Patent application number | Description | Published |
20100296401 | MULTI-DIMENSIONAL RESOURCE MANAGEMENT IN A WIRELESS NETWORK - A communication system may include a plurality of entities comprising a hybrid network controller, one or more femtocells, one or more access points and/or one or more end-point devices. The hybrid network controller may determine and/or communicate configuration parameters corresponding to space, time, frequency and/or code domains that may enable communication of data between and/or among two or more of the entities. The configuration parameters may comprise frequency, time slot, codes and/or antenna pattern assignments. The network controller may control communication between a communication device external to the communication system and one or more of the entities within the communication system. Availability of frequencies, time slots, codes and/or antenna patterns may be monitored. The network controller may assign the femtocells, access points and/or end-point devices to handle the communication of the data. The hybrid network controller may communicate with the plurality of entities via wired, optical and/or wireless interfaces. | 11-25-2010 |
20100296487 | TRAFFIC MANAGEMENT IN A HYBRID FEMTOCELL/WLAN WIRELESS ENTERPRISE NETWORK - A hybrid network controller may determine and/or communicate traffic management information for enabling setup and/or handoff of call and/or communication session among femtocells, access points and/or end-point devices. Traffic management information may comprise set-up instructions, handoff instructions, transmit power, neighbor list information, signal quality thresholds, frequency assignments, transmission time, code assignments and/or antenna pattern assignments. The hybrid network controller and/or an end-point device may control handoffs between a communication device external to the communication system and the femtocells, access points and/or end-point devices. Received signal strength, interference levels, SNR, signal path delay, power consumption, traffic loads, bandwidth usage and/or radio resource availability may be monitored and/or analyzed by the hybrid network controller. The hybrid network controller may assign time slots, codes, antenna patterns as well as a serving femtocell and/or AP for a set up and/or a handoff. The information may be communicated via wired, optical and/or wireless interfaces. | 11-25-2010 |
20100296497 | HYBRID NETWORK CONTROLLER FOR FEMTOCELLS AND ACCESS POINTS - A communication system may comprise a hybrid network controller, femtocells, access points and/or endpoint devices. The hybrid network controller may control communication of information between two or more specified femtocells, access points and/or endpoint devices by communicating control information. The communication of information via the femtocells, access points may be managed by the hybrid network controller. The network controller may handle network traffic associated with the communication of the information. The hybrid network controller may control one or more wired and/or wireless interfaces for handling of the network traffic. Quality of service and/or bandwidth allocation may be managed by the hybrid network controller. Resources utilized by the endpoint devices, the femtocells and/or the access points may be allocated and/or de-allocated by the network controller. | 11-25-2010 |
20100296498 | INTEGRATED FEMTOCELL AND WLAN ACCESS POINT - Aspects of a method and system for integrated femtocell and WLAN access point are provided. In this regard, an IFWAP device comprises an integrated WLAN interface and an integrated femtocell cellular interface. The IFWAP device may be operable to receive data, determine a destination of the received data, and transmit the received data to one or more end-user devices via the integrated WLAN interface and/or the integrated femtocell cellular interface based on said determined destination. In various embodiments of the invention, the IFWAP device may be operable to receive data from one or more end-user devices via the integrated WLAN interface and/or the integrated femtocell cellular interface, process the received data to re-format and/or re-packetize it into one or more corresponding IP packets, and transmit the one or more IP packets to one or more destination devices via a single network connection. | 11-25-2010 |
20100296499 | COMMUNICATIVELY COUPLING WLAN AND FEMTOCELL NETWORKS UTILIZING A FEMTOCELL-TO-WLAN NETWORK BRIDGE AND CONTROLLER - Aspects of a method and system for communicatively coupling WLAN and femtocell networks utilizing a FC-to-WLAN network bridge and controller are provided. In this regard, data communicated via one or more femtocells and one or more WLAN access points may be managed via a FC-to-WLAN network bridge and controller communicatively coupled between a femtocell controller and an access point controller. The femtocell controller may be operable to manage and/or control operation of the one or more femtocells, and the access point controller may be operable to manage and/or control operation of the one or more WLAN access points. The FC-to-WLAN network bridge and controller, the femtocell controller, and the access point controller may interoperate to manage data communicated between a first end-user device communicatively coupled to one of the femtocells and a second end-user device communicatively coupled to one of the access points. | 11-25-2010 |
20120027018 | Distributed Switch Domain of Heterogeneous Components - A method of integrating virtual and physical network switching components into a heterogeneous switching domain is provided. Such method including, attaching, by a switching device, a header to a packet received from a virtual machine, the header including domain information, and processing the packet by the switching device, the processing being controlled by the header. Finally, the packet is forwarded, the forwarding being controlled by the header. | 02-02-2012 |
