Class / Patent application number | Description | Number of patent applications / Date published |
370257000 | In a bus system | 50 |
20080219188 | Home Media Switch - A media switch includes a backplane. A controller module is connected to the backplane for transferring a user command to a media device. A set of audio/video signal busses are connected to the backplane for transferring signals. A power bus is connected to the backplane for supplying power. A bus interface is connected to the bus to provide a connection point for the media device. A bus switch is positioned between the interface and the bus for transferring signals to the bus. The switch is operated by the controller module. A command bus is connected to the backplane for transferring a user command to the media device via a command interface. | 09-11-2008 |
20080273475 | Reconfigurable computer bus - A bus system in which a bus controller, such as a complex programmable logic device, manages a communication channel coupling modules which can implement a node in a sensor network and/or an embedded system device. The system abstracts the communication channel from communicating processors of the modules. A processor of each module interacts with the communication channel through the bus controller. In this manner, the communication channel is decoupled from the processor, allowing different processors running at different speeds to share the communication channel without impacting throughput of the communication channel. The bus controller and the processors of the modules can employ a handshake protocol to asynchronously communicate with each other. The bus controllers can employ a reconfigurable TDMA protocol to communicate with each other and/or communicate between modules. | 11-06-2008 |
20090003245 | Method of bus configuration to enable device bridging over dissimilar buses. - Several local IEEE1394 buses are bridged together over a second bus type to create a global bus wherein each local bus node is able to address nodes across the global bus without the local nodes being aware of the bridging operation. A bridging device operates by translating local bus node addresses to a global bus for communication over the second bus type. Alternatively, the local bus node identification process is controlled by the bridging device operating as the root node to cause the local nodes to be identified with a node address that is unique for the global network. The second bus type operates as a backbone for the global network and can be any type of communication bus or network with capability to transport the local bus traffic. The bridging devices that interface the local IEEE1394 buses to the backbone contain portals specific to each bus type that can communicate data between the dissimilar buses. | 01-01-2009 |
20090010183 | Function configuration method of electronic apparatuses - A function configuration method according to the invention is cooperated with a master apparatus and a plurality of slave apparatuses. The function configuration method includes the steps of: assigning identification codes respectively to the slave apparatus by the master apparatus; transmitting the identification codes to the corresponding slave apparatuses through a network; and setting function configurations of the slave apparatuses according to the identification codes in the master apparatus. | 01-08-2009 |
20090080346 | Base-band ethernet over point-to-multipoint shared single conductor channel - A method for point-to-point ethernet communication over point-to-multipoint shared single conductor channel topology comprises transmitting an ethernet signal upstream over the point-to-multipoint topology from one end point of the topology to the root of the topology, transmitting the ethernet signal downstream over the point-to-multipoint topology from the root of the topology to all end points of the topology, and selectively processing only at a designated end point the ethernet signal received at all end points. An ethernet system may comprise single conductor channel cabling (e.g., coaxial cabling) including a trunk line and a plurality of branch lines connecting to the trunk line at a plurality of points along the trunk line, a single root transceiver (root-PHY) connected at an end of the trunk line, and a plurality of end point transceivers (EP-PHYs), each connected to a respective one of the plurality of branch lines. The system and method further may communicate with an external network, such as the internet, via the root of the topology. | 03-26-2009 |
20090122725 | ROBUST NETWORKS FOR NON-DISRUPTIVELY DISCONNECTING PERIPHERAL DEVICES - A network and method for non-disruptively disconnecting communication devices are disclosed. The network includes a primary network unit including a first logical layer, and a plurality of secondary network units. Each secondary network unit of the plurality of secondary network units includes the first logical layer, a second logical layer, and a connector arranged at a junction of the first logical layer and the second logical layer. The network also includes a plurality of electrically conductive links, wherein an electrically conductive link of the plurality of electrically conductive links is connected to the first logical layer of a first network unit at a first end, and to the first logical layer of a second network unit at a second end. | 05-14-2009 |
