Abstract: A method of handling signaling and data transmission for machine-type communication (MTC) for a network node in a mobile communication environment is disclosed. The method comprises receiving a non-access stratum (NAS) request message from a mobile communication device when the network control node is congested; and sending a trigger delivery failure report to a network gateway node in the core network to reject a trigger request message received from the network gateway node for triggering the mobile communication device.
Abstract: A method for communicating in a wireless local area network. The method according to one embodiment includes transmitting, by a first station, a plurality of a request to send (RTS) frames to a second station through a plurality of subchannels; receiving, by the first station, at least one clear to send (CTS) frame; and transmitting, by the first station, a data frame to the second station. If the at least one CTS frame includes channel information indicating all of the at least one idle subchannel through which the at least one CTS frame is transmitted, the data frame is transmitted via the at least one idle subchannel indicated by the channel information, and if the at least one CTS frame does not include the channel information, the data frame is transmitted via at least one of the plurality of subchannels indicated by the plurality of RTS frames.
Abstract: A system, method, and computer readable medium that facilitates delivery of mobile-terminated short message service messages to a mobile station attached with a femtocell system are provided. A convergence server deployed in a core network receives a short message for short message service delivery to a mobile station attached with a femtocell system. If there is no active traffic channel with the mobile station, or if the short message is to be delivered to the mobile station via a paging channel, the femtocell system triggers an authentication process. The convergence server constructs a short message service delivery request message, transmits the short message service delivery request message to the femtocell system, and receives one of an acknowledgement and a negative acknowledgment regarding delivery of the short message to the mobile station. The convergence server thereafter notifies the message center of the acknowledgment or negative acknowledgement received thereby.
Abstract: A telecommunications network adapted to process data packets according to the client mobile internet protocol domain is extended to provide bearer capability, such that subsessions can be used to distinguish one portion of traffic from another. A different Quality of Service (QoS) can be assigned to each bearer. The bearers can be setup by a mobile node or a home agent in the telecommunications network.
Abstract: A method of wireless communication includes determining a number of symbols for uplink control information (UCI) on each of a plurality of layers, multiplexing symbols for the UCI with data on multiple layers such that the symbols are time aligned across the layers, and sending the multiplexed symbols on the multiple layers on uplink. In some designs, the number of symbols for the UCI may be determined based on a spectral resource parameter.
Type:
Grant
Filed:
May 2, 2011
Date of Patent:
August 4, 2015
Assignee:
QUALCOMM Incorporated
Inventors:
Xiliang Luo, Tao Luo, Hao Xu, Wanshi Chen, Xiaoxia Zhang, Peter Gaal, Juan Montojo
Abstract: A method is described for synchronizing a clock of a client in a packet based communication network with respect to a reference time provided by a timeserver. Packets containing at least one timestamp indicating a sending time of the packet are sent from the timeserver and received at the client. Upon arrival of each packet at the client, the arrival time is determined and the delay between the timestamp and the arrival time is also determined for a first plurality of packets. A first variation of the delays of these packets is calculated and based on this calculation a first observation frame is defined whose size depends on the first variation of the packet delays. The first observation frame comprises a second plurality of delays associated with the first plurality of delays. Further, a first representative delay based on the second plurality of delays is determined.
Abstract: Multiple gateway devices communicating between a device level ring (DLR) network and a spanning tree (ST) network may be provided a gateway protocol that cooperatively ensures that only a single gateway is active at a given time. This cooperation may be effected by the transmission of advertise messages by gateways, the advertise messages holding precedence values so that only a single gateway having a highest precedence value is active at a given time. Loss of the advertise messages may trigger a gateway held in a backup state to assume an active gateway role.
Abstract: A method to promote connectivity between a user agent (UA) and a packet data network (PDN) is provided. The method comprises determining a quality of service class identifier (QCI) to associate with a service data flow, determining a sense of change in at least one of a priority, a packet delay budget, and a packet error loss rate of the QCI to associate with the service data flow, and sending a request to establish a service data flow treatment, the request comprising the QCI and a QCI extension encapsulating the sense of change of the QCI.
Type:
Grant
Filed:
April 16, 2010
Date of Patent:
August 4, 2015
Assignee:
BlackBerry Limited
Inventors:
Xiaoming Zhao, Claude Jean-Frederic Arzelier
Abstract: A migration destination storage apparatus among a plurality of storage apparatuses and has a controller for sending or receiving information to or from a host computer and managing each migration destination volume as an access target of the host computer. The controller manages each migration destination volume by dividing the migration destination volumes into a plurality of resource groups based on identification information for identifying each migration source volume; manages a plurality of resources related to each migration destination volume by associating them with each resource group; and manages each migration destination volume and each resource belonging to each resource group as operation targets to be allocated individually to each migration source user who uses each migration source volume, and as operation targets over which only each migration source user has operation authority.
Abstract: Embodiments of the invention provide a method and apparatus for managing feature support requirements for a communication protocol with major-minor version spans having temporal constraints on feature definitions using a flexible Diameter command dictionary wherein context-specific definitions are defined to apply to different versions and releases.
