会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明授权
    • Arrangement for controlling network proxy device traffic on a
transparently-bridged local area network using a master proxy device
    • 用于使用主代理设备在透明桥接的局域网上控制网络代理设备流量的布置
    • US6061728A
    • 2000-05-09
    • US318431
    • 1999-05-25
    • Andrew Joseph MeadFrank Gerard BordonaroJohn LautmannScott Allen BalesUwe Sellentin
    • Andrew Joseph MeadFrank Gerard BordonaroJohn LautmannScott Allen BalesUwe Sellentin
    • G06F13/00
    • H04L12/462
    • A transparently-bridged wide area network connecting Ethernet/IEEE 802.3-based local area networks uses redundant proxy devices on each LAN for internetwork communications. The proxy devices on a given LAN, implemented as data link switching (DLSw) devices, identify amongst each other a master proxy device for mediating services to be provided to an end station on the local area network. Each proxy device connected to the local area network sends a request to the identified master proxy device in response to detecting a frame transmitted by an end station on the local area network, for permission to establish a circuit connection for transfer of the frame via a wide area network. The master proxy device, based on prescribed criteria, selects one of the proxy devices for transferring the frame, and sends a grant response to the selected proxy device. The master proxy device sends an "inuse" response as a denial response to the other proxy devices indicating the corresponding request has been denied, thereby avoiding contention for proxy services. Databases within the proxy devices track the request, grants, and denials to minimize generation of repeated requests. The inventory of granted requests may also be modified based on failures detected within the master proxy device, or any proxy device having received grants. Hence, redundant DLSw-type proxy devices may be implemented on a local area network while maintaining a stable and a robust communications system.
    • 连接以太网/ IEEE 802.3的局域网的透明桥接广域网在每个LAN上使用冗余代理设备进行互联网通信。 实现为数据链路交换(DLSw)设备的给定LAN上的代理设备在彼此之间识别主代理设备,用于中介要提供给局域网上终端站的服务。 连接到局域网的每个代理设备响应于检测到由局域网上的终端站发送的帧来向所识别的主代理设备发送请求,以允许建立用于经由宽的传输帧的电路连接 区域网络。 主代理设备基于规定的标准,选择一个代理设备来传送该帧,并向所选择的代理设备发送授权响应。 主代理设备发送“使用”响应作为对其他代理设备的拒绝响应,指示相应的请求已经被拒绝,从而避免了代理服务的争用。 代理设备内的数据库跟踪请求,授予和拒绝以最小化重复请求的生成。 授权请求的清单也可以基于在主代理设备或已经接收到授权的任何代理设备中检测到的故障来修改。 因此,可以在局域网上实现冗余的DLSw型代理设备,同时保持稳定和健壮的通信系统。
    • 3. 发明授权
    • Using context-sensitive intelligent diffs to modify router configurations
    • 使用上下文敏感的智能差异来修改路由器配置
    • US07287069B1
    • 2007-10-23
    • US10322850
    • 2002-12-18
    • Ramanathan KavasseriSankha BasuPraveen JoshiShankar NatarajanJohn LautmannRichard Pratt
    • Ramanathan KavasseriSankha BasuPraveen JoshiShankar NatarajanJohn LautmannRichard Pratt
    • G06F15/177
    • H04L41/22H04L41/0816
    • Methods and devices are disclosed for changing the configuration state of a network device such as a router, a switch or a similar device without the need for a person to interpret a textual diff. According to some aspects of the invention, a programmatic diff file that includes the output of two comparisons is used as an input file to a program that “rolls back” the current configuration state to a prior configuration state. According to other aspects of the invention, the output of a single comparison is input to an “incremental diff” process, which adds new commands to a configuration state. According to preferred aspects of the invention, the output files generated by the comparison processes preserve the hierarchical context of each command in a programmatic format that is usable as direct input by the network device or by another device (such as a host controlled by a network administrator) that performs the incremental diff.
    • 公开了用于改变诸如路由器,交换机或类似设备的网络设备的配置状态的方法和设备,而不需要人解释文本差异。 根据本发明的一些方面,包括两个比较的输出的程序化差异文件被用作向当前配置状态“回滚”到先前配置状态的程序的输入文件。 根据本发明的其他方面,单个比较的输出被输入到“增量差分”过程,其将新的命令添加到配置状态。 根据本发明的优选方面,由比较过程产生的输出文件以编程格式保存每个命令的分层上下文,该格式可用作网络设备或另一设备(例如由网络控制的主机)的直接输入 管理员)执行增量差异。
    • 4. 发明授权
    • Protocol to coordinate network end points to measure network latency
    • 协调网络端点以测量网络延迟的协议
    • US06662223B1
    • 2003-12-09
    • US09346080
    • 1999-07-01
    • Kui ZhangSatyanarayana R. RaparlaJohn Lautmann
    • Kui ZhangSatyanarayana R. RaparlaJohn Lautmann
    • G06F15173
    • H04L41/5009H04L41/0213H04L41/5003H04L43/0829H04L43/087H04L69/16H04L69/28
    • The invention provides a control mechanism that enables a destination router to authenticate response time requests issued by a source router before providing the requests to service software for processing. The control mechanism comprises a Network Endpoint Control Protocol (NECP) message format that is exchanged between the source and destination routers when measuring response time throughout the network. The NECP message format encapsulates a Command Length Status Data (CLSD) message that actually holds the response time requests. A collector router issues a novel control message to a responder router over a default responder port. If the responder is enabled for encryption communication, it will decrypt the control message according to the specified key and algorithm. If the responder is not so configured, it will check a conventional ACL to determine whether the client is authorized to communicate with the server. If permitted, the responder then responds to the collector in a manner dependent upon the particular protocol. In the case of a request to enable a UDP port for a particular time period, the responder processes a request and then sends back an acknowledgment to the collector. The collector receives the acknowledgment and then sends out a UDP probe packet to the responder. The responder then “echoes” the packet back to the collector, which keeps the result.