20090135739 | Network On Chip With Partitions - A network on chip (‘NOC’) that includes integrated processor (‘IP’) blocks, routers, memory communications controllers, and network interface controllers, with each IP block adapted to a router through a memory communications controller and a network interface controller, where each memory communications controller controlling communications between an IP block and memory, and each network interface controller controlling inter-IP block communications through routers, with the network organized into partitions, each partition including at least one IP block, each partition assigned exclusive access to a separate physical memory address space and one or more applications executing on one or more of the partitions. | 05-28-2009 |
20090274070 | POWER MANAGEMENT OF NETWORKED DEVICES - A network-centric, power management system and method is disclosed for monitoring and controlling device nodes attached to a network. The monitoring and controlling includes collecting and processing information available on the network about the device nodes and using the collected information to manage power on the device nodes. | 11-05-2009 |
20100080148 | ADAPTIVE ENTERPRISE SERVICE BUS (ESB) RUNTIME SYSTEM AND METHOD - Disclosed are embodiments of an adaptive enterprise service bus (ESB) runtime system and an associated method, which build, at a restart, only the most advantageous path configuration between composable units (e.g., between applications and/or between primitives within a single application). Specifically, during the execution of instantiations of modeled paths and branches thereof, metrics (e.g., the number of times each flow and each branch are activated, the CPU usage associated with building each flow and each branch, etc.) are collected. Then, at a restart of the runtime system, a cost-benefit analysis is performed on the collected metrics and, based on the results of this cost-benefit analysis, only selected ones of the paths and the branches thereof are built (e.g., paths and branches for which operational usefulness outweighs building costs). Other paths and branches are built only as required, during running of the runtime system. | 04-01-2010 |
20100322110 | Arrangement and Method Relating to Subscriber Line Connections - The present invention relates to an arrangement ( | 12-23-2010 |
20110182209 | Method and Apparatus for Network Configuration - A method of re-configuring connections for a plurality of network access nodes arranged to communicate with a network. The network access nodes connected in a series configuration with only one of the access nodes being connected to the network, the method comprises: connecting a switch node between the network and each of the access nodes using a respective link. Prior to connecting the switch node the method further comprises collecting connection configuration data from the network access nodes connected in series and using at least some of the connection configuration data, and/or data derived from the connection configuration data, to configure the switch node to allow communication between the access nodes and the network via the switch node. | 07-28-2011 |
20120314624 | DYNAMICALLY DETERMINING HOSTNAMES OF NETWORK DEVICES - Techniques are disclosed for dynamically determining or learning hostnames. According to embodiments described herein, a solicitation message is received at a first network device. Based on the solicitation message, a hostname is determined for a second network device that sent the solicitation message. A first network address is also determined for the second network device that sent the solicitation message. A mapping between the hostname and the first network address is stored at the first network device. | 12-13-2012 |
20130163475 | CONTROLLER FOR FLEXIBLE AND EXTENSIBLE FLOW PROCESSING IN SOFTWARE-DEFINED NETWORKS - A network device acts as a controller within a software-defined network. The network device receives a processing definition, which includes a representation of configurable definitions of protocols, configurable flow table definitions, and configurable logic for selecting between flow tables defined by the configurable flow table definitions. The network device translates the processing definition to create a parser configuration package, which is distributed to a plurality of forwarding elements. This distribution causes each forwarding element to create a flow table based on each of the configurable flow table definitions. The flow tables include one or more configurable key columns and a set of one or more action columns to store forwarding decisions. The network device transmits data to populate the configurable key columns and action columns of the flow tables created within each of the plurality of forwarding elements. | 06-27-2013 |
20130215792 | Configurable Mesh Control Bus In An Island-Based Network Flow Processor - An island-based network flow processor (IB-NFP) integrated circuit includes islands organized in rows. A configurable mesh control bus extends through the islands. The configurable mesh control bus is configurable to have a unidirectional tree structure such that configuration information passes into the integrated circuit, through a root island, through the branches of the tree structure, and to each of the other islands. The functional circuits of the islands, as well as a configurable mesh data bus of the integrated circuit, are all configured with configuration information supplied via the tree structure. In one example, the configurable control mesh bus portion of each island includes a statically configured switch and multiple half links that radiate from the switch. The static configuration is determined by hardwired tie off connections associated with the island. | 08-22-2013 |
