04th week of 2015 patent applcation highlights part 31 |
Patent application number | Title | Published |
20150023284 | DUAL NETWORK MOBILE DEVICE RADIO RESOURCE MANAGEMENT - A single chip mobile wireless device capable of receiving and transmitting over one wireless network at a time maintains registration on two wireless communication networks that each use different communication protocols in parallel. Periodically, the mobile wireless device tunes one or more receivers from a first wireless network to a second wireless network in order to listen for paging messages addressed to the mobile wireless device from the second wireless network. The first wireless network suspends allocation of radio resources to the mobile wireless device based on receipt of a suspension message from the mobile wireless device, or based on knowledge of a paging cycle for mobile wireless device in the second wireless network, or based on detection of an out of synchronization condition with the mobile wireless device. | 2015-01-22 |
20150023285 | METHOD AND APPARATUS FOR SELECTING AND RESELECTING AN UPLINK PRIMARY CARRIER - A method and apparatus are described for using an uplink (UL) primary carrier for long term evolution-advanced (LTE-A) to support hybrid automatic repeat request (HARQ) feedback, a channel quality indicator (CQI), a scheduling request (SR), power headroom, and at least one buffer status report in the context of asymmetrical deployment and symmetrical deployment. | 2015-01-22 |
20150023286 | METHOD AND APPARATUS FOR TRANSMITTING CONTROL INFORMATION IN A WIRELESS COMMUNICATION - The present invention relates to a wireless communication system. More particularly, the present invention relates to a method for transmitting acknowledgement/negative ACK (ACK/NACK) in a wireless communication system which supports carrier aggregation, and to an apparatus for the method. A method in which a terminal transmits ACK/NACK in a wireless communication system that supports carrier aggregation comprises the following steps: receiving one or more physical downlink shared channels (PDSCHs); and transmitting ACK/NACK for said one or more PDSCHs via a physical uplink control channel (PUCCH). A PUCCH format for transmitting ACK/NACK is selected by taking the type of the carrier in which said one or more PDSCHs are received into account. | 2015-01-22 |
20150023287 | MOBILE STATION, A MOBILE RADIO COMMUNICATION SYSTEM, AND A MOBILE RADIO COMMUNICATION METHOD - In a mobile radio communication method in which a mobile station moves among a plurality of base stations at high speed, in order to solve a problem of increase in the amount of operation and its related increase in the amount of power consumption and heat emission which is resulted for maintaining good communication quality of communication by the mobile station which moves at high speed to the direction for approaching the base station or moving away from it, it provides detecting means for detecting changes in relative positions to a plurality of base stations, and selecting means for selecting an uplink signal reception base station which receives an uplink signal and selecting one or plural base stations, fluctuation of increase and decrease of which of distance from own mobile station is an opposite manner compared with a case of the uplink signal receiving base station, based on changes in the relative positions detected by said detecting means as a downlink signal transmission base station which transmits a downlink signal. | 2015-01-22 |
20150023288 | DUAL INTERPRETATION OF A LENGTH FIELD OF A SIGNAL UNIT - A method includes generating, at a second wireless device, a signal (SIG) unit to be transmitted to a first wireless device. The SIG unit includes a length field and an aggregation field. In response to determining to use aggregated transmission to the first wireless device, the method further includes setting the aggregation field to a first value and setting the length field to a number of symbols. In response to determining not to use the aggregated transmission to the first wireless device, the method further includes setting the aggregation field to a second value and setting the length field to a number of bytes. | 2015-01-22 |
20150023289 | DATA TRANSMISSION METHOD AND SYSTEM, BASE STATION AND USER EQUIPMENT - Embodiments of the present invention provide a data transmission method and system, a base station, and a user equipment (UE). The method includes: obtaining, by a base station, a second number of physical resource blocks (PRBs) according to a first number of PRBs, where the second number of PRBs is smaller than the first number of PRBs, and the first number of PRBs is exactly divisible by the second number of PRBs; sending, by the base station, indication information to a UE, where the indication information is used to indicate the second number of PRBs or an encoded bit repetition multiple, and the encoded bit repetition multiple is equal to the first number of PRBs divided by the second number of PRBs; and obtaining, by the UE, the encoded bit repetition multiple according to the indication information, and performing data transmission according to the encoded bit repetition multiple. | 2015-01-22 |
20150023290 | CHANNEL SEARCHING METHOD, DEVICE, AND SYSTEM - Embodiments of the present invention provide a channel searching method, device, and system. The method includes: determining a number of a first channel control element according to a frequency domain resource that is configured for a terminal by a base station and supports transmission of a first physical downlink control channel and a position of the first channel control element in an RB to which the first channel control element belongs; determining a search space according to the frequency domain resource and an aggregation level of the first physical downlink control channel; and determining the first channel control element in the search space according to the number of the first channel control element. The embodiments of the present invention implement detection of a first physical downlink control channel such as an E-PDCCH or an R-PDCCH in the search space determined by the embodiments of the present invention. | 2015-01-22 |
20150023291 | METHOD AND APPARATUS FOR TRANSCEIVING A MIMO PACKET IN A WIRELESS LAN SYSTEM - A method of transmitting a packet in a wireless local area network system. The method is performed by a transmitting station and includes generating a packet including at least one spatial stream and first control information including a first field and a second field, and transmitting the packet to at least one receiving station. The first field indicates a group ID of the at least one receiving station and whether the packet is generated based on a single user transmission scheme or a multi user transmission scheme. Content of the second field is determined based on whether the packet is generated based on the single user transmission scheme or the multi user transmission scheme, the second field indicates a modulation and coding scheme (MCS) index used for the packet if the packet is generated based on the single user transmission, and the second field indicates an encoding scheme applied to the at least one receiving station if the packet is generated based on the multi user transmission scheme. | 2015-01-22 |
20150023292 | INTEGRATED CIRCUIT FOR CONTROL CHANNEL ALLOCATION - A wireless communication base station apparatus that allows the number of times of blind decodings at a mobile station to be reduced without increasing the overhead caused by notifying information. In this apparatus, a CCE allocation part allocates allocation information allocated to a PDCCH received from modulation parts to a particular one of a plurality of search spaces that is corresponding to a CCE aggregation size of the PDCCH. A placement part then places the allocation information in one of downstream line resources, reserved for the PDCCH, that is corresponding to the CCE of the particular search space to which the allocation information has been allocated. A radio transmission part then transmits an OFDM symbol, in which the allocation information has been placed, to the mobile station from an antenna. | 2015-01-22 |
20150023293 | Efficient Communication for Devices of a Home Network - Systems and methods are provided for efficient communication through a fabric network of devices in a home environment or similar environment. For example, an electronic device may efficiently control communication to balance power and reliability concerns, may efficiently communicate messages to certain preferred networks by analyzing Internet Protocol version 6 (IPv6) packet headers that use an Extended Unique Local Address (EULA), may efficiently communicate software updates and status reports throughout a fabric network, and/or may easily and efficiently join a fabric network. | 2015-01-22 |
20150023294 | Efficient Communication for Devices of a Home Network - Systems and methods are provided for efficient communication through a fabric network of devices in a home environment or similar environment. For example, an electronic device may efficiently control communication to balance power and reliability concerns, may efficiently communicate messages to certain preferred networks by analyzing Internet Protocol version 6 (IPv6) packet headers that use an Extended Unique Local Address (EULA), may efficiently communicate software updates and status reports throughout a fabric network, and/or may easily and efficiently join a fabric network. | 2015-01-22 |
20150023295 | APPARATUS, SYSTEM AND METHOD FOR THE TRANSMISSION OF DATA WITH DIFFERENT QoS ATTRIBUTES - An apparatus, system and method are provided for transmitting data from logical channel queues over a telecommunications link, each of the logical channel queues capable of being associated with quality of service attributes, the method including determining available resources for transmission over the telecommunications link in a frame; selecting one of the logical channel queues based on a first one of the quality of service attributes; packaging data from the selected one of the logical channel queues until one of: a second one of the quality of service attributes for the selected one of the logical channel queues is satisfied, the available resources are used, or the selected one of the logical channel queues is empty; and repeating the selecting step and the packaging step for remaining ones of the logical channel queues. | 2015-01-22 |
