Patent application number | Description | Published |
20080247395 | INTERNET PROTOCOL SWITCH AND USE OF THE SWITCH FOR SWITCHING A FRAME - Internet Protocol (IP) switch and method for switching an IP frame to an IP destination address. The IP switch includes access ports, interswitch ports, and a switching table. Each access port is connected to a corresponding host in a LAN. The interswitch ports are configured to be statically connected to routers within the Internet in connections that cannot be overwritten by dynamic learning. The switching table includes entries, each entry having an IP address, a port identifier, and a routing protocol internal metric indicative of confidence in the entry. The method for switching the IP frame includes: receiving the IP frame, reading the IP destination address from the IP frame, ascertaining a matching IP address in the switching table that matches the IP destination address, directing the IP frame to a specific port, transmitting the IP frame from the specific port to the IP destination address. | 10-09-2008 |
20080247396 | METHOD, SYSTEM AND COMPUTER PROCESSING AN IP PACKET, ROUTING A STRUCTURED DATA CARRIER, PREVENTING BROADCAST STORMS, LOAD-BALANCING AND CONVERTING A FULL BROADCAST IP PACKET - Method for processing content of an Internet Protocol (IP) packet and method for processing a full broadcast IP packet. Processing content of an IP packet includes: extracting IP source and destination addresses and payload from the IP packet; and generating an IP frame encapsulating the IP source and destination addresses and the payload between a preamble field and an error checking field. Processing a full broadcast IP packet includes: receiving the full broadcast IP packet including an IP source address and a full broadcast IP destination address; ascertaining a closest matching IP address and a subnet thereof in a switching table of an IP switch; replacing the full broadcast IP destination address in the IP packet with a subnetted source address generated by applying the subnet mask to the IP source address; transmitting the IP packet to all IP addresses in the switching table within the subnetted source address. | 10-09-2008 |
20080247399 | MODIFICATION OF A SWITCHING TABLE OF AN INTERNET PROTOCOL SWITCH - Methods for modifying a switching table of an Internet Protocol (IP) switch. The methods include: receiving a dynamic host configuration protocol (DHCP) option | 10-09-2008 |
20080250492 | STRUCTURE AND IMPLEMENTATION OF UNIVERSAL VIRTUAL PRIVATE NETWORKS - A Universal Virtual Private Network (VPN) apparatus, and method and system for using universal VPNs. The Universal VPNs include a first Internet Protocol (IP) switch connected to a second IP switch by a public telecommunications medium. Each IP switch has an interswitch port and access ports to which hosts are directly connected. A virtual private line services (VPLS) packet received by the first IP switch from a source host directly connected to an access port of the first IP switch is routed by the first IP switch to destination hosts of a universal VPN attached to access ports of the first and second IP switches via respective transmission paths that use a VPLS transmission protocol throughout each respective transmission path. The VPLS packet includes a header appended to an IP frame including a packet payload including a first message, the header including a VPN label identifying the universal VPN. | 10-09-2008 |
20100149979 | SYSTEM AND METHOD FOR IMPLEMENTING ADAPTIVE LOAD SHARING TO BALANCE NETWORK TRAFFIC - A method for implementing adaptive load sharing to balance network traffic. The method begins by identifying all paths in a network between a first provider edge and a second provider edge. Next determining jitter, packet delay, and packet loss for each identified path in the network. Then utilizing the jitter, packet delay, and packet loss values, calculating a usage value for each path in the network. The usage value corresponds to the percentage of all network traffic which a specific path in the network may manage. When data is received by the first provider edge, the provider edge selects the appropriate path for the data. The appropriate path being the path with the largest usage value which is currently not managing a percentage of the network traffic that is equal to its usage value. | 06-17-2010 |