20120030320 | NETWORK POWER MANAGEMENT - A system for managing energy efficiency and control mechanisms in a computer network having a plurality of network components is provided. The system includes a network power manager (NPM) coupled to at least one of the plurality of network components. The NPM is configured to receive and analyze power information from at least one of the plurality of the network components. The NPM is further configured to generate configuration instructions based on the analyzing of the power information and send the configuration instructions to at least one of the network components. | 02-02-2012 |
20120105637 | Multi-Level Video Processing Within A Vehicular Communication Network - A system for performing multi-level video processing within a vehicle includes a pre-processing module for determining an encoding mode and enabling one or more levels of encoding based on the encoding mode. The pre-processing module further receives a video stream from a camera attached to the vehicle via a vehicular communication network and encodes the video stream based on the encoding mode to produce a packet stream output. The system further includes a video decoder for receiving the packet stream output and decoding the packet stream output in accordance with the encoding mode to produce a decoded video output. | 05-03-2012 |
20120106350 | BRIDGE ROUTING MODULE - A bridge routing module can be incorporated into a closed network fabric, such as a vehicular network. The bridge routing module includes an interface circuit to be coupled to other elements of the closed network fabric, for example other bridge routing modules or switch modules. The bridge routing module includes memory to store information associating packet content types with packet routing parameters, among other things. A processing module included in the bridge routing module analyzes packets to identify the type of content carried by the packets, and determines packet routing parameters based on the packet's content type. Ingress and egress of the packet are controlled in accordance with the packet routing parameters determined by the processing module. | 05-03-2012 |
20120106446 | Managing Devices Within A Vehicular Communication Network - A network node module within a vehicle operates to manage devices coupled to a vehicular communication network of the vehicle based on a use mode defining rights and privileges for operating in the vehicular communication network. Upon being configured in accordance with a particular use mode of a set of use modes, the network node module can identify a device coupled to the vehicular communication network and enable the device to operate within the vehicular communication network in accordance with the use mode. The network node module is securely reconfigurable to any use mode in the set of use modes. | 05-03-2012 |
20120106447 | PRIORITY PACKET PROCESSING - A network node in a vehicular network processes packets based on a prioritization scheme. The prioritization scheme uses packet type, priority, source, destination, or other information to determine a priority of the packets. Packets can be stored in one of multiple queues organized according to packet type, or other criteria. In some cases, only one queue is used. The packets are time stamped when put into a queue, and a time to live is calculated based on the timestamp. The time to live, as well as other factors such as packet type, packet priority, packet source, and packet destination can be used to adjust a packet's priority within the queue. Packets are transmitted from the queues in priority order. In some cases, the network node can identify a top-priority packet, and transmit the top priority packet without first storing the packet in the queue. | 05-03-2012 |
20120106448 | UNIFIED VEHICLE NETWORK FRAME PROTOCOL - A network node module includes a processing module and memory. The processing module is operable to generate a header section of a frame for transmission within a unified vehicle communication network. The header section includes a preamble, routing information, and a vehicle network field, which includes information that identifies a type of the frame. The processing module is further operable to generate a payload section of the frame. The payload section includes data payload and an integrity check field. The processing module is further operable to transmit the frame to the unified vehicle communication network in accordance with a global vehicle network communication protocol. | 05-03-2012 |
20120106469 | VEHICLE COMMUNICATION NETWORK INCLUDING WIRELESS COMMUNICATIONS - A wired and wireless vehicle communication network includes network node modules, switch modules, bridge-routing modules, and a network manager. The network manager is operable to determine a wired packet communication mode and/or a wireless packet communication mode. When the network is in the wireless packet communication mode, the network manager coordinates wireless communication of packets among the network node modules, the switch modules, and the bridge-routing modules based on individual content of the packets and wireless channel mapping. When the network is in the wired packet communication mode, the network manager coordinates wired communication of packets among the network node modules, the switch modules, and the bridge-routing modules based on the individual content of the packets and in accordance with a global vehicle network communication protocol. | 05-03-2012 |
20120106526 | SWITCH MODULE - A switching module can route packets between a network fabric and a local network, both of which form a closed network such as a vehicular network. The switching module provides local network management functions, and handles packet transfers between the local network and the network fabric. The switching module uses network information, which can include information about packet content type and network topology, to determine a packet's priority, and an appropriate switching protocol to use for processing and routing packets. | 05-03-2012 |