20140211664 | METHOD AND DEVICE FOR LABEL AUTOMATIC ALLOCATION IN RING NETWORK PROTECTION - Embodiments of the present invention provide a method and device for label automatic allocation in ring network protection. The method includes: after physical topology configuration of ring network protection is completed, if connectivity detection between a first node and a downstream node of a ring tunnel is UP, receiving, a first label distribution message sent by the downstream node; sending, by the first node according to the identifier indicating that the tail node label is ready, a second label distribution message to the upstream node; so that the upstream node learns that label allocation for all nodes on the ring tunnel between the first node and a tail node is completed. The method solves problems in the prior art that a workload for configuration of a working ring is big and availability of an end-to-end service cannot be ensured. | 07-31-2014 |
20150049646 | METHOD AND APPARATUS FOR EXECUTING AN APPLICATION BY USING A COMMUNICATION ADDRESS - A method and apparatus for executing an application by using a communication address may be implemented as terminal that includes a service providing unit that provides an application, and an IP address managing unit that assigns an IP address to the application. The terminal may also have a communication unit configured to operate as a Wi-Fi Host Access Point (AP) unit or as a Wi-Fi client unit. When the communication unit operates as a Wi-Fi Host AP unit, it uses the assigned IP address to carry out its WiFi host AP functions. When the communication unit operates as a Wi-Fi client unit, it searches for an accessible Wi-Fi Host AP, identifies a service set identifier (SSID) and an IP address of a Wi-Fi Host AP, and accesses the Wi-Fi Host AP. | 02-19-2015 |
20160020920 | System and Method for a Federated Evolved Packet Core Service Bus - A system and method of provides services including a federated service bus between distributed and evolved packet core (EPC) and a radio access network (RAN), wherein the federated service bus provides information based on a parent-child relationship between the EPC and RAN on a per-federated service basis. The information can include loading and location information. | 01-21-2016 |
20160056974 | REDUNDANT CONTENT BRIDGING BETWEEN SUBSTATION COMMUNICATION NETWORKS - A method is disclosed for providing a network bridge between a source and a receiving network of a communication network, wherein the network bridge includes two content-bridging nodes connected between the source and the receiving networks according to a redundancy schema defined in IEC62439-3. The method can include assigning a common source network node identifier to the two content-bridging nodes; receiving, by each of the two content-bridging nodes, network traffic within the source network; and forwarding, by each of the two content-bridging nodes using the source network identifier, the network traffic from the source to the receiving networks. | 02-25-2016 |
20160094361 | MOBILE TERMINAL - A mobile terminal includes: a peripheral interface having four terminals; an I2C interface; a first detection unit adapted to detect if an I2C device is inserted into the peripheral interface; and a first control unit adapted to, when the first detection unit detects there is an I2C device inserted into the peripheral interface, connect the I2C interface with the peripheral interface, such that the I2C interface is connected with the detected I2C device plugged in the peripheral interface. Accordingly, information exchange between mobile terminals and I2C devices can be achieved, thus adaptability of the mobile terminals can be expanded. | 03-31-2016 |
20160142102 | MOTOR VEHICLE ON-BOARD POWER SYSTEM AND METHOD FOR TRANSMITTING DATA SIGNALS IN A MOTOR VEHICLE ON-BOARD POWER SYSTEM - In order to permit, in a motor vehicle on-board power system, data to be transmitted with low expenditure on cabling, even between multiple partial networks, a plurality of loads embodied, in particular, as sensors is respectively assigned a communication unit for transferring data. The communication units are embodied in such a way that, by utilizing the supply lines they set up a partially interlinked data network, and transfer data made available by the loads, with the result that communication via the partial networks is also made possible. As a result of the transmission of the data via the supply lines in combination with the setting up of a partially interlinked data network, signal transmission is made possible even if there is no direct connection between the respective sensor and a target unit. | 05-19-2016 |
370258000 | In a ring system | 30 |
20080205303 | FRAME TRANSMISSION APPARATUS - An apparatus including a first interface unit configured to perform frame communication processing with a ring network; a second interface unit configured to perform frame communication processing with a different network; a processing unit configured to convert a frame of a first format from the different network to a frame of a second format; a frame switching unit having at least one port connected to each of the first interface unit, the second interface unit and the processing unit and configured to switch the frame between ports; and a table configured to store frame identification information in correspondence with an output destination port identifier for an output port in the frame switching unit and frame conversion requirement information indicating whether conversion to the frame of the second format is required. | 08-28-2008 |