20150023296 | TIMING ADJUSTMENT FOR SYNCHRONOUS OPERATION IN A WIRELESS NETWORK - Techniques for adjusting transmit timing of base stations and user equipments (UEs) in a wireless network are described. In one operating scenario, a femto base station communicates with a femto UE, and a macro base station communicates with a macro UE located within the coverage of the femto base station. In an aspect, the transmit timing of the femto base station may be delayed relative to the transmit timing of the macro base station, e.g., to time align downlink signals from the femto and macro base stations at the femto and macro UEs. In another aspect, the transmit timing of the femto UE may be advanced relative to the transmit timing of femto base station by an amount larger than twice the propagation delay between the femto UE and the femto base station, e.g., to time align uplink signals from the femto and macro UEs at the femto base station. | 2015-01-22 |
20150023297 | COMMUNICATION SUPPORTING METHOD AND APPARATUS USING NON-ACCESS STRATUM PROTOCOL IN MOBILE TELECOMMUNICATION SYSTEM - A method and apparatus for supporting Non-Access Stratum (NAS) communication between a User Equipment (UE) and a Mobility Management Entity (MME) efficiently by addressing the signaling problems occurring between the UE and the MME in a situation where it is necessary for a network node to identify the UE and acquire UE information, if there is any, from another network node to which the UE has been attached, are provided. The method for communication between the UE and network based on the NAS protocol messages and operations is implemented with the involvement a UE, an MME, and an old MME or an old Serving General Packet Radio Service (GPRS) Support Node (SGSN) to which the UE has been attached before so as to facilitate discovering a best node using the UE information acquired from the old MME or old SGSN during the communication between the UE and the network, resulting in a reduction of a communication delay between the UE and network and an improvement of communication efficiency. | 2015-01-22 |
20150023298 | SYSTEM AND METHOD FOR SELECTING A TRANSMISSION CHANNEL IN A WIRELESS COMMUNICATION SYSTEM THAT INCLUDES AN ADAPTIVE ARRAY - A method for establishing wireless communication between a transmitter and a receiver in a wireless communication system is disclosed. The receiver includes an adaptive array that has at least two antennas. Each antenna receives a signal and produces a received signal. The transmitter includes at least two transmission channels for communicating the signal from the transmitter to the receiver. The wireless communication system suppresses interference at the receiver by applying an interference suppression technique when combining the received signals. The selection of a channel at the transmitter is based on the channel performance at the receiver for each transmission channel. The channel performance is based on a combining technique different from the interference suppression technique. | 2015-01-22 |
20150023299 | WIRELESS COMMUNICATION SYSTEM, WIRELESS COMMUNICATION APPARATUS, WIRELESS COMMUNICATION METHOD AND COMPUTER PROGRAM - The present invention eliminates a transmission-waiting operation which is unnecessary while accommodating a prioritized traffic. Although a communication station enters a transmission-disallowed state in response to detection of a signal addressed to another station in accordance with medium access control based on CSMA, if the communication station receives a frame transmitted with priority to a local station during the transmission waiting, it cancels the transmission-disallowed state, sends back a frame responding the frame transmitted with priority and effectively operates a transmission prioritized period. The communication station starts a search procedure to perform a processing of evading duplication of the transmission prioritized periods if it judges a possibility of a problem occurring in a time zone in which reception with priority is possible. | 2015-01-22 |
20150023300 | METHOD FOR COMMUNICATING IN A MOBILE NETWORK - A method for communicating between a primary station and at least one secondary station, comprising: configuring the secondary station to search at least one of a plurality of search spaces having a first structure, the first structure consisting of at least a first number of resource sets having a first size, where at least one resource set is for transmitting a message to the secondary station, and changing the search space structure to a second structure different from the first structure in response to a signalling message. | 2015-01-22 |
20150023301 | METHOD AND APPARATUS FOR TRANSMITTING/RECEIVING CHANNEL QUALITY INFORMATION IN A COMMUNICATION SYSTEM USING AN ORTHOGONAL FREQUENCY DIVISION MULTIPLEXING SCHEME - A method and Mobile Subscriber Station (MSS) are provided for transmitting Channel Quality Information (CQI) in a wireless communication system. The method includes transmitting first information including a value related to CQI for at least one of bands; and transmitting second information including a differential CQI for the at least one of the bands, wherein each band comprises a plurality of adjacent subcarriers. | 2015-01-22 |
20150023302 | MOBILE COMMUNICATION SYSTEM, BASE STATION APPARATUS, MOBILE STATION APPARATUS AND COMMUNICATION METHOD - A UE receives i) first information (info1) used for configuring a first set and a second set of downlink component carriers (DCCs) (hereinafter “set1” and “set2”), set1 corresponds to a first value of a field of second information (info2), set2 corresponding to a second value of the field of info2, info2 being used for requesting a transmission of channel state information (CSI), and ii) downlink control information (DCI) including info2, using a PDCCH, where the DCI being used for scheduling of a PUSCH in one uplink component carrier. The UE transmits, using the PUSCH, a) the CSI for set1 which is configured in a case that the DCI including info2 is received and a value of the field of info2 is the first value, and b) the CSI for set2 which is configured in a case that the DCI including info2 is received and a value of the field of info2 is the second value. | 2015-01-22 |
20150023303 | INTERWORKING BETWEEN SYSTEMS USING DIFFERENT IP MOBILITY MANAGEMENT PROTOCOLS - Systems and methods allow 3GPP and non-3GPP access with interworking between GTP-based networks and PMIP-based networks. For handover attachment of a UE, an IWP can be provided the address of the PGW which was used in the initial attachment of the UE so that, for example, an IP address can be maintained for an ongoing data connection established with the UE. Alternatively, the same IWP can operate as the proxy for all data connections with the UE such that the IWP is aware of the PGW used for the initial attachment and can reuse the same PGW for handover. | 2015-01-22 |
20150023304 | Dynamic Assigning Of Bandwidth To Field Devices In A Process Control System - A wireless network managing device for a wireless network that is part of a process control system. The wireless network managing device includes a node determination element configured to receive an operator selection of at least one node in the process control system via an operator terminal and determine a field device implementing the functionality of the node, and a bandwidth control element configured to adjust a bandwidth assigned to the at least one field device in an auxiliary data section of a communication structure used by the wireless network based on the received operator selection in order to increase system responsiveness. | 2015-01-22 |
20150023305 | UPLINK CONTROL INFORMATION TRANSMISSION ON BACKWARD COMPATIBLE PUCCH FORMATS WITH CARRIER AGGREGATION - A method for reporting uplink control information (UCI) on a user equipment (UE) is described. A number of bits for a channel quality indicator and/or a precoding matrix index and/or a rank indication (CQI/PMI/RI) is obtained. A number of component carriers with hybrid automatic repeat request acknowledgement (HARQ-ACK) reporting is also obtained. A total number of HARQ-ACK bits is further obtained. A number of HARQ-ACK bits that can be carried on the physical uplink control channel (PUCCH) is determined. Bundling is performed on the total number of HARQ-ACK bits to be reported to fit the total number of HARQ-ACK bits to be reported into the number of HARQ-ACK bits that can be carried on the PUCH. A backward compatible PUCCH format is used to simultaneously carry the CQI/PMI/RI bits and the HARQ-ACK bits. | 2015-01-22 |
20150023306 | MECHANISM TO AVOID INTERFERENCE AND IMPROVE CHANNEL EFFICIENCY IN MMWAVE WPANS - Briefly, a mechanism to avoid interference and improve channel efficiency in mmWave Wireless Personal Area Networks (WPANs) is disclosed. According to an embodiment of the present invention, neighbor devices can identify whether a certain high rate channel is being used or not through a communication on another channel, and thus avoidance actions may be taken by neighbor devices even if they do not receive signals from the high rate channel. | 2015-01-22 |
20150023307 | RADIO TRANSMISSION DEVICE AND METHOD - A radio transmitting device and method enables reduction of an increase of CGI memories for the control channel and an improvement of the throughput of the data channel. When multiplex transmission through the control channel and the data channel is carried out and when adaptive modulation is applied to both channels, an MCS selecting section is provided with one CQI table for the data channel and CQI tables for the control channel, and a table selecting MCS determining section selects one of the tables depending on the transmission bandwidth of the terminal and determines the MCS of the control channel while looking up the selected CQI table. | 2015-01-22 |