20120106537 | VEHICLE NETWORK NODE MODULE - A vehicle network node module includes device buffers, a network buffer, a switch circuit, and a processing module. The device buffers temporarily store outgoing device packets from, and temporarily store incoming device packets for, vehicle devices in accordance with a locally managed prioritization scheme. The network buffer receives incoming network packets from, and outputs the outgoing network packets to, a vehicle network fabric in accordance with a global vehicle network protocol. The network buffer also temporarily stores the incoming network packets and the outgoing network packets in accordance with the locally managed prioritization scheme. The switching circuit selectively couples the network buffer to individual ones of the device buffers in accordance with the locally managed prioritization scheme. The processing module interprets the outgoing device packets and the incoming network packets to determine types of packets and determines the locally managed prioritization scheme based on the types of packets. | 05-03-2012 |
20120106544 | VEHICLE NETWORK LINK MODULE - A vehicle network link module includes network fabric ports, a port, a switching circuit, and a link manager. The network fabric ports are operable for coupling to corresponding network fabric ports of another vehicle network fabric link module. The port is operable for coupling to a port of a vehicle network module. The switching circuit is operable to connect an active network fabric port to the port. The link manager determines whether vehicle network packet conveyance via the active network fabric port has degenerated below a threshold. When the vehicle network packet conveyance has degenerated below a threshold, the link manager determines use mode of the active network fabric port. The link manager processing module then selects a new active network fabric port based on the use mode. The link manager then activates the new active network fabric port for coupling via the switching circuit to the port. | 05-03-2012 |
20120106549 | NETWORK MANAGEMENT MODULE FOR A VEHICLE COMMUNICATION NETWORK - A network management module includes a network interface module, memory, and a processing module. The network interface module is operable for coupling the network management module to a vehicle communication network. The processing module is operable to manage a global vehicle network communication protocol that includes instituting a content-based network packet processing protocol and managing the vehicle communication network to support the network packet processing protocol. The content-based network packet processing protocol includes determining content type of a packet, determining a processing requirement of the packet, and prioritizing execution of the processing requirement based on the content type. | 05-03-2012 |
20120106550 | VEHICULAR NETWORK WITH CONCURRENT PACKET TRANSMISSION - A vehicular network is a closed network with known sources, destinations, and network connections that can be mapped in advance, and used to identify network resources needed to transmit a packet from a source to a destination. A network module can determine the source destination, and a priority of a packet based on the packet's content. Using the source and destination information, along with a network topology data, the network module can determine if two packets need the same network resources to be delivered to their destination. When the two packets do not use the same resources, there is no conflict, and the packets can be transmitted concurrently regardless of whether one of the packets has a higher priority than another packet. If there is a conflict, the network module transmits the packets based on the packets' priorities. | 05-03-2012 |
20120106551 | DATA BRIDGE - A data bridge controls packet transfers between network fabrics forming a closed network, such as a vehicular network. The data bridge includes two or more sets of modules, each of which communicates with a different network fabric. When a packet is to be delivered between network fabrics, a first set of modules, which is used to communicate with a first network fabric, decides whether to accept the packet or discard it. If the packet is accepted, it is delivered to a second set of modules, which is used for communicating with a second network fabric. The second set of modules makes a second, independent decision about whether the packet will be sent to the second network fabric. Each set of modules can base its decision on packet content type, and may discard any packet not to be delivered to the other network. | 05-03-2012 |
20120106565 | DATA BRIDGE - A data bridge controls the transfer of packets between different priority network fabrics of a closed network, e.g. high and low priority network fabrics a vehicular network. Processing circuitry determines first priority routing of a first packet from the first network fabric to the second network fabric based on packet content type of the first packet and priority conditions of the second network fabric. A determination is also made regarding whether a second packet is to be delivered from the second network fabric to the first network fabric. If the second packet is to be delivered, second priority routing of the second packet is made based on packet content type of the second packet and priority conditions of the first network fabric. | 05-03-2012 |
20120106653 | MULTIMEDIA PROCESSING WITHIN A VEHICULAR COMMUNICATION NETWORK - A head end unit for performing multimedia processing within a vehicle is capable in one embodiment of overlaying video graphics onto video streams to produce enhanced video streams. The head end unit is further for converting a high-resolution file to a low-resolution file for rendering on one or more low-resolution clients of the vehicle. | 05-03-2012 |