20110063986 | SYSTEM AND METHOD FOR LOAD BALANCING TRAFFIC IN A MPLS NETWORK - A method and system for managing traffic between a first provider edge and a second provider edge in a network. The network includes logical paths between the first provider edge and the second provider edge. For each logical path, jitter, packet delay, and packet loss are identified. For each logical path, a path usage is calculated as a function of the identified jitter, packet delay, and packet loss. Most recent data received by the first provider edge is transmitted to the second provider edge via a selected logical path that has a highest path usage for which transmitting the received most recent data does not result in the selected logical path managing a higher percentage of network traffic than is dictated by the highest usage value for the selected logical path. | 03-17-2011 |
20120127850 | BEST-PATH EVALUATION BASED ON RELIABILITY OF NETWORK INTERFACE LAYERS - A system and associated method for dynamic error dampening in a node in a network system. The node collects statistics of data traffic transferred through the node. The node has a link error MIB storing Error ratio and Reliability of interface of the node. When the Error ratio is too high, the node starts running a Layer 2 protocol for monitoring data traffic and calculates Penalty of the node. When Penalty is higher than predefined Suppress Threshold, the node deactivates Layer 3 link while the Layer 2 protocol still monitors the interface. Once the Penalty becomes lower than Reuse Threshold, the node reactivates the Layer 3 link that had been previously deactivated. When Penalty becomes zero (0), the node clears the Error ratio and stops the Layer 2 protocol for monitoring the data traffic. | 05-24-2012 |
20130176842 | DYNAMIC ERROR DAMPENING IN A NETWORK SYSTEM - A method and computer system for dynamic error dampening in a node of a network system. Data traffic of the node is implemented in accordance with an Open Systems Interconnection (OSI) network management model that includes a Layer 1 physical link, a Layer 2 link including a data link in which primitive point-to-point data communication with neighboring nodes is enabled upon the Layer 1 physical link, and a Layer 3 link which is a network link operating on top of the Layer 2 link. Implementation of an error dampening process at the node includes deactivating the Layer 3 link of the node while monitoring data traffic over the Layer 2 link of the node. Deactivating the Layer 3 link of the node includes preventing the Layer 3 Link of the node from receiving incoming data traffic for routing to other nodes in the network system. | 07-11-2013 |
20140086055 | LOAD BALANCING TRAFFIC IN A MPLS NETWORK - A method and system for managing traffic in a network. Label switch paths are identified. Each label switch path begins at a first provider edge and ends at a second provider edge. For each label switch path, logical paths are identified. Most recent data received from the first provider edge is transmitted to the second provider edge via a selected logical path. | 03-27-2014 |
Patent application number | Description | Published |
20100264884 | METHOD FOR CONTROLLING THE PROGRESSIVE CHARGE OF A MOTOR VEHICLE ALTERNATOR - A method for controlling the progressive charge of a motor vehicle alternator. The alternator comprises a stator, a rotor which is provided with an excitation coil, a voltage regulator which acts on an excitation current which is supplied to the excitation coil in order to regulate an output voltage of the alternator, and a device for controlling the progressive charge which, by means of limitation of the excitation current to a maximum value, determines a maximum mechanical torque which the alternator can collect on a thermal engine of the vehicle. The maximum mechanical torque is determined according to a speed of rotation (N | 10-21-2010 |
20120032650 | ALTERNATOR VOLTAGE REGULATOR WITH A PROGRAMMABLE SIGNAL PROCESSING INTERFACE - A motor vehicle regulator, including electronic regulation circuits, which can produce an excitation current in accordance with a difference between a set voltage and an output voltage measured at the terminals of an electric battery of the vehicle. The regulation circuits including a programmable signal processing interface for producing a signal, which is representative of the excitation current. The interface receives as input a plurality of signals which are representative of the excitation current. The interface including a device capable of selecting a signal which is representative, from amongst the plurality of representative signals, of the method for applying different forms of processing to the representative signal selected, and a second device for selection of processing to be applied to the representative signal. The representative signal, and the processing to be applied, being selected according to a program provided to the programmable signal interface. | 02-09-2012 |