20150023308 | LINK ADAPTATION METHOD AND APPARATUS IN WIRELESS LAN SYSTEM - A link adaptation method performed by a station (STA) in a wireless local area network (LAN) system supporting multi-user multiple-input multiple-output (MU-MIMO) is provided. The method includes: receiving a modulation and coding scheme (MCS) request, a steered sounding physical layer convergence procedure (PLOP) protocol data unit (PPDU) which is beam-formed to the STA, and a MIMO indicator including MU-MIMO-related information from an access point (AP); and transmitting feedback information including an MCS acquired from the steered sounding PPDU and the MU-MIMO-related information to the AP in response to the MCS request. | 2015-01-22 |
20150023309 | POWER ADAPTIVE METHOD AND APPARATUS IN A HETEROGENEOUS NETWORK - A method and apparatus in a heterogeneous network includes: receiving, by a pico base station, reference signal received power of a serving base station and a neighboring base station reported by multiple pieces of user equipment (UE) within its coverage; calculating, by the pico base station, an average value of data received power of the UE and an average value of the reference signal received power of the UE for receiving reference signal transmitted by the macro base station according to the reference signal received power; and transmitting the above calculation result by the pico base station to the macro base station, so that the macro base station determines transmitted power of a unicast physical channel in an almost blank subframe configured by the macro base station for the pico base station; the throughput of the system is optimized accordingly. | 2015-01-22 |
20150023310 | TRANSPORT FORMAT COMBINATION SELECTION IN A WIRELESS TRANSMIT/RECEIVE UNIT - A method and apparatus for selecting a TFC in a wireless transmit/receive unit (WTRU) is disclosed. The WTRU estimates a transmit power for each of a plurality of available transport format combinations (TFCs). A TFC is selected for an uplink dedicated channel and a TFC is selected for an enhanced uplink (EU) channel. The TFC for the dedicated channel is selected first and independently of the TFC selection of the EU channel. The TFC for the EU channel is selected within a remaining WTRU transmit power after the TFC selection for the dedicated channel. | 2015-01-22 |
20150023311 | APPARATUS, SYSTEM, AND METHOD FOR SIGNALLING A QUANTITY OF ANTENNA PORTS IN A WIRELESS COMMUNICATION SYSTEM - A quantity of antenna ports of a transmitting apparatus is signalled in a wireless communication system. The quantity of antenna ports of the transmitting apparatus is encoded into a first type information and a second type information. The first type information is transmitted on a physical broadcast channel (PBCH); and the second type information is transmitted on a physical downlink shared channel (PDSCH). The PDSCH is transmitted on at least one antenna port indicated by the first type information. | 2015-01-22 |
20150023312 | METHOD OF TRANSMITTING CONTROL SIGNAL IN WIRELESS COMMUNICATION SYSTEM - A method and a base station for receiving uplink control signals in a wireless communication system are described. The base station receives a first uplink control channel in a mixed resource block from a first user equipment. The mixed resource block includes a plurality of subcarriers. The base station receives a second uplink control channel in the mixed resource block from a second user equipment. The first uplink control channel is identified by a first cyclic shift value. The second uplink control channel is identified by a second cyclic shift value that is different from the first cyclic shift value. The first uplink control channel carries a Hybrid Automatic Repeat Request (HARQ) acknowledgement/negative acknowledgement (ACK/NACK) of the first user equipment. The second uplink control channel carries a channel quality indicator (CQI) for the second user equipment and a HARQ ACK/NACK of the second user equipment. | 2015-01-22 |
20150023313 | Exclusive and Overlapping Transmission Unit Allocation and Use in a Network - One embodiment allocates and uses exclusive and overlapping transmission units in a network. One embodiment includes sending information, from a first network node in a network, during an exclusive transmission unit, wherein the exclusive transmission unit includes one or more wireless time slot-frequency pairings assigned to the first network node to send info nation without another assigned network transmission unit providing overlapping time slot-frequency interference from another network node communicating in the network. One embodiment includes sending information, from the first network node, during an overlapping transmission unit, wherein the overlapping transmission unit includes one or more wireless time slot-frequency pairings assigned to the first network node to send information, with the overlapping transmission unit overlapping in time slot-frequency with one or more other assigned network transmission units that will cause interference if simultaneously used. | 2015-01-22 |
20150023314 | Reassignment of Unused Portions of a Transmission Unit in a Network - One embodiment includes signaling, by a first network node to a transmission unit owner node, identifying one or more remaining wireless time slot-frequency pairings of a current transmission unit assigned to the first network node that will not be used by the first network node during the current transmission unit. The transmission unit owner node reassigns one or more of the remaining wireless time slot-frequency pairings to a second network node in the network to use during the current transmission unit. One embodiment includes communicating information between a first network node and a second network node using a particular time slot-frequency pairing, including a particular frame time from the second network node to the first network node, a particular acknowledgement time from the first network node to the second network node, and a particular acknowledgment of the acknowledgment time from the second network node to the first network node. | 2015-01-22 |
20150023315 | LTE CHANNEL ACCESS OVER UNLICENSED BANDS - Methods, systems, and devices are described for wireless communications. In one method, a clear channel assessment (CCA) may be performed at a base station to determine availability of an unlicensed spectrum. A first waveform may be transmitted to a set of user equipments (UEs) over the unlicensed spectrum when available. The first waveform may indicate a first time period and a second time period during which the base station has channel access over the unlicensed spectrum. A second waveform may be received from one or more UEs responsive to the first waveform. Each second waveform may be received over the unlicensed spectrum during the first time period and may indicate that the respective UE has channel access over the unlicensed spectrum to receive data from the base station during the second time period. | 2015-01-22 |
20150023316 | METHOD AND APPARATUS FOR TRANSMITTING SIGNALS OF USER EQUIPMENT (UE) CONFIGURED TO PERFORM D2D COMMUNICATION IN WIRELESS COMMUNICATION SYSTEM - A method for transmitting a signal by a first user equipment (UE) configured to perform device-to-device (D2D) communication in a wireless communication system includes transmitting a signal on a subframe for D2D communication to a second UE configured to perform D2D communication, wherein at least one OFDM symbol from among OFDM symbols contained in the subframe includes a repetition signal. | 2015-01-22 |
20150023317 | COMMUNICATION SYSTEM, COMMUNICATION METHOD, BASE STATION APPARATUS, AND TERMINAL APPARATUS - Frequency utilization efficiency is increased while inter-cell interference is controlled. | 2015-01-22 |
20150023318 | Method To Control The Effects Of Out-Of-Cell Interference In A Wireless Cellular System Using Over-The-Air Feedback Control - A mobile terminal is controlled via over-the-air feedback so as to enable its data transmissions to be independently and successfully decoded at each of the base stations in its active set absent a transmit power limitation or data retransmission limit. Using the decoded data, the channel is re-estimated and the waveform received from the mobile terminal is reconstructed and subtracted from the total interference at each base station in the active set where decoding has been successful. As a result, transmissions from other mobile terminals, which have yet to be successfully decoded at such a base station, will experience a higher signal-to-noise ratio and thus an increased likelihood of being successfully decoded. | 2015-01-22 |
20150023319 | METHOD AND APPARATUS FOR TRANSMITTING USER EQUIPMENT GROUP INFORMATION IN WIRELESS COMMUNICATION SYSTEM - A method and apparatus for transmitting user equipment (UE) group information in a wireless communication system is provided. A source eNodeB (eNB) of a handover procedure transmits a handover request message including UE group information to a target eNB of the handover procedure when the source eNB hands over a UE to the target eNB. The UE group information is included in a UE history information IE (information element) of the handover request message. | 2015-01-22 |
20150023320 | COMMUNICATION CONTROL METHOD, BASE STATION, HOME BASE STATION, AND GATEWAY DEVICE - A communication control method includes: an establishment step of establishing, between a home base station selected from a plurality of home base stations in control of a gateway device and other base station not in control of the gateway device, a communication path which passes through the gateway device and which does not pass through a core network; and a step of performing inter-base station communications using the communication path established in the establishment step, by the selected home base station and the other base station. | 2015-01-22 |