20120109406 | UNIFIED VEHICLE NETWORK FRAME PROTOCOL - A vehicle communication network includes a network fabric, a plurality of vehicle control modules, memory, one or more multimedia processing modules, and a network manager. The network manager is operable to coordinate communication of packets, via the network fabric, among the vehicle control modules, the memory, and the multimedia processing modules based on individual content of the packets and in accordance with a global vehicle network communication protocol. The network manager is further operable to facilitate network resource management to support the communication of packets via the network fabric in accordance with the global vehicle network communication protocol. | 05-03-2012 |
20120109407 | POWER MANAGEMENT WITHIN A VEHICULAR COMMUNICATION NETWORK - Power management within a vehicle is achieved by maintaining individual and/or power island power saving options for each of a plurality of devices coupled to a vehicular communication network of the vehicle. Upon determining that power savings should be enabled for a device, at least one of the power saving options for the device is selected and applied. | 05-03-2012 |
20120109446 | VEHICLE CONTROL MODULE - A vehicle control module includes a vehicle device and a vehicle network interface. The vehicle device is operable to perform a vehicle function. The vehicle network interface facilitates communication regarding the vehicle function between the vehicle device and a vehicle network fabric in accordance with a global vehicle network communication protocol. | 05-03-2012 |
20120109447 | VEHICLE BLACK BOX - A vehicle black box includes a memory device for receiving and storing real-time data associated with the vehicle during a recording time window. Upon determining that an accident has occurred, circuitry freezes the recording time window and stores the real-time data within the frozen recording time window within a one-time programmable (OTP) memory. | 05-03-2012 |
20120110356 | PROVIDING POWER OVER ETHERNET WITHIN A VEHICULAR COMMUNICATION NETWORK - A power distribution system within a vehicle operates to provide power over Ethernet to a plurality of network node modules coupled to a vehicular communication network of the vehicle. | 05-03-2012 |
20120173900 | PROVIDING POWER OVER ETHERNET WITHIN A VEHICULAR COMMUNICATION NETWORK - A power distribution and management system within a vehicle operates to provide power over Ethernet to a plurality of powered devices coupled to a vehicular communication network of the vehicle. | 07-05-2012 |
20120173905 | PROVIDING POWER OVER ETHERNET WITHIN A VEHICULAR COMMUNICATION NETWORK - A power distribution and management system within a vehicle operates to provide power over Ethernet to a plurality of powered devices coupled to a vehicular communication network of the vehicle. | 07-05-2012 |
20120230209 | System and Method for Exchanging Channel, Physical Layer and Data Layer Information and Capabilities - A system and method for exchanging channel, physical layer and data layer information and capabilities. The exchange of channel, physical layer and data layer capabilities enables optimal solutions for the provision of network services. In one embodiment, channel, physical layer and data layer capabilities are exchanged during an auto-negotiation process or LLDP messaging. | 09-13-2012 |
20120322450 | Communicatively Coupling WLAN and Femtocell Networks Utilizing a Femtocell-to-WLAN Network Bridge and Controller - Aspects of a method and system for communicatively coupling WLAN and femtocell networks utilizing a FC-to-WLAN network bridge and controller are provided. In this regard, data communicated via one or more femtocells and one or more WLAN access points may be managed via a FC-to-WLAN network bridge and controller communicatively coupled between a femtocell controller and an access point controller. The femtocell controller may be operable to manage and/or control operation of the one or more femtocells, and the access point controller may be operable to manage and/or control operation of the one or more WLAN access points. The FC-to-WLAN network bridge and controller, the femtocell controller, and the access point controller may intemperate to manage data communicated between a first end-user device communicatively coupled to one of the femtocells and a second end-user device communicatively coupled to one of the access points. | 12-20-2012 |
20130003725 | Universal Network Interface Controller - A universal network interface controller (UNIC) is provided for interfacing a host computer to a switch fabric, a packet network, or both. The UNIC includes ingress transmit logic designed to transmit switch fabric data in memory associated with the host computer to a switch fabric. The UNIC further includes egress receive logic designed to receive switch fabric data from the switch fabric to store the received switch fabric data in the host memory associated with the host computer. As an option, the ingress transmit logic may be further designed to transmit packet network data in memory associated with the host computer to a packet network, such as Ethernet, and the egress receive logic may be further designed to receive the packet network data from the packet network and to store the received switch fabric data and the received packet network data in the host memory associated with the host computer. | 01-03-2013 |
20130095836 | Green Femtocells and Methods of Implementing the Same - A femtocell for conserving power, which includes a transmitter module configured to be inactive for periods of call inactivity and data inactivity within a corresponding femtocell geographic coverage area, and includes a monitoring device configured to monitor the femtocell geographic coverage area, and further includes a controller module configured to cause a call handover to the femtocell when a cellular handset device is functioning and is located within the femtocell geographic coverage area. The femtocell also being configured to communicate with one or more macrocell base stations, each having a corresponding macrocell, which are configured to facilitate communication between the cellular handset device and a wireless network. | 04-18-2013 |
