the failure is caused by the first controller, the first controller transmits the data causing the failure during transmission through the first controller bridge and the second controller receives the data through the second controller bridge.
    • 第一控制器将外部输入数据存储到第一控制器的存储器中,读取存储在第一控制器的存储器中的数据,并通过第一控制器桥将数据发送到第二控制器,在第一控制器桥传输期间检测故障 数据。 第二控制器通过第二控制器桥接器接收数据,将接收到的数据写入第二控制器的存储器,并且如果在存储器控制器和第二控制器桥中发生故障,则确定是否由第一控制器引起故障。 如果在第一控制器和第二控制器中检测到故障,并且由第一控制器引起故障,则第一控制器在通过第一控制器桥传输期间发送导致故障的数据,并且第二控制器通过第二控制器接收数据 桥。
    • 5. 发明授权
    • Control unit for controlling load on a bulldozer in the case of manual
intervention
    • 用于在手动干预的情况下控制推土机负载的控制单元
    • US5515927A
    • 1996-05-14
    • US255725
    • 1994-06-07
    • Shigenori MatsushitaShu H. ZhangShigeru YamamotoSatoru NishitaKazushi Nakata
    • Shigenori MatsushitaShu H. ZhangShigeru YamamotoSatoru NishitaKazushi Nakata
    • E02F3/85E02F9/20A01B67/00
    • E02F9/2029
    • A control unit for controlling load on a bulldozer in the case of manual intervention, comprising: an actual tractive force detector for detecting the actual tractive force of a vehicle body; a target tractive force setting device for setting a target tractive force for an automatic blade control mode in dozing operation according to the actual tractive force detected by the actual tractive force detector; and a blade controller for controlling a blade to be lifted or lowered such that, if there is a difference between the target tractive force set by the target tractive force setting device when switching from the automatic blade control mode to a manual operation mode takes place in dozing operation and the actual tractive force detected by the actual tractive force detector when return from the manual operation mode to the automatic blade control mode takes place, the actual tractive force gradually comes closer to the target tractive force set when switching to the manual operation mode takes place.
    • 一种用于在手动干预的情况下控制推土机上的载荷的控制单元,包括:用于检测车身的实际牵引力的实际牵引力检测器; 目标牵引力设定装置,用于根据由实际牵引力检测器检测到的实际牵引力,在打瞌睡操作中设定用于自动叶片控制模式的目标牵引力; 以及用于控制叶片被提升或降低的刀片控制器,使得如果在从自动刀片控制模式切换到手动操作模式时由目标牵引力设定装置设定的目标牵引力之间存在差异,则发生 当从手动操作模式返回到自动叶片控制模式时,实际的牵引力检测器检测到的打瞌睡操作和实际牵引力发生,当切换到手动操作模式时,实际牵引力逐渐接近设定的目标牵引力 发生。
    • 6. 发明授权
    • Storage apparatus and control method for storage apparatus
    • 存储装置的存储装置和控制方法
    • US08572428B2
    • 2013-10-29
    • US13279491
    • 2011-10-24
    • Satoru NishitaYukio Nishimura
    • Satoru NishitaYukio Nishimura
    • G06F11/00
    • G06F11/1443G06F11/10G06F11/2089H04L1/18
    • A first controller stores externally input data to a memory of the first controller, reads data stored in the memory of the first controller and transmits the data to a second controller through a first controller bridge, detects a failure at the first controller bridge in transmission of the data. The second controller receives the data through a second controller bridge, writes the received data into a memory of the second controller, and determines whether the failure is caused by the first controller if a failure occurs in the memory controller and the second controller bridge. If a failure is detected in the first controller and the second controller and the failure is caused by the first controller, the first controller transmits the data causing the failure during transmission through the first controller bridge and the second controller receives the data through the second controller bridge.
    • 第一控制器将外部输入数据存储到第一控制器的存储器中,读取存储在第一控制器的存储器中的数据,并通过第一控制器桥将数据发送到第二控制器,在第一控制器桥传输期间检测故障 数据。 第二控制器通过第二控制器桥接器接收数据,将接收到的数据写入第二控制器的存储器,并且如果在存储器控制器和第二控制器桥中发生故障,则确定是否由第一控制器引起故障。 如果在第一控制器和第二控制器中检测到故障,并且由第一控制器引起故障,则第一控制器在通过第一控制器桥传输期间发送导致故障的数据,并且第二控制器通过第二控制器接收数据 桥。
    • 7. 发明申请
    • COMMUNICATION APPARATUS AND ID SETTING METHOD
    • 通信设备和ID设置方法
    • US20130054867A1
    • 2013-02-28
    • US13572334
    • 2012-08-10
    • Satoru NISHITA
    • Satoru NISHITA
    • G06F13/14
    • G06F13/14G06F13/36G06F13/4022
    • A communication apparatus includes a control device having a conversion device which separates first and second domains being a formation unit of a network using serial connect bus, and which converts a first requester ID which discriminates a root device for generating a packet and which is included in the packet generated in the first domain into a unique second requester ID used in the second domain, and a root device which belongs to the first domain and sets the first requester ID in the conversion device; a switch connected to the second domain side of the conversion device included in the control device; and a root device which belongs to the second domain and sets the second requester ID in the conversion device via the switch.
    • 通信装置包括具有转换装置的控制装置,该转换装置使用串行连接总线分离作为网络的形成单元的第一和第二域,并且转换鉴别用于生成分组的根设备的第一请求者ID,并且包括在 将在第一域中生成的分组转换为在第二域中使用的唯一的第二请求者ID,以及属于第一域的根设备,并在转换设备中设置第一请求者ID; 连接到包括在控制装置中的转换装置的第二域侧的开关; 以及属于第二域的根设备,并且经由交换机在转换设备中设置第二请求者ID。
    • 10. 发明授权
    • Multi-core processor, control method thereof, and information processing apparatus
    • 多核处理器,其控制方法和信息处理装置
    • US08307141B2
    • 2012-11-06
    • US12574337
    • 2009-10-06
    • Satoru NishitaYukio Nishimura
    • Satoru NishitaYukio Nishimura
    • G06F13/14G06F15/167G06F9/54
    • G06F15/167G06F9/544G06F12/084
    • A multi-core processor which includes a plurality of processor dies. The multi-core processor has a first processor core which processes a first task and a second processor core which processes a second task. The first processor core and the second processor core are formed on each of the plurality of processor dies. When the first processor core makes a request for the second task processing in processing the first task, information on the second task is stored in a memory area used by the first processor core and interrupt notification is made to each of the second processor cores provided respectively on the plurality of processor dies. Each of the second processor cores having received the interrupt notification accesses the memory area used by the first processor core provided on the same processor die as the processor die on which the second processor core is provided.
    • 一种包括多个处理器管芯的多核处理器。 多核处理器具有处理第一任务的第一处理器核和处理第二任务的第二处理器核。 第一处理器核心和第二处理器核心形成在多个处理器管芯中的每一个上。 当第一处理器核心在处理第一任务时请求第二任务处理时,关于第二任务的信息被存储在由第一处理器核心使用的存储区域中,并且分别对分别提供的每个第二处理器核心进行中断通知 在多个处理器管芯上。 已经接收到中断通知的第二处理器核心中的每一个访问由与提供第二处理器核心的处理器管芯相同的处理器管芯上提供的第一处理器核心使用的存储器区域。