Abstract: A distributed fabric system comprises a plurality of independent network elements interconnected by inter-switch links and assigned to a same group. Each network element includes a switching chip, a processor, and memory storing program code that is executed by the processor. The program code of each network element includes a device configuration (DC) stacking module and a switch discovery protocol (SDP) module. The SDP module of each network element, when executed, discovers each other network element in the group and elects one of the network elements as a master network element. The SDP module of the master network element, when executed, sends messages to the DC-stacking module of the master network element. Each sent message identifies one of the network elements in the group. The DC stacking module of the master network element, when executed, maintains a record of all network elements that are currently members in the group.
Type:
Grant
Filed:
February 2, 2012
Date of Patent:
July 21, 2015
Assignee:
International Business Machines Corporation
Inventors:
Sushma Anantharam, Nirapada Ghosh, Keshav Govind Kamble, Dar-Ren Leu, Chandarani J. Mendon, Vijoy A. Pandey, Nandakumar Peethambaram
Abstract: The invention relates to a method and a system for transferring timing messages in a digital data transfer system. In a solution according to the invention a timing message is transferred (101, 102, 103) within control data carried in a protocol data unit. The timing message is dependent on a transmission moment of the protocol data unit from a network element of the digital data transfer system. The control data is a synchronization status message (Ethernet-SSM) carried in an Ethernet-frame. Therefore, the number of such protocol data units that are dedicated only for timing purposes can be reduced.
Type:
Grant
Filed:
October 17, 2007
Date of Patent:
July 21, 2015
Assignee:
CORIANT OY
Inventors:
Mikko Laulainen, Kenneth Hann, Jorma Kausiala
Abstract: Example methods, apparatus and articles to manage routing in networks are disclosed. A disclosed example method includes identifying a first network element associated with a problematic network element; identifying a first maximum transmission unit of the first network element and a second maximum transmission unit of the problematic network element; determining whether the first and second maximum transmission units are different; and when the first and second maximum transmission units are different, identifying a value of a greater one of the first and second maximum transmission units and configuring the first network element and the problematic network element to each have the identified value.
Type:
Grant
Filed:
May 2, 2013
Date of Patent:
July 14, 2015
Assignee:
Interactions LLC
Inventors:
Zhiqiang Qian, Michael Zinnikas, Jackson Liu
Abstract: A relay station performing wireless communications with a plurality of other relay stations and at least one wireless terminal, the relay station including: a scheduler, when at least one of the relay station and the other relay stations receives data from a wireless terminal controlled thereby, generating a first map such that the data is exchanged among the relay station and the other relay stations during a first period, and generating a second map such that the data as received during the first period is transmitted to the controlled wireless terminal during a second period.
Abstract: A femto access point (FAP) for use in a network system and a communication method for the femto access point are provided. A mobile station is wirelessly connected to the FAP. The FAP comprises a storage unit, a sniffer unit, and a process unit. The sniffer unit sniffs a packet of the mobile station. The process unit retrieves an identity (ID) code of the mobile station from the packet and stores the ID code into the storage unit. The process unit further establishes an uplink local area network (LAN) service flow and a downlink LAN service flow of the mobile station. The uplink LAN service flow and the downlink LAN service flow established by the FAP and the mobile station are used to transfer packets within the LAN.
Abstract: A method, an apparatus, and a computer program product for wireless communication are provided in which the method of wireless communication includes identifying a reference cell; selecting a plurality of candidate cells based on a criteria; determining a characteristic for the reference cell and the plurality of candidate cells; and setting a position based on the determined characteristic.
Abstract: Network architecture configured for open communication between a plurality of sub-networks. Each of the plurality of sub-networks has a different routable network addressing scheme. The architecture includes at least one broker node adapted to communicate using at least two different routable network addressing schemes. The broker node comprises an identification management module configured to collect peer-application addresses for nodes currently accessing a specific application, the peer-application addresses being associated with a specific application, an address resolution module configured to map each of the peer-application addresses to a sub-network specific routable network address and a network coordination module configured to monitor and coordinate sub-network communication capabilities between the broker node and at least one other broker node and elect a primary broker node for each sub-network which the broker node and at least one other broker node is capable of communication.
Abstract: Disclosed are various embodiments of a telecommunication environment including a wireless transmitter in a first mobile device that enables the first mobile device to communicate over a network infrastructure. An application may be executed in the first mobile device such that the application enables the first mobile device to communicate with a second mobile device over a wireless ad hoc network. The application may further facilitate a requisitioning of a remote computer resource of the second mobile device over the wireless ad hoc network.
Abstract: A method of allocating resource elements in an orthogonal frequency division multiplexed (OFDM) system for transmission of a channel state information reference signal (CSI-RS) is disclosed. The method includes converting one or more resource elements to a two-dimensional frequency-time domain; and partitioning the one or more converted resource elements to units of a physical resource block (PRB). One or more resource elements are patterned over at least a portion of the PRB for transmission of the CSI-RS. According to an embodiment, the CSI-RS resource elements with a same subcarrier index for a common cell are code division multiplexed (CDM), with a CDM dimension equal to a number of CSI-RS resource elements with the same subcarrier index for the common cell.
Abstract: A mobile terminal and a method of managing and performing data communication using the same are provided. The mobile terminal effectively performs data communication over heterogeneous networks at a low cost and effectively manages communication modules connected to the heterogeneous network, and the method performs and manages data communication using the mobile terminal.