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    • 1. 发明申请
    • Dynamic channel allocation method and dynamic channel allocation apparatus
    • 动态信道分配方法和动态信道分配装置
    • US20070129080A1
    • 2007-06-07
    • US11392776
    • 2006-03-30
    • Masato OkudaTakashi Hatano
    • Masato OkudaTakashi Hatano
    • H04Q7/20
    • H04W16/10H04W72/0406H04W72/0413H04W72/082H04W92/20
    • (1) Base stations are divided into base station groups which do not mutually interfere with one another. (2) Priorities of the use of channels are set for each base station group, and each base station holds a priority table showing the priorities of the use of channels. (3) Each base station derives a channel to request, and informs about the channel to adjacent base stations. (4) When the requested channel of the base station overlaps with a requested channel of the adjacent base station, each base station refers to the priority table and autonomously judges whether the requested channel can be used or not. Therefore, it is no longer necessary to wait for a response to the requested message or to confirm with the adjacent base stations regarding the availability of channels, and reduction of the throughputs and prompt channel allocation are possible.
    • (1)基站分为不相互干扰的基站组。 (2)为每个基站组设置使用信道的优先级,并且每个基站保持显示使用信道优先级的优先级表。 (3)每个基站派生一个信道请求,并通知相邻基站的信道。 (4)当基站的请求信道与相邻基站的请求信道重叠时,每个基站参考优先级表,并自主判断所请求的信道是否可以被使用。 因此,不再需要等待对所请求的消息的响应或者与相邻基站确认信道的可用性,并且可以降低吞吐量并提示信道分配。
    • 2. 发明授权
    • Group III nitride compound semiconductor laser
    • III族氮化物化合物半导体激光器
    • US06801559B2
    • 2004-10-05
    • US10383229
    • 2003-03-07
    • Takashi HatanoSho IwayamaMasayoshi Koike
    • Takashi HatanoSho IwayamaMasayoshi Koike
    • H01S319
    • B82Y20/00H01S5/2004H01S5/209H01S5/22H01S5/34333H01S2301/18
    • A semiconductor laser comprises a sapphire substrate, an AlN buffer layer, Si-doped GaN n-layer, Si-doped Al0.1Ga0.9N n-cladding layer, Si-doped GaN n-guide layer, an active layer having multiple quantum well (MQW) structure in which about 35 Å in thickness of GaN barrier layer 62 and about 35 Å in thickness of Ga0.95In0.55N well layer 61 are laminated alternately, Mg-doped GaN p-guide layer, Mg-doped Al0.25Ga0.75N p-layer, Mg-doped Al0.1Ga0.9N p-cladding layer, and Mg-doped GaN p-contact layer are formed successively thereon. A ridged hole injection part B which contacts to a ridged laser cavity part A is formed to have the same width as the width w of an Ni electrode. Because the p-layer has a larger aluminum composition, etching rate becomes smaller and that can prevent from damaging the p-guide layer in this etching process.
    • 半导体激光器包括蓝宝石衬底,AlN缓冲层,Si掺杂GaN n层,Si掺杂的Al 0.1 Ga 0.9 N n包层,Si掺杂的GaN n引导层,具有多个量子阱的有源层 (MQW)结构,其中GaN阻挡层62的厚度约为35,Ga0.95In0.55N阱层61的厚度约为35,Mg掺杂的GaN引导层,Mg掺杂的Al0.25Ga0 在其上依次形成了.75N p层,Mg掺杂的Al 0.1 Ga 0.9 N p包覆层和掺杂Mg的GaN p接触层。 与脊状激光腔部A接触的脊状空穴注入部B形成为与Ni电极的宽度w相同的宽度。 因为p层具有较大的铝组成,所以蚀刻速率变小,并且可以防止在该蚀刻工艺中损坏p导向层。
    • 4. 发明授权
    • ATM node and routing data registering apparatus
    • ATM节点和路由数据登记装置
    • US5805592A
    • 1998-09-08
    • US624941
    • 1996-03-22
    • Takashi Hatano
    • Takashi Hatano
    • H04Q3/00H04L12/741H04L12/775H04L12/801H04L12/911H04Q11/04H04L12/56
    • H04L49/309H04Q11/0478
    • A CPU sets one of first and second memories as an "active system memory" and the other as a "standby system memory". Data about a combination of the VPI/VCI and TAG data is registered in and deleted from only the memory set as the "active system memory". The CPU, only when a null entry exists in a position satisfying a VPI/VCI increasing sequence with an increased address value, registers this null entry in the active system memory with data about new combination of the VPI/VCI and the TAG data. Whereas if there is no such null entry, the CPU reads the data about all the combinations of the VPI/VCI and the TAG data which are registered in the active system memory, re-sorts the read data and the data about the new combinations in the VPI/VCI increasing sequence and write the data from the head address in the standby system memory in a sorting sequence. The CPU, when finishing this writing process, resets the memory so far working as the standby system to an active system memory and the memory so far working as the active system to a standby system memory.
