Abstract: In one embodiment, a method includes obtaining a first message from an application associated with a variable bit-rate (VBR) media flow, the first message including information that has at least an approximately minimum bandwidth at which the VBR media flow may operate and an amount by which a bandwidth of the VBR media flow may be trimmed. The method also includes determining an amount of available bandwidth in a network, and identifying the approximately minimum bandwidth at which the VBR media flow may operate and the amount by which the bandwidth of the VBR media flow may be trimmed. Finally, the method includes identifying a bandwidth allocation identified based on the amount of available bandwidth in the network, the approximately minimum bandwidth at which the VBR media flow may operate, and the amount by which the bandwidth of the VBR media flow may be trimmed.

Abstract: A customer Quality-of-Service (QoS) transport capability is depicted and described herein. The customer QoS transport capability enables transparent transport of customer QoS information via a Provider Backbone Bridging (PBB) network. The customer QoS transport capability enables customer QoS information that would normally be terminated at a point of ingress to a PBB network to be transported via the PBB network transparently and recovered at a point of egress from the PBB network.

Abstract: A communication device generates an informational element (IE) to include an indication of a minimum modulation and coding scheme (MCS) allowable in a wireless communication network. The minimum MCS is from an ordered set of multiple MCSs defined by a communication protocol utilized by the wireless communication network. The indication of the minimum MCS also indicates use of any MCSs below the minimum MCS in the ordered set of MCSs is not allowed in the wireless communication network. The communication device generates a data unit that includes the IE.

Abstract: This node, applying an information broadcasting service of the flooding type, includes a controller for accessing the radio resource able to perform dynamic containment for accessing the radio resource. It is characterized in that it includes a network coder allowing generation of the data packets so that each packet includes, in the payload portion, a message (M) resulting from the combination of a plurality of pieces of information (Info_idi) to be broadcast, and in the header portion, a list (L) of the identifiers (Idk) of the pieces of information combined in the message.

Abstract: Geocast-based file transfer may be implemented via use of a Geocast File Transfer (GFT) protocol. A sending device may parse a file into multiple chunks. Respective multiple geocast packets comprising the chunks may be geocast. The sending device may geocast all packets sequentially. Upon geocasting all packets, the sending device may wait a predetermined amount of time. During the period of time, any receiving device that did not receive a chunk of the file may geocast a request for the missing chunk. Receiving devices also may wait various respective amounts of time before geocasting requests. Other receiving devices that may have missed a chunk may hear that the chunk it missed is being requested. And that device need not make a request for the chunk. Rather, that device may wait for the sending device to retransmit a geocast packet that contains the missing chunk.

Abstract: A method of managing TA functionality for a communication device of a wireless communication system which supports carrier aggregation that multiple component carriers are aggregated to support wider transmission bandwidth is disclosed. The method comprises receiving a RRC message indicating a usage of a timing advance command for each of a plurality of component carriers configured to the communication device, from a cell in a network of the wireless communication system, when the timing advance command has been received from the cell for each of the plurality of component carriers, applying the timing advance functionality corresponding to each of the plurality of component carriers, for updating a timing advance value for each of the plurality of component carriers, and when updating the timing advance value for each of the plurality of component carriers, starting or restarting a time alignment timer for each of the plurality of component carriers.

Abstract: A system for measuring aspects of a network having a plurality of network components, includes a monitor configured to gather operational characteristics of at least one of the plurality of network components and an analyzer. The analyzer is configured to analyze the gathered operational characteristics received from the monitor and estimate characteristics of an unmonitored one of the plurality of network components based on the gathered operational characteristics.

Abstract: Channel traffic in Internet Protocol (IP) networks may be placed in priority queues upon receipt. Providing an efficient way for operators to use the channel may enable the operator to better make decisions for configuring the priority queues, maximizing effectiveness. For example, measuring a queue latency and making a queue latency visible to an operator may enable a better configuration of priority queues. Further, an improved latency metric may assist an operator to judge a relative effect that priority assignments have on traffic over a channel. Such techniques may be applied to an out-of-band (OOB) channel to include an assessment of parameters important for optimizing the configuration of priority queues in a downstream channel. For example, an improved latency metric for assisting an operator to judge the relative effect that priority assignments have on traffic is a parameter assessed for better use of an OOB channel.

Abstract: Apparatus and methods are directed to calibrating a delay within a wireless access point for determining a position of a mobile station. One method includes receiving an initial packet at an eavesdropping device, receiving a response packet, sent by another entity, at the eavesdropping device, computing a time difference based upon the packet arrival times, and providing the time difference to a position determination entity. Another method includes providing a request to appropriate eavesdropping devices to send information, receiving, from each appropriate eavesdropping device, a time difference which represents a difference in a time of arrival of a packet transmitted by the wireless access point and a time of arrival of a packet transmitted by the mobile station, determining a processing delay estimate based upon the time differences, and determining a position of the mobile station based upon the processing delay estimate and the received time differences.