20150023321 | Network Handover Method, Terminal, Controller, Gateway, and System - A network handover method, a terminal, a controller, a gateway, and a system. The method includes: when a terminal accesses a first network, converting data including an initial TCP four-tuple into data including a first TCP four-tuple, and sending the data to a gateway; and after handing over from the first network to a second network, converting data including the initial TCP four-tuple into data including a second TCP four-tuple, and sending the data including the second TCP four-tuple to the gateway. This achieves objectives of preventing a connection from being interrupted before and after the network handover, improving use experience, and reducing complexity of a network handover process. | 2015-01-22 |
20150023322 | CONTROL STATION, MOBILE STATION, MOBILE COMMUNICATION SYSTEM AND MOBILE COMMUNICATION METHOD - A mobile station that establishes a first transfer path by way of a first access network between the mobile station and a control station. The mobile station establishes a default EPS (Evolved Packet System) bearer by way of a second access network between the mobile station and the control station by transmitting an attach request for requesting a handover of a partial flow among the plurality of flows when performing transmission/reception of a plurality of flows with the control station by using the first transfer path. | 2015-01-22 |
20150023323 | MOBILE COMMUNICATION SYSTEM, BASE STATION AND COMMUNICATION CONTROL METHOD - In a mobile communication system in which a CoMP cooperating set formed by a plurality of base stations and a user terminal perform communication therebetween, the CoMP cooperating set includes a main base station controlling CoMP communication with the user terminal, and the main base station transmits, to another base station included in the CoMP cooperating set, a switch request for requesting the other base station to be a new main base station in the CoMP cooperating set based on a measurement report from the user terminal. | 2015-01-22 |
20150023324 | SYSTEMS, DEVICES, AND METHODS FOR IMPROVING DATA CAPACITY IN A COMMUNICATIONS SYSTEM BY MANAGING SHORT ADDRESSES - Systems, devices, and methods of managing short addresses in a wireless communication system include receiving reservation requests on a random access channel from subscriber units at a radio frequency (RF) site such that the reservation requests includes a minimum number of requested time slots for data transmission between a subscriber unit and the RF site, and a subscriber long address. Further, for each of the reservation requests, the RF site selects a subscriber short address for the respective subscriber unit as well as transmitting the selected subscriber short address to the respective subscriber unit on a RF site channel. In addition, the RF site determines a short address transmission schedule for the subscriber units as well as transmitting a schedule message to the subscriber units on a schedule channel such that the schedule provides slot assignments for data transmissions by subscriber units according to their assigned short addresses. | 2015-01-22 |
20150023325 | Configuring New Paths in a Wireless Deterministic Network - In one embodiment, a first node in a wireless deterministic network communicates to a second node configuration information identifying a destination-facing path portion of a particular one-way path traversing from a source node to a destination node within the wireless deterministic network. The destination-facing portion includes a path traversing from the second node over one or more additional nodes to the destination node over which to forward packets received over a first portion of the particular one-way path from the source node to the second node. The configuration information includes a particular time slot for the second node to receive packets being sent over the particular one-way path. In one embodiment, the first node receives from the second node an acknowledgement message in the particular time slot that the destination-facing portion of the particular one-way path was configured and activated. | 2015-01-22 |
20150023326 | Installation of Time Slots for Sending a Packet through an ARC Chain Topology Network - One embodiment includes: determining, by a particular networked device, sending and receiving time slots for progressively communicating a particular packet among nodes of an arc of an Available Routing Construct (ARC) chain topology network in both directions on the arc to reach each edge node of the arc; and determining, by the particular networked device, for each edge node of the arc a predetermined respective time slot for communicating the particular packet to a respective child node on a second arc of the ARC chain topology network. One embodiment includes respectively installing said determined time slots in said nodes of the arc. In one embodiment, the network is a wireless deterministic network. In one embodiment, the predetermined respective time slot for each particular edge node is after all time slots in which the particular packet could be received by said particular edge node. | 2015-01-22 |
20150023327 | Resilient Forwarding of Packets in an ARC Chain Topology Network - One embodiment includes: forwarding a particular packet through an Available Routing Construct (ARC) chain topology network. In one embodiment, this forwarding includes: sending the particular packet by each particular non-edge node on an arc of the plurality of arcs receiving the particular packet to each sibling on the arc that did not send the particular packet to said particular non-edge node, while not sending the particular packet if it was received from both siblings of said particular edge node; and sending the particular packet to a respective child node on a second arc of the plurality of arcs by each particular edge node of two edge nodes on the arc after receiving the particular packet. In one embodiment, the network is a wireless deterministic network with pre-assigned time slots for receiving and subsequently sending a same particular packet by each node of the network. | 2015-01-22 |
20150023328 | OAM and Time Slot Control in a Deterministic ARC Chain Topology Network - In one embodiment, a network of nodes is configured to communicate according to a configuration of Available Routing Construct (ARC) chains as well as monitoring communication in the network, and/or selectively controls whether or not provisioned particular links will be used. One embodiment colors nodes of the network (e.g., a wireless deterministic network) along different paths through the network and marks packets with the color of each traversed node to track a path taken by a packet. One embodiment sends a particular packet through the network and marks over which links the packet traverses and aggregates these traversed links of other copies of the particular packet. One embodiment controls whether or not the provisioned time slots are used based on flooding a control packet through the network with enable or disable information for each of these links. | 2015-01-22 |
20150023329 | WIRELESS NETWORK SIGNAL TO INTERFERENCE PLUS NOISE RATIO ESTIMATION FOR A RANDOM ACCESS CHANNEL - A wireless device includes a preamble detector configured to identify a plurality of preambles transmitted via a random access channel of a wireless network. The preamble detector includes a noise floor estimator. The noise floor estimator is configured to: estimate, for a given preamble root sequence identified by the preamble detector, a noise floor value as mean energy of received signal samples, excluding detected preamble samples on the give preamble root sequence, below a noise floor threshold assigned to the given preamble root sequence. The noise floor estimator is configured to compute the noise floor threshold as a product of: average energy of the received signal samples less total signal energy contained in each cyclic prefix window in which a preamble is detected using the given preamble root sequence; and a predetermined normalized relative noise floor threshold based on a target false preamble detection rate. | 2015-01-22 |
20150023330 | Information Transmission From Wireless Access Point - Embodiments herein relate to transmitting information from wireless access points (WAP) sharing a same frequency channel that is part of an industrial, scientific and medical (ISM) radio band. During a beacon transmit period (BTP), the WAPs transmit a beacon. Then, a first WAP is to collect information from at least one of the plurality of communication devices (CD) associated with the first WAP during a control access period (CAP). Next, the first WAP transmits the collected information during an open access period (OAP). | 2015-01-22 |
20150023331 | METHOD AND USER EQUIPMENT FOR RECEIVING REFERENCE SIGNALS, AND METHOD AND BASE STATION FOR TRANSMITTING REFERENCE SIGNALS - According to the present invention, a common reference signal is transmitted in a subframe configured to receive the common reference signal and/or a fixed subframe predefined to receive the common reference signal, from among a plurality of subframes within a frame. In the present invention, the common reference signal is transmitted in every subframe within a legacy frame duration. However, the common reference signal is transmitted in said configured subframe and/or said fixed subframe within a frame duration which is not a legacy frame duration. | 2015-01-22 |
20150023332 | METHOD AND APPARATUS FOR MULTIPLEXING CONTROL AND DATA CHANNEL - An approach is provided for performing control signaling. Data and control information are received. The control information is orthogonalized using block-level spreading. The data and the orthogonalized control information are multiplexed at a symbol-level. | 2015-01-22 |
20150023333 | POWER-EFFICIENT MEDIA ACCESS TECHNIQUES FOR WIRELESS NETWORKS - Techniques for media access in wireless networks are disclosed. For instance, embodiments may provide a time interval for accessing a wireless communications channel. In addition, embodiments may prevent channel access during the time interval by stations incapable of employing a first channel access technique. This access technique employs an access probability P. | 2015-01-22 |