20090086653 | HIGH-INTEGRITY SELF-TEST IN A NETWORK HAVING A BRAIDED-RING TOPOLOGY - In one embodiment, a node comprises an interface to communicatively couple the node to a plurality of independent communication links. The node changes the mode in which the node operates when the node receives an indicator on a plurality of the independent communication links. | 04-02-2009 |
20090097419 | COMMUNICATION NODE, AND TOKEN ISSUING METHOD AND TOKEN-RING COMMUNICATION METHOD IN RING COMMUNICATION SYSTEM - A communication node includes a token-start-right acquisition processor that issues a token-start-right acquisition frame containing specific information, determines a priority based on predetermined reference using specific information for other communication node and the specific information for the own communication node upon reception of a token-start-right acquisition frame from the other communication node, issues the token-start-right acquisition frame at a predetermined time interval when the own communication node has a higher priority than the other communication node, and stops issuing the token-start-right acquisition frame when the own communication node has a lower priority than the other communication node, to forward the token-start-right acquisition frame of the other communication node, and also includes a token start processor that passes the token frame to the ring upon reception of the token-start-right acquisition frame which is issued by the token-start-right acquisition processor and circulates around the ring. | 04-16-2009 |
20090213763 | METHOD AND SYSTEM FOR DYNAMIC ASSIGNMENT OF NETWORK ADDRESSES IN A COMMUNICATIONS NETWORK - According to a particular embodiment, a method for automatically assigning dynamic IP addresses without user interaction includes maintaining at least one pool of unused IP addresses. An advertisement message is transmitted from a first network element to at least one additional network element in a transport ring. The advertisement message identifies the first network element as providing IP address assignment services. The IP address request message from a second network element in the transport ring is received at the first network element. In response to the IP address request message, an IP address is dynamically assigned from the at least one pool of unused IP addresses. The dynamically assigned IP address is transmitted from the first network element to the second network element. | 08-27-2009 |
20090252066 | SYSTEMS AND METHODS FOR PROVIDING VARIABLE PROTECTION - The systems and methods maintain varying protection levels of related objects, such as when nodes of a data structure are protected at the same or greater protection level as their children nodes. In one embodiment, the nodes store data to track protection levels of their children nodes. | 10-08-2009 |
20090268638 | Cross Coupled Unidirectional Data Ring - In a data communication system for communicating data between a plurality of data communicating entities, data is transmitted simultaneously from at least a first data communicating entity and a second data communicating entity onto a serial data ring. A first portion of the serial data ring is cross coupled to a second portion of the serial data ring so that data from the first data communicating entity avoids conflict with data from the second data communicating entity, thereby emulating a forward and reverse transmission on a single unidirectional serial ring. | 10-29-2009 |
20100189016 | IDENTIFYING NODES IN A RING NETWORK - Methods, systems and data structure for facilitating identification of nodes in a ring network are provided. According to one embodiment, a data structure is stored on a computer-readable storage media of a node (e.g., a blade) participating in a ring network, within a multi-blade system, for example. The data structure includes a packet-ring master field, a control-node master field, a node characteristics field, a connection state field, a node identification field and a marker field. The packet-ring master field indicates whether the node is a current packet-ring master. The control-node master field indicates whether the node is a control-node master. The node characteristics field specifies per-node characteristics. The connection state field indicates a current connection state of the node. The node identification field specifies the node. The marker field indicates whether the data structure is a node discovery marker. | 07-29-2010 |
20100208623 | METHOD AND DEVICE OF ASSIGNING RING IDENTIFIER - A control message having stored therein a link identifier for identifying a link such as a fiber or cable and a ring identifier for identifying a ring (or a control message having stored therein a ring identifier) is transmitted to a neighbor node. A ring identifier preliminarily assigned to a link identified by the link identifier received from the neighbor node (or a ring identifier preliminarily assigned to a link having received the control message) is compared with a ring identifier received from the neighbor node to select either one of the ring identifiers according to specified selection criteria. The ring identifier selected is assigned to the link identified. | 08-19-2010 |
20100214962 | COMMUNICATION NODE, AND TOKEN ISSUING METHOD AND TOKEN-RING COMMUNICATION METHOD IN RING COMMUNICATION SYSTEM - A communication node includes a token-start-right acquisition processor that issues a token-start-right acquisition frame containing specific information, determines a priority based on predetermined reference using specific information for other communication node and the specific information for the own communication node upon reception of a token-start-right acquisition frame from the other communication node, issues the token-start-right acquisition frame at a predetermined time interval when the own communication node has a higher priority than the other communication node, and stops issuing the token-start-right acquisition frame when the own communication node has a lower priority than the other communication node, to forward the token-start-right acquisition frame of the other communication node, and also includes a token start processor that passes the token frame to the ring upon reception of the token-start-right acquisition frame which is issued by the token-start-right acquisition processor and circulates around the ring. | 08-26-2010 |
