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    • 4. 发明授权
    • Mail terminal equipment
    • 邮件终端设备
    • US5758082A
    • 1998-05-26
    • US665951
    • 1996-06-19
    • Kazuma YumotoNaoko IwamiTohru HoshiToshiaki Koyama
    • Kazuma YumotoNaoko IwamiTohru HoshiToshiaki Koyama
    • G06F3/16G06F3/048G06F13/00H04M3/53H04N1/00H04N1/32G06F17/00
    • H04M3/5307
    • In mail terminal equipment for receiving and reproducing a mail which has been produced using multi-media data containing a plurality of continuous audio data and a plurality of drawing data synchronized with at least a part of the audio data and has been transmitted thereto. Where reproduction of the drawing data is later than that if the audio data, the drawing data is synchronized with the audio data without interrupting reproduction of the audio data. When the drawing data still remains which at certain timing (e.g., timing when supplementing the audio data to a audio buffer for storing the audio data waiting for reproduction), should be reproduced until that time point, but is not reproduced resulting from the delay of reproduction of the drawing data due to the drawing processing, the loading situation and the like, the drawing data of interest is skipped so as not to be reproduced, and the next drawing data is reproduced.
    • 在用于接收和再现已经使用包含多个连续音频数据的多媒体数据产生的邮件的邮件终端设备和与至少一部分音频数据同步的多个绘图数据,并且已经发送到该邮件终端设备。 如果绘图数据的再现晚于音频数据的再现,则绘图数据与音频数据同步而不中断音频数据的再现。 当绘图数据仍然保持在某一定时(例如,当将音频数据补充到用于存储等待再现的音频数据的音频缓冲器的定时)时,应该再现直到那个时间点,但是不会由于延迟 由于绘图处理,加载情况等导致的绘图数据的再现,所以跳过所关注的绘制数据以便不被再现,并且再现下一个绘图数据。
    • 6. 发明申请
    • GATEWAY APPARATUS
    • 网关设备
    • US20090049180A1
    • 2009-02-19
    • US12184352
    • 2008-08-01
    • Nami EIHirofumi MasukawaHitoshi YoshidaKazuma Yumoto
    • Nami EIHirofumi MasukawaHitoshi YoshidaKazuma Yumoto
    • G06F15/16
    • H04L67/14H04L67/02H04L67/28
    • Even when all of usable sessions are in use, a communication can be established for a new session and the interrupted session is automatically restored. Information on degrees of importance of communication sessions and information of restoration requirement are set in advance and stored in a session importance table in association with identifier (URI) of communication initiating terminals and identifier of destinations of communication. When a connection request for a session having a high degree of importance such as an emergency session is received, the session having the lowest degree of importance is selected and interrupted. Information of the interrupted session such as the communication initiator identifier and the communication destination identifier is stored in a session restoration table. The session is automatically restored as soon as a session resource becomes unoccupied according to the communication initiator identifier and the communication destination identifier stored in the session restoration table.
    • 即使所有可用会话都在使用中,可以为新会话建立通信,并且中断的会话被自动恢复。 与通信发起终端的标识符(URI)和通信目的地的标识符相关联地,预先设置关于通信会话的重要性和恢复要求的信息的信息,并存储在会话重要性表中。 当接收到诸如紧急会话之类的具有高度重要性的会话的连接请求时,选择和中断具有最低重要度的会话。 诸如通信发起者标识符和通信目的地标识符的中断会话的信息被存储在会话恢复表中。 一旦会话资源根据通信发起者标识符和存储在会话恢复表中的通信目的地标识符未被占用,会话被自动恢复。
    • 7. 发明申请
    • NETWORK SYSTEM, NODE DEVICE AND MANAGEMENT SERVER
    • 网络系统,节点设备和管理服务器
    • US20080225731A1
    • 2008-09-18
    • US11964210
    • 2007-12-26
    • Takuro MoriKazuma YumotoHitoshi Yoshida
    • Takuro MoriKazuma YumotoHitoshi Yoshida
    • G06F11/00
    • H04L47/10H04L47/11H04L47/283
    • Erroneous detection of a failure in spite of the absence of failure on the route on account of a communication delay is to be prevented. A node device detects a failure on the route to a remote node device is detected by a failure to receive a packet from the remote node device after the elapse of a determined detection time. The node device sets “remote system transmission interval x detection multiplier” to be a first detecting time on the basis of a packet transmission interval determined by negotiation with the remote node device. It also sets the sum of “remote system actual transmission interval x detection multiplier” and “tolerable delay time” to be a second detecting time. The first detecting time and the second detecting time are compared, and what is longer is determined as the detecting time to be applied to actual operation.