Abstract: A method and system determines an absolute Multicast-Broadcast Single Frequency Network (MBSFN) configuration based on a threshold. First saved radio resources and first wasted radio resources are calculated. The absolute MBSFN configuration is set as the final MBSFN configuration when the first saved radio resources are greater than or equal to the first wasted radio resources. When untrue, the absolute MBSFN configuration plus an adjacent cell pool is set as the final MBSFN configuration based on the final MBSFN configuration achieving a maximum value of second saved radio resources minus second wasted radio resources. When both of these conditions are untrue, the absolute MBSFN configuration minus an MBSFN cell pool is set as the final MBSFN configuration based on the final MBSFN configuration achieving a maximum value of third saved radio resources minus third wasted radio resources.

Abstract: In an embodiment, a method can include setting metadata of a first data packet to have a first priority level based on a first internal classifier of the first data packet and setting metadata of a second data packet to have a second priority level based on a second internal classifier of the second data packet. The first data packet and second data packet can be of the same traffic type (e.g., iSCSI). The method can further include sub-classifying (e.g., the same traffic type), based on the first and second priority levels, to direct the first data packet into a first data channel and second data packet into a second data channel for the same traffic type.

Abstract: In one implementation, a network device is configured to implement an intra switch transport protocol. The intra switch transport protocol is configured to determine a window size according to a predetermined bandwidth and a round trip time between a plurality of ingress ports and an egress port. The network device is configured to sending at least one data packet from an ingress port to an egress port without first receiving any acknowledgement from the egress port. The network device continues to send packets and increment a counter accordingly until the counter reaches the window size. The network device ceases transmission of subsequent data packets and/or queues subsequent data packets based on the counter exceeding the window size.

Abstract: An embodiment of the present invention relates to a method in which a base station transmits a signal in a wireless communication system, comprising: a step of generating a reception acknowledgement response to the uplink data received from a terminal; and a step of mapping the reception acknowledgement response to a downlink time-frequency resource and transmitting the mapped result. The downlink time-frequency resource is located on a resource region excluding the control region indicated by a physical control format indicator channel, and associated with the index of the resource block with which the uplink data is transmitted.

Abstract: Techniques for aggregating heterogeneous carriers in a wireless communication system are disclosed. A mobile device may receive a configuration for aggregating a plurality of component carriers including one or more cellular carriers and a wireless local area network (WLAN) carrier. The one or more cellular carriers may include LTE carriers, and aggregation may be performed at a sub-IP protocol layer of operation. In one aspect, protocol entities may be modified to perform quality of service determinations, carrier selection, traffic mapping, or the like, in view of the different capabilities and characteristics of the heterogeneous carriers in the carrier aggregation configuration.

Abstract: A method and system for managing time segments per subframe used for downlink control channel communication by adjacent base stations. The base stations may work with each other to arrange for their respective use of different time segments per subframe for their respective downlink control channel use. Further, each base station may also avoid downlink traffic channel communication in the time segments per subframe that the other base station will be using for control channel communication.

Abstract: Systems and methods for the communication of data over a plurality of parallel communication paths are provided. Embodiments of the parallel communications systems and methods may discover, characterize, and leverage multiplicity of resources in various network elements to provide network applications with a desired communication objective and level of performance. The systems and methods may dynamically adapt to changes in the network resources to continuously provide the desired communication performance.

Abstract: A mobile application gateway for connecting devices on a cellular network with individual networks, such as enterprise voice and data networks and/or residential networks. The effects of the present invention are far reaching in terms of transferring effective call control from the cellular network into the control of the individual network such as the enterprise, and enabling new business models for the purchase of cellular service from a public cellular carrier by an enterprise. The invention may consist of a primarily of core network and services components based on the IMS network architecture, and is backward compatible to support legacy systems in place in current telecom and data networks.

Abstract: An approach is provided that responds to a connection request to connect to an external network entity using a connection from a managed connection pool. The connection pool is managed by selecting connections from the connection pool that includes one or more currently unused connections with the external network entity. One of the selected connections is validated by comparing an idle time associated with each of the selected connections to a maximum idle time value corresponding to the external network entity. The maximum idle time value being previously identified at the information handling system. The validated connection is then used to connect to the external network entity to satisfy the connection request.

Abstract: Apparatus, methods, and machine-readable articles of manufacture improve reliability and scalability of a messaging system. In some embodiments, the system's configuration data and subscriber information are stored in a central repository of a core node, and replicated to one or more non-core nodes. Data replication may be performed in real-time or near real-time, periodically, sporadically, or otherwise. Nodes may rely on the replicated data to provide the system's subscribers and outside callers with services that do not involve updating of configuration or subscriber data. In this way, the non-core nodes may continue to process calls when the core node is unavailable. For example, the non-core nodes can route calls to the appropriate subscribers without relying on the core. As another example, the non-core nodes can take messages from callers when the core node is unavailable. The messages may be queued for posting and delivery when the core node becomes available.

Abstract: Provided are a computer program product, system, and method for implementing a converged network protocol to facilitate communication between different communication protocol networks. There are configuration parameters in a memory for communication between the first adaptor implementing a first communication protocol and the second adaptor in a converged network protocol to indicate to the second adaptor that the converged network protocol is supported. A packet is received at the first adaptor encoded in a second communication protocol directed to a third communication protocol network, forwarded to the second adaptor, and then forwarded to the third communication protocol network. A command is received at the second adaptor, directed to the first adaptor, to implement a first function in the converged network protocol for communication between the first and second adaptors. A second function in the first communication protocol to implement the first function is transmitted to the first adaptor.