20150023334 | COMMUNICATION APPARATUS, COMMUNICATION METHOD, AND STORAGE MEDIUM - A communication apparatus identifies an access point with which the communication apparatus can perform wireless communication and transmits information indicating the identified access point to a communication partner apparatus by way of the wireless communication. In response to this, an access point designated by the communication partner apparatus is registered as a relay access point. | 2015-01-22 |
20150023335 | PHYSICAL LAYER DESIGN FOR UPLINK (UL) MULTIUSER MULTIPLE-INPUT, MULTIPLE-OUTPUT (MU-MIMO) IN WIRELESS LOCAL AREA NETWORK (WLAN) SYSTEMS - Certain aspects of the present disclosure provide methods and apparatus for uplink (UL) multiuser multiple-input, multiple-output (MU-MIMO) transmissions in a High Efficiency WLAN (HEW) system. One example method generally includes generating a packet having a preamble portion and transmitting the packet. The preamble portion typically includes a long training field (LTF); a first signal (SIG) field subsequent to the LTF; one or more other LTFs located subsequent to the first SIG field; and at least one second SIG field, wherein all SIG fields in the preamble portion, other than the first SIG field, are subsequent to the one or more other LTFs. Another example method generally includes receiving, from an apparatus, a packet having a preamble portion comprising tone-interleaved LTFs; and performing frequency offset adjustment on the packet based on the tone-interleaved LTFs. | 2015-01-22 |
20150023336 | COMMUNICATING A HEADLESS ONBOARDEE DEVICE LOCAL WIRELESS NETWORK SCAN TO AN ONBOARDER DEVICE VIA A PEER-TO-PEER PROTOCOL TO ASSIST AN ONBOARDING PROCESS - The disclosure relates to wireless communications. An aspect receives, by an onboarder device, a list of local wireless network scan results from an onboardee device, selects a local wireless network on the list of local wireless network scan results, and sends an indication of the selected local wireless network to the onboardee device, wherein the onboardee device attempts to connect to the selected local wireless network. An aspect scans, by an onboardee device, for available local wireless networks, creates a list of local wireless network scan results based on the scanning, sends, by the first device, the list of local wireless network scan results to an onboarder device, wherein the onboarder device selects a local wireless network on the list of local wireless network scan results, and receives an indication of the selected local wireless network from the onboarder device. | 2015-01-22 |
20150023337 | DEVICE, SYSTEM AND METHOD OF SELECTIVELY ABORTING RECEPTION OF WIRELESS COMMUNICATION PACKETS - Some demonstrative embodiments include devices, systems and/or methods of selectively aborting reception of wireless communication packets. For example, a receiver may at least partially process a portion of a wireless communication packet, to determine based on the portion of the communication packet whether the packet is intended to be received by the receiver and, if the packet is not intended to be received by the receiver, to abort processing of a remainder of the communication packet by one or more components of a physical layer of the receiver. Other embodiments are described and claimed. | 2015-01-22 |
20150023338 | WIRELESS ACCESS POINT WITH WILDCARD SSID RESPONSE ENABLING ASSOCIATION BY CLIENT DEVICE REQUESTING ANY SSID AND SYSTEM AND METHOD THEREOF - A wireless access point includes an antenna, a connection port providing wired communications with a network, one or more processors, and a storage device having software stored therein. When executed by the one or more processors the software causes the wireless access point to respond to a probe from a client device requesting a specific service set identifier according to a wildcard service set identifier response in order to facilitate wireless association of the client device with the wireless access point regardless of the specific service set identifier requested by the client device, and to provide the client device with wireless access to the network. In this way, the client device is enabled to associate with the wireless access point and receive access to the network without a specific service set identifier requested by the client device being preprogrammed into the wireless access point. | 2015-01-22 |
20150023339 | Efficient Communication for Devices of a Home Network - Systems and methods are provided for efficient communication through a fabric network of devices in a home environment or similar environment. For example, an electronic device may efficiently control communication to balance power and reliability concerns, may efficiently communicate messages to certain preferred networks by analyzing Internet Protocol version 6 (IPv6) packet headers that use an Extended Unique Local Address (EULA), may efficiently communicate software updates and status reports throughout a fabric network, and/or may easily and efficiently join a fabric network. | 2015-01-22 |
20150023340 | Method for Transmitting Frames in a Wireless Local Area Network - On the case of receiving data frame from a station, the method of the present invention instructs the repeater to replace the content of the receiver address field by the address of the bridge when receiving the frame transmitted from the station, and then forwards the frames to the bridge. On the case of receiving a data frame transmitted from the bridge, the repeater can replace the content of transmitter address field by the address of the repeater itself, and then forwards the data frame to the station. | 2015-01-22 |
20150023341 | Wireless Local Area Network Discovery and Selection Method, Device, and System, and Terminal - The present disclosure provide a wireless local area network discovery and selection method, device, and system, and a terminal. The method includes sending a registration request to a wireless local area network discovery and selection device when packet switched data is initiated to a cellular network. A notification message sent by the wireless local area network discovery and selection device is received. The notification message is sent when the wireless local area network discovery. The selection device determines that a wireless local area network needs to be used to offload the packet switched data in the cellular network. The notification message carries access parameter information. | 2015-01-22 |
20150023342 | METHOD FOR OPERATING OF PEER AWARE COMMUNICATION NETWORK - In a peer aware communication network, a method in which a peer device accesses a link includes: determining a phase based on service which is provided to another peer device; and accessing a link which is included in a superframe that a predetermined length according to the phase, a method of reserving resources and a method of avoiding interference are provided. | 2015-01-22 |
20150023343 | WIRELESS COMMUNICATION SYSTEM, MOBILE STATION AND BASE STATION - A base station that performs wireless communication with a mobile station using a plurality of cells, the base station includes: a wireless communication circuitry configured to transmit a first control signal that includes first information used to adjust a transmission timing of the mobile station with the cells and second information that is different from the first information, and a second control signal that includes information indicating whether the second information is used to specify a cell among the cells; and a controller configured to perform control for transmission of the first control signal and the second control signal. | 2015-01-22 |
20150023344 | METHOD AND SYSTEM FOR MANAGING TELEPHONY SERVICES IN A UNIVERSAL PLUG AND PLAY HOME NETWORK ENVIRONMENT - The present invention provides a method and system for managing telephony services in a Universal Plug and Play (UPnP) home network environment. In one embodiment, a method includes creating one or more profiles associated with at least one Telephony Control Point (TelCP) in an UPnP home network environment, each of the one or more profiles includes one or more service settings associated with telephony services. The method also includes storing the one or more profiles associated with the at least one TelCP in a service settings database. Additionally, the method includes setting one of the one or more profiles as an active profile for the at least one TelCP, and providing telephony services to the at least one TelCP according to the one or more service settings associated with the active profile. | 2015-01-22 |
20150023345 | EXAMPLE-BASED AUDIO INPAINTING - A method for packet loss concealment, comprising: continuously receiving a digital audio stream; extracting audio features from the digital audio stream while the digital audio stream is unharmed; and upon detecting a gap in the digital audio stream, filling the gap with one or more previous segments of the digital audio stream, wherein said filling is based on a matching of the one or more of the extracted audio features with one or more audio features adjacent to the gap. | 2015-01-22 |
20150023346 | VIRTUALIZED APPLICATION ACCELERATION INFRASTRUCTURE - In an example embodiment, a computer-implemented method is illustrated that includes receiving first data from a first local area network (LAN) prior to the first data being transmitted across a wide area network (WAN). Also received are second data from a second LAN prior to the second data being transmitted across the WAN. A first optimization operation is performed on the first data to optimize the first data for transmission over the WAN. Also, the first optimization operation is performed using a first operating system executing on the computer system in response to the first data being received from the first LAN. A second optimization operation is performed on the second data using a second operating system in response to the second data being received from the second LAN. The optimized first data and the optimized second data are transmitted across the WAN. | 2015-01-22 |