    • 考虑到由于通信延迟而导致路由不存在故障,故障的错误检测是可以防止的。 在经过确定的检测时间之后,通过从远程节点设备接收到分组的故障来检测节点设备检测到到远程节点设备的路由的故障。 基于通过与远程节点设备协商确定的分组传输间隔,节点设备将“远程系统传输间隔x检测乘数”设置为第一检测时间。 它还将“远程系统实际传输间隔x检测乘数”和“容忍延迟时间”的和设置为第二检测时间。 比较第一检测时间和第二检测时间,将更长的时间确定为要应用于实际操作的检测时间。
    • 9. 发明申请
    • Computer system establishing a safe communication path
    • 计算机系统建立安全通信路径
    • US20070113087A1
    • 2007-05-17
    • US11490189
    • 2006-07-21
    • Masahiro YoshizawaKazuma YumotoKazuyoshi Hoshino
    • Masahiro YoshizawaKazuma YumotoKazuyoshi Hoshino
    • H04L9/00
    • H04L29/125H04L9/0841H04L9/0891H04L61/2564H04L63/0428H04L63/164H04L2209/76
    • Provided is a computer system including: a first computer; a second computer including a second processor and a second memory; and a communication controller for controlling communication between the first and second computers, in which: upon reception of a packet from the first computer, the communication controller translates address information of the received packet to transfer the packet to the second computer; the second memory stores SA candidate information as SA information in which a part of the address information is unknown; and the second processor decrypts the packet encrypted by the first computer by using the SA candidate information upon reception of the encrypted packet from the first computer, and creates SA information based on the SA candidate information used for the decryption and the address information of the encrypted packet upon successful decryption of the encrypted packet.
    • 提供一种计算机系统,包括:第一计算机; 包括第二处理器和第二存储器的第二计算机; 以及通信控制器,用于控制第一和第二计算机之间的通信,其中:在从第一计算机接收到分组时,通信控制器翻译所接收分组的地址信息以将分组传送到第二计算机; 第二存储器将SA候选信息存储为其中一部分地址信息未知的SA信息; 并且第二处理器在从第一计算机接收到加密分组时通过使用SA候选信息来解密由第一计算机加密的分组,并且基于用于解密的SA候选信息和加密的地址信息来创建SA信息 成功解密加密分组后的分组。
    • 10. 发明申请
    • Session control system for hierarchical relaying processes
    • 用于分层中继过程的会话控制系统
    • US20050281251A1
    • 2005-12-22
    • US11025973
    • 2005-01-03
    • Kazuma YumotoTakashi MiyamotoTatsuhiko Miyata
    • Kazuma YumotoTakashi MiyamotoTatsuhiko Miyata
    • H04L12/54H04L12/66H04L29/06H04L29/12H04M3/00
    • H04L29/12066H04L29/06027H04L61/1511H04L65/1006H04L65/1043
    • Disclosed here is a method for sending/receiving a message through a session control server disposed in each of hierarchical layers of a network system having a hierarchical structure. To achieve the above object, each of the session control servers is provided with operation mode confirming means for confirming a set operation mode and fixed destination solution means for setting an address so as to relay each received message to a specific address in accordance with the set operation mode. The session control server is also provided with location solution means for registering/managing a public address to be opened to external by a user and a user address given in the sub-domain to which the user belongs actually. Because a parent domain address can be used as an address to be opened to external for operating the session control server, the problems to occur due to a change of the user belonging sub-domain can be hidden from external and the parent domain can manage message traffics collectively.
    • 这里公开了一种通过设置在具有分层结构的网络系统的每个层级中的会话控制服务器来发送/接收消息的方法。 为了实现上述目的,每个会话控制服务器设置有用于确认设置操作模式的操作模式确认装置和用于设置地址的固定目的地解决方案装置,以便根据该集合将每个接收到的消息中继到特定地址 操作模式。 会话控制服务器还设置有用于注册/管理由用户向外部打开的公共地址的位置解决方案和用户所属的子域中给出的用户地址。 因为父域地址可以用作外部操作会话控制服务器的地址,所以由于用户所属子域的变化而发生的问题可以从外部隐藏,父域可以管理消息 集体交通。