    • CPU将第一和第二存储器之一设置为“活动系统存储器”,将另一个设置为“备用系统存储器”。 关于VPI / VCI和TAG数据的组合的数据被登记在仅作为“活动系统存储器”的存储器中并从其中删除。 CPU只有当满足具有增加的地址值的VPI / VCI增加序列的位置中存在空条目时,才会向活动系统存储器中注册有关VPI / VCI和TAG数据的新组合的数据。 而如果没有这样的空条目,则CPU读取关于在活动系统存储器中注册的VPI / VCI和TAG数据的所有组合的数据,将读取的数据和关于新组合的数据重新排序 VPI / VCI增加序列,并以排序顺序从备用系统存储器中的头地址写入数据。 CPU在完成此写入过程时,将到目前为止的内存重置为备用系统到活动系统内存,并将存储器作为当前系统工作到备用系统内存。
    • 6. 发明授权
    • Data transfer method performed in a data processor provided in a
switching system
    • 在交换系统中提供的数据处理器中执行的数据传输方法
    • US5271009A
    • 1993-12-14
    • US655054
    • 1991-02-14
    • Ryouzi TakanoKiyohumi MitsuzeTakashi NaraTakashi HatanoSumie Morita
    • Ryouzi TakanoKiyohumi MitsuzeTakashi NaraTakashi HatanoSumie Morita
    • H04L29/02H04L13/08H04L29/06H04J3/24
    • H04L29/06
    • A packet data and a header added to a head of the packet data for specifying a transfer condition of the packet data are divided together to data blocks (DBs) each having a designated data length, consisting of an initial DB including the header and an initial part of the packet data, intermediate DBs each including an intermediate part of the packet data and a last DB including a last part of the packet data, so as to be transferred to a data transfer destination in a data processor of a switching system in accordance with write commands for the initial, intermediate and last DBs respectively, and a read command for asking whether the DBs are correctly transferred is sent to the data transfer destination once, after the DBs are transferred. When the DBs are transferred, the packet data is restored at the data transfer destination only by synthesizing the transferred DBs and removing the header.
    • 分组数据和添加到用于指定分组数据的传送条件的分组数据的头部的分组数据和标题被分割为每个具有指定数据长度的数据块(DB),其由包括报头的初始DB和初始 分组数据的一部分,每个包括分组数据的中间部分的中间DB和包括分组数据的最后部分的最后一个DB,以便根据切换系统的数据处理器被传送到数据传送目的地 分别用于初始,中间和最后一个DB的写入命令,以及一个用于询问DB是否被正确传输的读取命令在传输DB之后被发送到数据传输目的地一次。 当DB被传送时,仅通过合成所传送的DB并且去除标题来在数据传送目的地恢复分组数据。
    • 7. 发明申请
    • IMAGE FORMING APPARATUS
    • 图像形成装置
    • US20130222457A1
    • 2013-08-29
    • US13773733
    • 2013-02-22
    • Kikuya NakadaMasato OgawaTakashi Hatano
    • Kikuya NakadaMasato OgawaTakashi Hatano
    • B41J11/00
    • B41J11/0095B41J11/0075B41J15/02
    • An image forming apparatus includes a medium that is a long roll wound around a core member; a feeding unit configured to feed the medium; an image forming unit configured to form an image on the medium; a fixed roll end detecting unit configured to detect an end of the medium whose end is fixed to the core member; a determining unit configured to determine whether to stop, for a time period, the medium on which the image has been formed by the image forming unit, when the fixed roll end detecting unit detects the end of the medium; and a control unit configured to stop an operation of the feeding unit when the determining unit determines to stop the medium for the time period, and to cause the feeding unit to perform an operation of winding back the medium when the time period has elapsed.
    • 图像形成装置包括卷绕在芯部件上的长卷筒的介质; 供给单元,其构造成供给所述介质; 图像形成单元,被配置为在介质上形成图像; 固定卷端检测单元,被配置为检测端部固定到所述芯构件的介质的端部; 确定单元,被配置为当所述固定卷端检测单元检测到所述介质的结束时,确定是否在所述图像形成单元中停止已经在其上形成图像的介质的时间段; 以及控制单元,其被配置为当所述确定单元确定在所述时间段内停止所述介质时停止所述馈送单元的操作,并且使得所述馈送单元在所述时间段过去时执行卷绕所述介质的操作。