20150023347 | MANAGEMENT OF A MULTICAST SYSTEM IN A SOFTWARE-DEFINED NETWORK - A system and method are provided for of a Multicast system by a controller in a software defined network. The method may include, receiving a request for a multicast stream from a first switch of the software defined network. The request may have originated from a requestor using an Internet Group Management Protocol (IGMP). The method may further include, adding the request to a table, wherein the table is designated to have requests from IGMP using requestors for multicast streams. The method may further include, determining whether the request for the multicast stream matches with a multicast data transmission from a sender received by the controller. The method may further include, initiating a connection of the multicast between the requestor and the sender if the request matches the multicast data transmission. | 2015-01-22 |
20150023348 | Cross-Layer Forwarding in a Low-Power and Lossy Network - In accordance with techniques presented herein, a packet is received at a forwarding device operating in a multi-service Low-power and Lossy Network (LLN). The forwarding device is configured to retrieve service requirements associated with the packet and obtain forwarding information from a plurality of networking layers associated with forwarding of the packet. The forwarding device is further configured to evaluate the service requirements in view of the forwarding information to dynamically adjust one or more parameters within the LLN for use in forwarding packets within the LLN. | 2015-01-22 |
20150023349 | PACKET DISCOVERY AND LEARNING FOR VLAN PROVISIONING - A method and system for performing VLAN provisioning using packet discovery and learning allows a network transport device to support existing VLAN configurations in a new network environment. When Ethernet frames having a VLAN tag are received from a client-side device, an association of the VLAN tag with the client port is recorded at the network transport device. Then, when an Ethernet frame including the VLAN tag is received from a network-side device, the Ethernet frame is directed to the client port associated with the VLAN tag. Additional security measures may restrict a learning period for recording VLAN tag associations. The network transport device may also flood client-side devices and/or network-side devices to associate respective client ports and/or network ports with a VLAN tag. | 2015-01-22 |
20150023350 | NETWORK CONNECTION VIA A PROXY DEVICE USING A GENERIC ACCESS POINT NAME - A system may receive, based on a generic access point name stored by a user device, a request to establish a network connection. The request may include a user device identifier that identifies the user device. The system may determine, based on the user device identifier, a specific access point name associated with the user device. The specific access point name may be different from the generic access point name. The system may determine, based on the specific access point name, information that identifies a gateway node for processing traffic associated with the user device. The system may cause the network connection to be established based on the user device identifier and the information that identifies the gateway node. | 2015-01-22 |
20150023351 | METHOD AND APPARATUS FOR PERFORMING LINK AGGREGATION - A network node or corresponding method of performing link aggregation reduces a number of Content Addressable Memory (CAM) entries required to make a forwarding decision for a given ingress flow, reducing cost, size, and power consumption of the CAM and accompanying static RAM. In one embodiment, an ingress flow is mapped to an egress flow identifier. Subsequently, the egress flow identifier is mapped to a member of an aggregated group associated with an egress interface based on information available in a given ingress flow. Finally, the given ingress flow is forwarded to the member of the aggregated group associated with the egress interface. A hashing technique or two lookups may be used alone or in combination in mapping the ingress flow to the egress flow identifier to reduce CAM memory usage. | 2015-01-22 |
20150023352 | IMPLEMENT EQUAL COST MULTIPLE PATH OF TRILL NETWORK - According to an example, a method for implementing ECMP in a TRILL network includes: forming a backup group with multiple primary Routing Bridges (RBs) interconnected in the TRILL network; configuring an IP address and a MAC address both associated with each virtual Gateway for each primary RB; configuring a same virtual RB identifier for each primary RB; advertising, by each primary RB, adjacency information about a neighbor RB identifier within the TRILL network; wherein the adjacency information about the neighbor RB identifier includes adjacency information about the virtual RB identifier; enabling a secondary RB accessing a host in the TRILL network to compute and obtain the ECMP information associated with the virtual RB identifier in the TRILL network, in which next hops in the ECMP information associating with the virtual RB identifier are the primary RBs in the backup group are in a one-to-one correspondence. | 2015-01-22 |
20150023353 | COMMUNICATION SYSTEM, CONTROL APPARATUS, CONTROL METHOD AND PROGRAM - A communication system includes: a plurality of nodes each of which requests a processing rule for processing a received packet; and a control apparatus that determines in response the request a processing rule corresponding to the received packet and notifies the determined processing rule to at least one of the plurality of nodes. One of the plurality of nodes forwards to the control apparatus a first packet for acquiring a destination address for a predetermined communication. The control apparatus in response to determination of the destination address determines a processing rule for processing a second packet to be transmitted to the destination address and notifies the determined processing rule to at least one of the plurality of nodes. | 2015-01-22 |
20150023354 | METHOD AND DEVICE FOR ALLOCATING PACKET SWITCHING RESOURCE - Embodiments of the present invention provide a method and a device for allocating a packet switching resource, which includes: receiving, by a management plane unit, a service transport request carrying service information, where the service information includes source node information, sink node information, quality of service QoS requirement information, and bandwidth requirement information; determining, by the management plane unit, at least one transport path according to the service information and a preset resource allocation policy, and generating a routing table entry/forwarding table entry according to the at least one transport path; and sending, by the management plane unit, the routing table entry/forwarding table entry to data plane units of packet switching devices of each transport path of the at least one transport path. According to the embodiments, transparent and controllable allocation of a network bandwidth resource is implemented, so that utilization efficiency of a network resource is improved. | 2015-01-22 |
20150023355 | GENERATION DEVICE, REPRODUCTION DEVICE, DATA STRUCTURE, GENERATION METHOD, REPRODUCTION METHOD, CONTROL PROGRAM, AND RECORDING MEDIUM - There is provided a transmitter by which a reception side easily detects packet loss of a transport packet. The transmitter ( | 2015-01-22 |
20150023356 | ALIGNMENT CIRCUIT AND RECEIVING APPARATUS - A control circuit generates a selection signal indicating a head area of an alignment buffer when the area is an unwritten area, and when the head area is a written area, successively performs comparison between a sequence number stored in the area and a sequence number of a target packet from a head to a tail to search a boundary area and generates a selection signal indicating the detected boundary area. When the boundary area could not be detected even when the search reaches the last written area, the control circuit generates a selection signal indicating the next area of the last written area. The writing circuit shifts data stored in each area by one area from the area indicated by the selection signal in a direction of the tail of the alignment buffer, and writes packet information of the target packet into the area indicated by the selection signal. | 2015-01-22 |
20150023357 | COMMUNICATION METHOD, COMMUNICATION APPARATUS AND NON-TRANSITORY READABLE MEDIUM - A communication method includes determining a difference state of identification numbers of communication providers corresponding to a plurality of relay transfer apparatuses on a passing outward path to an opposing communication apparatus and on a passing return path from the opposing apparatus; and switching a first virtual communication channel set between intranets and a second virtual communication channel set between the intranets to dynamically substitute and use a first communication mode of transmitting and receiving encrypted communication data to and from the opposing apparatus through the first virtual communication channel and a second communication mode of transmitting and receiving plain text communication data to and from the opposing apparatus through the second virtual communication channel, according to the determination of the difference state of the identification numbers of the providers. | 2015-01-22 |
20150023358 | MIGRATION OF GUEST BRIDGE - A system and method for migrating a guest bridge are provided. An example method includes maintaining at a guest bridge a set of forwarding tables including a set of mappings from a network address to at least one virtual network interface of a set of virtual network interfaces. The method includes receiving at the guest bridge a notification that the guest bridge has migrated to a target host machine. The target host machine includes a set of physical network interfaces, and each physical network interface of the set of physical network interfaces is coupled to a network. The method further includes responsive to the notification, updating the set of forwarding tables. | 2015-01-22 |