20130250933 | MANAGING DEVICES WITHIN A VEHICULAR COMMUNICATION NETWORK - A network node module within a vehicle operates to manage devices coupled to a vehicular communication network of the vehicle based on a use mode defining rights and privileges for operating in the vehicular communication network. Upon being configured in accordance with a particular use mode of a set of use modes, the network node module can identify a device coupled to the vehicular communication network and enable the device to operate within the vehicular communication network in accordance with the use mode. The network node module is securely reconfigurable to any use mode in the set of use modes. | 09-26-2013 |
20130262679 | Dataset Processing Using Network Performance Information - Dataset processing based on network performance information. Processing of large datasets can be based on particular network computing resources that are selected based on network performance information (e.g., link speed, latency, energy efficiency, etc.) associated with the network computing resources. With the network performance information, a network topology of the computing resources can be created that considers not only the processing capabilities of the network computing resources but also the performance of the network that interconnects the computing devices. | 10-03-2013 |
20130279500 | SWITCH MODULE - A switching module can route packets between a network fabric and a local network, both of which form a closed network such as a vehicular network. The switching module provides local network management functions, and handles packet transfers between the local network and the network fabric. The switching module uses network information, which can include information about packet content type and network topology, to determine a packet's priority, and an appropriate switching protocol to use for processing and routing packets. | 10-24-2013 |
20140006822 | Oversubscribing to a Packet Processing Device to Adjust Power Consumption | 01-02-2014 |
20140022929 | System and Method for Exchanging Channel, Physical Layer and Data Layer Information and Capabilities - A system and method for exchanging channel, physical layer and data layer information and capabilities. The exchange of channel, physical layer and data layer capabilities enables optimal solutions for the provision of network services. In one embodiment, channel, physical layer and data layer capabilities are exchanged during an auto-negotiation process or LLDP messaging. | 01-23-2014 |
20140036922 | PRIORITY PACKET PROCESSING - A network node in a vehicular network processes packets based on a prioritization scheme. The prioritization scheme uses packet type, priority, source, destination, or other information to determine a priority of the packets. Packets can be stored in one of multiple queues organized according to packet type, or other criteria. In some cases, only one queue is used. The packets are time stamped when put into a queue, and a time to live is calculated based on the timestamp. The time to live, as well as other factors such as packet type, packet priority, packet source, and packet destination can be used to adjust a packet's priority within the queue. Packets are transmitted from the queues in priority order. In some cases, the network node can identify a top-priority packet, and transmit the top priority packet without first storing the packet in the queue. | 02-06-2014 |
20140185601 | Radio Over Ethernet for Radio Access Network and Cloud-RAN - An architecture for transporting radio samples, compressed samples or pre-processed radio samples in symbol form across a communication network, including a packet switched network such as Ethernet. Further, the conversion of the radio samples from streaming data to a packetized format can also be performed. Processing of radio samples can be performed in a centralized location, where the centralized location can service multiple radio heads that are located across a large geographical area. This centralized processing can be referred to as Cloud-RAN. The radio heads can also perform pre-processing to reduce effective data rates across the communication network. Further, one or more of the components of the communication network can perform timing synchronization utilizing, for example, Synchronous Ethernet (SyncE) and/or IEEE 1588. | 07-03-2014 |
20140185612 | Universal Network Interface Controller - A universal network interface controller (UNIC) is provided for interfacing a host computer to a switch fabric, a packet network, or both. The UNIC includes encapsulation logic configured to encapsulate a CBP communication for transmission as switch fabric data on the switch fabric. Finally, the UNIC includes transmit logic configured to transmit the encapsulated CBP communication to the remote CBP device using the switch fabric. | 07-03-2014 |
20140355566 | Cross Radio Access Technology Access with Handoff and Interference Management Using Communication Performance Data - Systems and methods for adaptive access and handover configuration based on historical data are provided. Access and handover decisions are optimized in a multiple radio access technology environment using historical data associated with network performance. Future needs for access and handovers are predicted using historical data associated with the user and historical data associated with network performance. Performance metrics are received periodically or continuously from nodes in one or more networks at a centralized controller. The centralized multi RAT controller correlates these performance metrics and determines predicted handovers for a user device. Preparations for the predicted handovers can then be made prior to the handover event. | 12-04-2014 |