    • 本发明提供了一种控制机制,其使得目的路由器能够在向处理服务软件提供请求之前,验证源路由器发出的响应时间请求。 控制机制包括当测量整个网络的响应时间时,在源路由器和目的地路由器之间交换的网络端点控制协议(NECP)消息格式。 NECP消息格式封装了实际保存响应时间请求的命令长度状态数据(CLSD)消息。 收集器路由器通过默认响应端口向响应者路由器发出新颖的控制消息。 如果响应者启用加密通信,则会根据指定的密钥和算法对控制消息进行解密。 如果响应者未配置,则会检查传统的ACL,以确定客户端是否被授权与服务器进行通信。 如果允许,则响应者以取决于特定协议的方式响应于收集器。 在特定时间段内启用UDP端口的请求的情况下,响应者处理请求,然后将确认发回给收集器。 收件人收到确认,然后向响应者发出一个UDP探测包。 然后响应者将数据包“回显”回收集器,从而保持结果。
    • 5. 发明授权
    • Directory services network management locator
    • 目录服务网络管理定位器
    • US06560644B1
    • 2003-05-06
    • US09396958
    • 1999-09-15
    • John LautmannMark Denny
    • John LautmannMark Denny
    • G05F15173
    • H04L41/0213
    • A complete management system for specialized routers such as, for example, DLSw routers is provided. The management system uses a server to maintain a DLSw Directory, for example an LDAP directory. Whenever a DLSw router is booted, the DLSw router sends a registration message to the Server giving the network address of the DLSw router. The Server then maintains a directory of all DLSw routers in the network (the DLSw Directory). The information maintained in the DLSw Directory has the network address of each DLSw router, as received when the router is booted up. Also, at later times, the DLSw router sends a message to the DLSw Directory giving further information about the DLSw router. The further information comprises data such as: the types of encapsulation being received and routed by the router, etc.
    • 提供了一种完整的专用路由器管理系统,例如DLSw路由器。 管理系统使用服务器来维护DLSw目录,例如LDAP目录。 每当DLSw路由器被引导时,DLSw路由器向发出DLSw路由器的网络地址的服务器发送注册消息。 然后,服务器将维护网络中所有DLSw路由器的目录(DLSw目录)。 在DLSw目录中保存的信息具有每个DLSw路由器的网络地址,当路由器启动时接收。 此外,在稍后的时间,DLSw路由器向DLSw目录发送消息,提供有关DLSw路由器的更多信息。 进一步的信息包括诸如:由路由器接收和路由的封装类型等的数据
    • 9. 发明授权
    • Directory services caching for network peer to peer service locator
    • 用于网络对等服务定位器的目录服务缓存
    • US06680942B2
    • 2004-01-20
    • US09347512
    • 1999-07-02
    • Andrew MeadArunkumar ThippeswamyJohn LautmannMark DennyScott Bales
    • Andrew MeadArunkumar ThippeswamyJohn LautmannMark DennyScott Bales
    • H04L1256
    • H04L61/1523H04L29/12018H04L45/00H04L61/10H04L61/1517
    • A new directory service is established for a peer router receiving a data packet from an end station on a local area network connected to a port of the peer router, the peer router hereinafter being referred to as the source router. The data packet is addressed to a destination address. The source router determines that the data packet is to be encapsulated as an encapsulated packet, and the encapsulated packet routed by a peer-to-peer protocol to a destination router. The destination router then transmits the packet onto a local area network to the destination address. The source router locates the proper peer destination router by use of a database. The database is maintained on a server, where the database has entries for destination address, and an entry for a particular destination address gives the address of a peer router capable of routing a packet to that particular destination address. The database is populated by peer routers updating the database with information concerning the destination address which the peer routers can reach. The database on the server is interrogated by the source router to learn the address of a destination peer router, and an encapsulated packet is then transmitted onto a connectionless network for transmission to the destination router. The peer-to-peer routing protocol may be DLSw protocol. The database may be maintained in accordance with the X.500 directory standard. The database may be interrogated using the lightweight data access protocol (LDAP).
    • 为对等体路由器建立新的目录服务,该对等体路由器从连接到对等路由器的端口的局域网上的终端站接收数据分组,该对等体路由器在下文中称为源路由器。 数据包被寻址到目的地址。 源路由器确定数据包将被封装为封装的数据包,并且封装的数据包通过对等协议路由到目标路由器。 然后目的路由器将分组发送到局域网到目的地址。 源路由器通过使用数据库定位正确的对等目的地路由器。 数据库被维护在服务器上,其中数据库具有用于目的地地址的条目,并且用于特定目的地地址的条目给出能够将分组路由到该特定目的地地址的对等路由器的地址。 数据库由对等路由器填充,通过对等路由器可以达到的目的地址信息更新数据库。 源路由器询问服务器上的数据库,以学习目的地对等路由器的地址,然后将封装的数据包发送到无连接网络,以传输到目标路由器。 对等路由协议可以是DLSw协议。 可以根据X.500目录标准维护数据库。 可以使用轻量级数据访问协议(LDAP)来询问数据库。