20150023359 | EDGE EXTENSION OF AN ETHERNET FABRIC SWITCH - An apparatus, in one embodiment, includes an edge adaptor module, a storage device, and an encapsulation module. The edge adaptor module maintains a membership in a fabric switch. A fabric switch includes a plurality of switches and operates as a single switch. The storage device stores a first table comprising a first mapping between a first edge identifier and a switch identifier. The first edge identifier is associated with the edge adaptor module and the switch identifier is associated with a local switch. This local switch is a member of the fabric switch. The storage device also stores a second table comprising a second mapping between the first edge identifier and a media access control (MAC) address of a local device. During operation, the encapsulation module encapsulates a packet in a fabric encapsulation with the first edge identifier as the ingress switch identifier of the encapsulation header. | 2015-01-22 |
20150023360 | STATEFUL PUSH NOTIFICATIONS - According to one embodiment of the invention, a method for forming a push notification and pushing the push notification and client state information to a client device is provided. In addition, a method for processing the push notification and client state information is provided. In one embodiment, processing may include embedding metadata with the client state information. | 2015-01-22 |
20150023361 | TECHNIQUE FOR IMPLEMENTING VIRTUAL FABRIC MEMBERSHIP ASSIGNMENTS FOR DEVICES IN A STORAGE AREA NETWORK - A technique is provided for facilitating fabric membership login for an N_Port of a storage area network. A communication from a network node is received. The communication may include a portion of criteria associated with the N_Port. Using at least a portion of the portion of criteria, a virtual fabric identifier corresponding to a virtual fabric which is associated with the N_Port may be automatically identified. Fabric configuration information, which includes the virtual fabric identifier, may be automatically provided to the network node. A fabric login request from the N_Port to login to the virtual fabric may then be received. According to a specific embodiment, the communication may be transmitted from a network node to an F_Port on a Fibre Channel switch. When the N_Port received the fabric configuration information from the F_Port, the generating, using at least a portion of the received fabric configuration information, a fabric login request message may be generated by the N_Port which includes a fabric login request for the N_Port to login to the virtual fabric corresponding to the virtual fabric identifier. In at least one implementation, the N_Port and/or F_Port may be configured or designed to support trunking functionality. | 2015-01-22 |
20150023362 | FORWARDING INTER-SWITCH CONNECTION (ISC) FRAMES IN A NETWORK-TO-NETWORK INTERCONNECT TOPOLOGY - Systems, mechanisms, apparatuses, and methods are disclosed for forwarding Inter-Switch Connection (ISC) frames in a Network-to-Network Interconnect (NNI) topology, for example, via a network switch which includes a first physical switch port to receive a physical switch link from a second network switch; logic to implement a first logical ISC and a second logical ISC′ connection to the second network switch via the physical switch link; a second physical switch port to receive an interface connection from a third network switch; and switch forwarding logic to forward frames received at the first network switch to the second network switch via the logical ISC or logical ISC′ based on whether or not the physical switch link is part of an active topology upon which the network switch operates or is not part of the active topology upon which the network switch operates. Other embodiments are disclosed. | 2015-01-22 |
20150023363 | OBTAINING DATA RECEPTION PARAMETERS ON-DEMAND IN A MULTIPLE INTERFACE NETWORK - In a multi-PHY, low power and lossy network comprising a plurality of nodes, a sender determines that a dwell time threshold limit for transmission of data will be exceeded by transmission of the data over a first network interface or that the recipient is unknown. The sender determines transmission parameters for the transmission of the data over the first network interface and transmits the transmission parameters to a receiver device over a second network interface that is different than the first network interface. The sender determines a channel on the first network interface for transmission of the data and transmits the determined channel with the transmission parameters to the receiver, or the receiver determines the channel on the first network interface for transmission of the data and transmits an indication of the determined channel to the sender in response to receiving the transmission parameters. | 2015-01-22 |
20150023364 | MECHANISM FOR TERMINATING RELAY OPERATIONS IN A DISTRIBUTED SWITCH WITH CASCADED CONFIGURATION - Provided are a method, a system, and a computer program product in which a plurality of switches are maintained in a cascaded configuration. A switch relays a switch fabric internal link services (SW-ILS) to generate a pair of exchanges comprising a first exchange and a second exchange at the switch. In response to a termination of the first exchange of the pair of exchanges, the second exchange of the pair of exchanges is terminated. | 2015-01-22 |
20150023365 | APPARATUS AND METHOD FOR SYNCHRONOUS HARDWARE TIME STAMPING - Methods and apparatus that may be used to provide timestamps to physical layer devices are provided. One method includes obtaining a time value from a clock associated with a physical layer device that is communicatively coupled to a primary data packet switch. The method further includes adding a processing time to the time value to generate a timestamp and transmitting the timestamp to a multiplexer circuit. The method further includes writing the timestamp in parallel from the multiplexer circuit to a plurality of external physical layer devices that are communicatively coupled to a secondary data packet switch and are located external to a housing of the secondary data packet switch. | 2015-01-22 |
20150023366 | ADAPTIVE MARKING FOR WRED WITH INTRA-FLOW PACKET PRIORITIES IN NETWORK QUEUES - In one embodiment, a router receives a packet, and determines an intra-flow packet priority level of the packet. The router may then map the intra-flow packet priority level to a weighted random early detection (WRED) marking based on running statistics of intra-flow packet priority levels across received flows, and marks the packet with the mapped WRED marking. By placing the marked packet into an outgoing network queue for transmission, the router may then forward or drop the marked packet based on the network queue, accordingly. | 2015-01-22 |
20150023367 | PARALLEL DATA SWITCH - An interconnect apparatus enables improved signal integrity, even at high clock rates, increased bandwidth, and lower latency. An interconnect apparatus can comprise a plurality of logic units and a plurality of buses coupling the plurality of logic units in a selected configuration of logic units arranged in triplets comprising logic units LA, LC, and LD. The logic units LA and LC are positioned to send data to the logic unit LD. The logic unit LC has priority over the logic unit LA to send data to the logic unit LD. For a packet PKT divided into subpackets, a subpacket of the packet PKT at the logic unit LA, and the packet specifying a target either: (A) the logic unit LC sends a subpacket of the packet PKT to the logic unit LD and the logic unit LA does not send a subpacket of the packet PKT to the logic unit LD; (B) the logic unit LC does not send a subpacket of data to the logic unit LD and the logic unit LA sends a subpacket of the packet PKT to the logic unit LD; or (C) the logic unit LC does not send a subpacket of data to the logic unit LD and the logic unit LA does not send a subpacket of the packet PKT to the logic unit LD. | 2015-01-22 |
20150023368 | PROTECTING HYBRID EQUIPMENT IN A NETWORK NODE - The disclosure generally relates to mechanisms to protect hybrid networking equipment at a port level granularity and thereby provide capabilities to specify the protection of client services on a port-by-port basis. For example, in one embodiment, a Virtual Connection Point (VCP) may be established as a termination point for a transport-side network connection and configured as a Layer 1 bridge/select connection to switch among any one of a plurality of backplane Layer 1 termination points. The plurality of backplane Layer 1 termination points may be protected using a link aggregation group, wherein a Layer 2 switch may be established to direct packets between the link aggregation group and the VCP configured as the Layer 1 bridge/select connection. | 2015-01-22 |
20150023369 | OBTAINING DATA RECEPTION PARAMETERS IN A MULTIPLE INTERFACE NETWORK - In a multi-PHY, low power and lossy network comprising a plurality of nodes, a sender determines that a dwell time threshold limit for transmission of data will be exceeded by transmission of the data over a first network interface or that the recipient is unknown. The sender determines transmission parameters for the transmission of the data over the first network interface and transmits the transmission parameters to a receiver device over a second network interface that is different than the first network interface. The sender determines a channel on the first network interface for transmission of the data and transmits the determined channel with the transmission parameters to the receiver, or the receiver determines the channel on the first network interface for transmission of the data and transmits an indication of the determined channel to the sender in response to receiving the transmission parameters. | 2015-01-22 |
20150023370 | METHOD AND APPARATUS FOR PCDP DISCARD - A method and apparatus for discarding a packet data convergence protocol (PDCP) service data unit (SDU) are disclosed. A PDCP layer sets a timer and discards a PDCP SDU upon expiration of the timer. The timer may be set upon receiving the PDCP SDU from an upper layer or upon submitting the PDCP SDU to a lower layer for transmission. The timer and a radio link control (RLC) discard timer may be coordinated. Alternatively, the PDCP layer may discard the PDCP SDU based on a notification from an RLC layer or based on a PDCP status report. | 2015-01-22 |