20100296416 | METHOD FOR UPDATING FILTERING DATABASE IN MULTI-RING NETWORK - A method for updating a filtering database in a multi-ring network, includes: when the topology of a lower ring in a multi-ring network, in which a plurality of ring networks are connected by two ring connection nodes, is altered and the ring connection node detects the alteration in the topology of the lower ring, erasing, by the ring connection node, its filtering database; generating, by the ring connection node, a control message including a ring ID, a blockage flag, and an erasure flag; transmitting the control message in both directions of the ring; and determining, by a node which receives the control message, to erase a filtering database by referring to and correcting the blockage and erasure flag information included in the control message. | 11-25-2010 |
20110026439 | AUTOMATIC CONTROL NODE SELECTION IN RING NETWORKS - In general, this disclosure describes techniques that may allow detection of a missing control node on a ring network and selection of a single node on ring network to act as the control node. In one example, a method includes receiving, at a first node in a ring network, a data unit transmitted by a second node in the ring network, the data unit including an identifier that identifies the second node. The method further includes comparing the identifier of the second node to an identifier that identifies the first node, and automatically selecting one of the first node and the second node as a control node for the ring network based on the comparison. | 02-03-2011 |
20110261725 | COMMUNICATION MANAGEMENT DEVICE, COMMUNICATION DEVICE, AND COMMUNICATION METHOD - The communication management device includes a logical-ring configuring unit that determines a transmission order of a token frame in a network and configures a logical ring; a multicast-address generating unit that generates a multicast address from a MAC address of the communication management device; a multicast-address notifying unit that notifies a slave station configuring the logical ring of the multicast address; and a token-frame processing unit and a data-frame-communication processing unit that transmit a frame having a destination address to which the multicast address is set, and not performing a receiving process of a frame when a destination address of the received frame does not coincide with the multicast address. | 10-27-2011 |
20110274010 | METHOD FOR ELECTING RING MANAGER OF RING TOPOLOGY NETWORK, AND NODE - A method for electing a ring manager of ring topology network and a node are disclosed, where, to this end, a node responsible for electing the ring manager periodically requests each node of diagnostic information on packet traffic and receives the diagnostic information on packet traffic from each node, newly elects a node capable of performing a ring manager role, and informs each node of information on the newly elected ring manager, whereby, the ring network can be more effectively operated because the ring manager is elected based on network load status that changes in real time even in the course of a ring network being initially set up and operated responsive to structural conditions including hop count of each nod and MAC node. | 11-10-2011 |
20120140679 | PATH SETTING METHOD AND TRANSMISSION DEVICE - A path setting method for setting a backup path corresponding to a currently used path in a ring network using a label switching method includes setting an unused first label as a transmitting label of the backup path corresponding to the currently used path in a first direction; reporting the first label to a adjoining transmission device in the first direction; setting the first label as a receiving label of the backup path in the first direction; setting an unused second label as the transmitting label of the backup path in a second direction; reporting the second label to a adjoining transmission device in the second direction; and setting the second label as the receiving label of the backup path in the second direction, in which the backup path is set when the currently used path is set between two transmission devices. | 06-07-2012 |
20120163239 | DOUBLE-RING NETWORK SYSTEM, METHOD FOR DETERMINING TRANSMISSION PRIORITY IN DOUBLE-RING NETWORK AND TRANSMISSION STATION DEVICE - According to one embodiment, in a double-ring network, a master station includes a transmitting and receiving permission switch portion, a communication port A at an A-system side, a communication port B at a B-system side, a first receiving control circuit portion, a transmitting and receiving control circuit portion, a frame detection determining circuit portion, a frame data generating circuit portion, a logical address determining circuit portion, a live list setting circuit portion and an address list setting circuit portion. The master station determines a token order (a transmission priority, also called a logical address) using a shortest path function by the logical address determining circuit portion and the address list setting circuit portion such that the token order does not depend on physical addresses of transmission stations and is matched to a connection order of transmission stations to realize path optimization. This reduces a transmission time. | 06-28-2012 |