20150023371 | MISMATCH DETECTING METHOD, DETECTING DEVICE, AND RECORDING MEDIUM - A mismatch detecting method includes: specifying a configuration of test data in accordance with a condition in which a time when a first packet out of a plurality of packets included in the test data caused to make a round trip through a transmission path including a plurality of sections is transmitted in one section out of the plural sections in an inbound path and a time when a second packet out of the plural packets is transmitted in the one section in an outbound path overlap with each other; transmitting the test data to the transmission path in accordance with the configuration specified by the specifying; and determining a mismatch of a transmission system within the transmission path, based on a loss situation of the test data returning from the transmission path after the transmitting. | 2015-01-22 |
20150023372 | DIGITAL DEVICE, NETWORK AND METHOD FOR STREAMING AUDIO OR VIDEO DATA - A digital device for streaming audio and/or video data has a signal processor configured to process blocks of samples of the audio and/or video data. The signal processor requires a block processing time to respectively process a block of samples. The digital device has an Audio Video Bridging interface configured to generate and transmit frames which include the processed blocks of samples as payload. The Audio Video Bridging interface is configured to set a transmit rate of the frames for at least one traffic class as a function of the block processing time. | 2015-01-22 |
20150023373 | Adaptive (RLC) Segmentation - A method and nodes for providing adaptive segmentation in a higher protocol layer interacting with a lower protocol layer. An adaptable segmentation limit, defining a threshold of a largest Protocol Data Unit (PDU) that is to be submitted to a lower protocol layer, is deployed at a higher protocol layer interacting with the lower protocol layer. A PDU to be submitted to the lower protocol layer may match any transport block size that is available in the lower protocol layer. For each Service Data Unit (SDU) arriving at the higher protocol layer, it is determined if the respective SDU can fit into the segmentation limit or not. Each SDU that do not fit into the segmentation limit is segmented into PDUs which are smaller than or equal to the segmentation limit, while no segmentation is performed on SDUs that fit into the segmentation limit. | 2015-01-22 |
20150023374 | TWO WIRE SIGNAL TRANSMISSION - Apparatus, including a first signal source generating a first signal and a second signal source generating a second signal. A cross-over switch is connected between the two sources so as to generate in a direct switch configuration a sum of the first and second signals and in a crossed switch configuration a difference between the first and second signals. The apparatus includes a processor which is configured to receive the sum and the difference, and to recover the first signal and the second signal therefrom. | 2015-01-22 |
20150023375 | LASER DEVICE - A laser device | 2015-01-22 |
20150023376 | SEMICONDUCTOR LIGHT-EMITTING DEVICE - A semiconductor light-emitting device includes a first heat sink and a second heat sink both formed of an insulating member and facing and thermally connected to each other, and a semiconductor light-emitting element. The semiconductor light-emitting element is held in a cavity between the first heat sink and the second heat sink. The second heat sink has a first electrode and a second electrode on a surface facing the first heat sink, and a third electrode and a fourth electrode on a surface opposite to the surface facing the first heat sink. The first electrode is connected to a lower electrode of the light-emitting element. The second electrode is connected to an upper electrode of the light-emitting element. The first electrode and the third electrode are connected to each other, and the second electrode and the fourth electrode are connected to each other. | 2015-01-22 |
20150023377 | INTERPOSER CONFIGURATION WITH THERMALLY ISOLATED REGIONS FOR TEMPERATURE-SENSITIVE OPTO-ELECTRONIC COMPONENTS - An interposer (support substrate) for an opto-electronic assembly is formed to include a thermally-isolated region where temperature-sensitive devices (such as, for example, laser diodes) may be positioned and operate independent of temperature fluctuations in other areas of the assembly. The thermal isolation is achieved by forming a boundary of dielectric material through the thickness of the interposer, the periphery of the dielectric defining the boundary between the thermally isolated region and the remainder of the assembly. A thermo-electric cooler can be used in conjunction with the temperature-sensitive device(s) to stabilize the operation of these devices. | 2015-01-22 |
20150023378 | CIRCUIT AND METHOD FOR CONTROLLING LIGHT-EMITTING COMPONENTS - Circuit arrangement or circuit, in particular driver circuit, and a method for controlling at least one light-emitting component, such as an electro-optical transducer, a light-emitting diode (LED), an electroluminescent diode, a laser, or a semiconductor laser, by switching a switching element between a first switching position and a second switching position, and the voltage supply is effected by a supply element, such as a voltage source or a current source supported by a decoupling capacitor on the output side, so that current drain and output resistance are as low as possible, so that the highest possible frequency or switching speed as well as the highest possible output voltage for the light-emitting component can be achieved, the light-emitting component is controlled by varying its operating voltage, in particular by switching between the switching positions, and the first and second switching positions are of low impedance for the operating frequency. | 2015-01-22 |
20150023379 | SEMICONDUCTOR LIGHT EMITTING ELEMENT AND SEMICONDUCTOR LIGHT EMITTING DEVICE - There is provided a semiconductor light emitting element that is excellent in reliability and is capable of being driven by a lower voltage and a semiconductor light emitting device that includes the semiconductor light emitting element. The semiconductor light emitting element includes: a semiconductor layer; an electrode layer; a metal layer that contains a hydrogen storage metal; and a plated layer in order. | 2015-01-22 |
20150023380 | SEMICONDUCTOR LASER DEVICE - A semiconductor laser device includes a first conductivity type semiconductor substrate, a first conductivity type cladding layer, a first light guide layer, an active layer, a second light guide layer, and a second conductivity type cladding layer laminated on the semiconductor substrate in that order. The semiconductor laser device supports at least one of a first-order and higher-order mode of oscillation in the semiconductor laser in crystal growth direction of the active layer. The first light guide layer is thicker than the second light guide layer. A first conductivity type low refractive index layer having a lower refractive index than refractive index of the first conductivity type cladding layer, is disposed between the first conductivity type cladding layer and the first light guide layer. The refractive index of the second light guide layer is higher than the refractive index of the first light guide layer. | 2015-01-22 |
20150023381 | SURFACE-EMITTING LASER MODULE, OPTICAL SCANNER DEVICE, AND IMAGE FORMING APPARATUS - A disclosed surface-emitting laser module includes a surface-emitting laser formed on a substrate to emit light perpendicular to its surface, a package including a recess portion in which the substrate having the surface-emitting laser is arranged, and a transparent substrate arranged to cover the recess portion of the package and the substrate having the surface-emitting laser such that the transparent substrate and the package are connected on a light emitting side of the surface-emitting laser. In the surface-emitting laser module, a high reflectance region and a low reflectance region are formed within a region enclosed by an electrode on an upper part of a mesa of the surface-emitting laser, and the transparent substrate is slanted to the surface of the substrate having the surface-emitting laser in a polarization direction of the light emitted from the surface-emitting laser determined by the high reflectance region and the low reflectance region. | 2015-01-22 |
20150023382 | TUNABLE DBR LASER AND A METHOD OF OPERATING A TUNABLE DBR LASER - A tunable DBR laser including: an amplifier section, a part-reflecting optical output, a connection section connected to the amplifier section, and at least two wavelength-selective reflectors optically coupled to the amplifier section via the connection section. The connection section includes at least one MMI coupler and several waveguides, so that different optical paths lead from the amplifier section to the wavelength-selective reflectors and each of the different optical paths leads through the at least one MMI coupler and through one of the waveguides. The wavelength-selective reflectors differ from one another by having different reflection spectra and each of the wavelength-selective reflectors is connected to one of several outputs of the at least one MMI coupler. By activating a phase shifter, arranged in a course of at least one of the waveguides, the DBR laser can be switched between different resonators. | 2015-01-22 |
20150023383 | CYLINDRICAL COMBUSTION TUBE AND MOUNTING ASSEMBLY - A combustion tube mounting system releasably mounts a combustion tube to an aperture in the floor of a furnace housing. The combustion tube has a base assembly with a cam and can be manually or automatically unlocked by cam pins in the floor for selectively engaging the cam for lowering the combustion tube from the floor of the furnace. When a new combustion tube is placed on the lower seal assembly and raised, it automatically aligns and engages the upper furnace seal and engages cams on the floor of the furnace housing which lock the combustion tube in place as it is introduced into the furnace. | 2015-01-22 |