20120188912 | METHOD, APPARATUS, AND SYSTEM FOR UPDATING RING NETWORK TOPOLOGY INFORMATION - A method for updating ring network topology information includes: receiving a topology discovery packet from an originating node, where the topology discovery packet at least carries identifiers of nodes traversed by the topology discovery packet when the packet is transferred from the originating node to a current node; and updating ring network topology information of the current node according to the identifiers of the nodes carried in the topology discovery packet. The apparatus includes a receiving module and an updating module. The system includes an originating node and a receiving node. | 07-26-2012 |
20120195233 | Topology Management Method of Ether Multi-Ring Network, and System Thereof - A method for managing a topology of a multi-ring Ethernet and a system thereof are disclosed, and the method includes: a node including a blocked port on the multi-ring Ethernet periodically sending a Topology Find Frame (TF) message along a transmission control channel through an own good port; a node receiving said TF message in the multi-ring Ethernet updating an own topology database according the NODE_LIST in said TF message, writing an own NODE_ID into the NODE_LIST of said TF message, and then forwarding said TF message along the transmission control channel. | 08-02-2012 |
20120201171 | Asymmetric ring topology for reduced latency in on-chip ring networks - An apparatus comprising a chip comprising a plurality of nodes, a first plurality of links connecting the plurality of nodes in a first ring network having a first topology, and a second plurality of links connecting the plurality of nodes in a second ring network having a second topology, wherein the first topology is different than the second topology. | 08-09-2012 |
20120300676 | METHOD OF MERGING DISTRIBUTED HASH TABLE (DHT) RINGS IN HETEROGENEOUS NETWORK DOMAINS - A method of merging Distributed Hash Table (DHT) rings in heterogeneous network domains, where each domain includes a DHT ring. Upon determining that a node is common to first and second DHT rings on the same hierarchical level and having at least one Overlay Router in common, a link is started between a node in the first DHT ring and a node in the second DHT ring by establishing an indirect link through the common node. An indirect link is created between the first and second DHT rings, and virtual links are created to DHT rings positioned higher in the DHT ring hierarchy until all the DHT rings are merged into a single logical ring. | 11-29-2012 |
20130039222 | Ring-Based Network and Construction Thereof - A ring-based network and a construction method thereof, comprising a plurality of nodes and a plurality of links. In an initial status, each node compares each first link-up packet and fills a priority value in the first link-up packet with the higher priority value to form a second link-up packet. The priority value of each node and the highest priority value of each adjacent node recorded in each node are compared with each second link-up packet. When the priority value of the node and the highest priority values of adjacent nodes recorded in the node are smaller than the second link-up packet, the ring port of the node is situated at a forward status. According to the forward status or a blocked status of the ring port, these links form a plurality of forward links and a blocked link respectively. | 02-14-2013 |
20140050121 | DOUBLE-RING NETWORK SYSTEM, METHOD FOR DETERMINING TRANSMISSION PRIORITY IN DOUBLE-RING NETWORK AND TRANSMISSION STATION DEVICE - According to one embodiment, in a double-ring network, a master station includes a transmitting and receiving permission switch portion, a communication port A at an A-system side, a communication port B at a B-system side, a first receiving control circuit portion, a transmitting and receiving control circuit portion, a frame detection determining circuit portion, a frame data generating circuit portion, a logical address determining circuit portion, a live list setting circuit portion and an address list setting circuit portion. The master station determines a token order (a transmission priority, also called a logical address) using a shortest path function by the logical address determining circuit portion and the address list setting circuit portion such that the token order does not depend on physical addresses of transmission stations and is matched to a connection order of transmission stations to realize path optimization. This reduces a transmission time. | 02-20-2014 |
20140169223 | Topology Change in a Network with Ring Topology - The invention relates to a method for controlling, by a central control entity ( | 06-19-2014 |
20140348028 | METHOD FOR CREATING RING NETWORK LABEL SWITCHED PATH, RELATED DEVICE, AND COMMUNICATIONS SYSTEM - Embodiments of the present invention disclose a method for creating a ring network label switched path. The method includes: receiving, by a first node, a first Path message used for creating a first label switched path from a second node; allocating a first label to the first label switched path; sending a first Resv message carrying the first label to the second node; and when the first node receives a second Path message and determines that a destination node of the second label switched path is the same as that of the first label switched path, allocating the first label to the second label switched path; and sending a second Resv message carrying the first label to the second node. Solutions of the embodiments of the present invention helps reduce the number of created ring network label switched paths and maintenance complexity. | 11-27-2014 |
20150036546 | MULTIPLE RING IDENTIFICATION AND CONFIGURATION PROTOCOL - A protocol identifies and configures rings in a network topology automatically in order to simplify and quicken the actions that need to be performed in response to addition, deletion and shuffle of network nodes in that topology. Such rings do not need to be identified and configured manually. The protocol involves two separate sequentially performed phases. In the first phase, the protocol can automatically identify all rings that are present within a Virtual Local Area Network (VLAN) topology. In the second phase, the protocol can automatically configure each node of each such ring in conformity with the Ethernet Ring Protection (ERP) protocol. After this ERP configuration has been performed, the failure of a link within the network will not require every network node to re-learn paths through the network; instead, the nodes that are required to re-learn such paths can be limited to those within the particular ring that contained the failed link. | 02-05-2015 |
20150117267 | Network Topology of Hierarchical Ring with Recursive Shortcuts - An interconnection system comprising a plurality of nodes, each comprising at least two ports, and a plurality of links configured to interconnect ports among the nodes to form a hierarchical multi-level ring topology, wherein the ring topology comprises a plurality of levels of rings including a base ring and at least two hierarchical shortcut rings, and wherein each node connected to a higher-level shortcut ring is also connected to all lower-level rings including the base ring. | 04-30-2015 |
20150358178 | DATA TRANSMISSION ARCHITECTURE, IN PARTICULAR FOR USE IN ON-BOARD AVIONICS - A data transmission architecture, in particular for use in on-board avionics is disclosed. The data transmission architecture includes at least one main data transmission network with integrated functional nodes for connecting peripheral connecting networks in a data transmission loop to the main network, in order to provide data transmission between the networks. | 12-10-2015 |
20150358179 | BRIDGE-BASED DATA TRANSMISSION ARCHITECTURE, IN PARTICULAR FOR USE IN ON-BOARD AVIONICS - A data transmission architecture, in particular for use in on-board avionics is disclosed. The data transmission architecture includes at least one main data transmission network with integrated functional nodes for connecting a plurality of peripheral data transmission networks to the main network, in order to provide data transmission between the networks. The data transmission architecture also includes a direct connection of peripheral networks to one another so as to allow the transmission of data directly between the peripheral networks without passing through the main network. The main network includes a plurality of associated sub-networks. | 12-10-2015 |
20150358210 | IDENTIFYING NODES IN A RING NETWORK - Methods and systems for determining a token master on a ring network are provided in which possession of an arbitration token permits a blade participating in the ring network to transmit a packet. According to one embodiment, when an event at a blade represents expiration of a timeout period for receipt of the token, a new token is transmitted onto the ring network. When the event represents receipt of the token, then the priority of the originating blade is compared that of the first blade. When the originating blade is higher priority, the token is transmitted to the next blade. When the originating blade is lower priority, the first blade is set as the originating blade and the token is transmitted to the next blade. When the priorities are equal, the blade becomes responsible for periodically transmitting a discovery marker onto the ring network to facilitate topology discovery. | 12-10-2015 |
20150381483 | BANDWIDTH CONTROL FOR RING-BASED MULTI-PROTOCOL LABEL SWITCHED PATHS - Techniques are described for specifying and constructing multi-protocol label switching (MPLS) rings. Routers may signal membership within MPLS rings and automatically establish ring-based label switch paths (LSPs) as components of the MPLS rings for packet transport within ring networks. In one example, a router includes a processor configured to establish an MPLS ring having a plurality of ring LSPs. Each of the ring LSPs is configured to transport MPLS packets around the ring network to a different one of the routers operating as an egress router for the respective ring LSP. Moreover, each of the ring LSPs comprises a bidirectional, multipoint-to-point (MP2P) LSP for which any of the routers can operate as an ingress to source packet traffic into the ring LSP for transport to the respective egress router for the ring LSP. Separate protection paths, bypass LSPs, detours or loop-free alternatives need not be signaled. | 12-31-2015 |
20160127147 | TRANSFER OF INFORMATION WITHIN AN ASIC USING A SLOTTED RING BASED PROTOCOL - A system, comprising: a first local controller (LC) having a first position in a ring network and comprising a first LC cycle counter; a second LC having a second position in the ring network and comprising a second LC cycle counter; and a central controller (CC) connected to the ring network and comprising: a data structure linking the first LC to the first position and linking the second LC to the second position; and a CC cycle counter. | 05-05-2016 |