Abstract: A method for transmission of media access control (MAC) protocol data units (MPDUs) over a wireless local area network (WLAN) communication channel is described. A first physical layer (PHY) data unit is generated at a first communication device. The first PHY data unit has i) a data field that includes a first MPDU to be transmitted to a second communication device, and ii) a PHY signal field that includes a transmission version field set to indicate an initial transmission of the first MPDU. The first PHY data unit is transmitted over the WLAN communication channel to the second communication device. It is determined, at the first communication device, whether a first acknowledgment to the first MPDU has been received from the second communication device. In response to determining that the first acknowledgment has not been received, a second PHY data unit is generated at the first communication device.

Abstract: A method and apparatus may be used to enable reception of a downlink (DL) shared channel in a cooperative multipoint transmission (CoMP). The method and apparatus may determine whether CoMP is applied to a transmission. The method and apparatus may acquire other CoMP related information. The method and apparatus may apply to non-transparent CoMP scenarios.

Abstract: Disclosed is a method for transmitting signal in a communication system. A method for transmitting signal comprises generating a short training field (STF) comprising a cyclic prefix (CP) and an effective symbol period including four RP regions; generating a long training field (LTF) comprising a cyclic prefix (CP) and an effective symbol period including two RP regions; generating a frame comprising the STF and the LTF; and transmitting the frame. Thus, efficiency of the communication system may be enhanced by using the method.

Abstract: Various aspects of an approach for managing multi-hop networks are described herein for an apparatus associated with a network that includes detecting, by the apparatus, an event corresponding to a state of association of a first device with the network; updating at least one network parameter based on the detection of the event; and generating a notification based on the update of the at least one network parameter. Another aspect of the disclosed approach includes receiving, by the apparatus, a first notification corresponding to a state of association of a first device with the network, wherein the first notification comprises a first timestamp corresponding to the state of association of the first device; comparing the first timestamp with a second timestamp corresponding to a table stored by the apparatus; and, updating the table with the first timestamp if the first timestamp is more recent than the second timestamp.

Abstract: Disclosed are a wireless communication system and method and an expansion unit of a flat network architecture. The wireless communication system comprises at least one baseband signal source, an expansion unit (EU) and at least one remote radio unit (RU) connected to the EU. By overlapping the baseband signals output by each baseband signal source, remote transmission and wireless coverage of multimode digital signals are achieved, thereby solving the problem of system performance degradation caused by the interaction of radio-frequency analog signal transmission and optical transmission in the prior art.

Abstract: In an OpenFlow network, a “proactive type” is attained and hardware (HW) performance problem is solved. Specifically, in the OpenFlow network, each of a plurality of switches executes, on a reception packet that meets a rule of an entry registered in its own flow table, an operation based on an action defined in the entry. A controller registers an entry, in which an identifier unique to a path calculated based on a physical topology of a network composed of the plurality of switches is set as a rule and an output from a predetermined output port as an action, in each of the plurality of switches before communication is started among the plurality of switches.

Abstract: Various methods and devices are provided to address the need for reducing interference in heterogeneous wireless networks. In one apparatus, a network node (500) that includes a transceiver (502) and a processing unit (501) is provided. The processing unit is configured to transmit, via the transceiver, downlink signaling at a primary power spectral density (PSD) level and to also transmit, via the transceiver, a group of control channel elements (CCEs) on a physical downlink control channel (PDCCH) at a reduced PSD level, the reduced PSD level being less than the primary PSD level.

Abstract: Advice of charge (AoC) enforcement is implemented in a content centric networking (CCN) gateway. The AoC enforcement receives a CCN interest packet from a user equipment in a network external to the CCN network and looks up a prefix of the CCN name in an AoC table. The AoC enforcement further, in response to determining a match between the prefix of the CCN name and an entry in the AoC table, generates an AoC request and forwarding the AoC request toward an AoC server identified by the entry in the AoC table determined to be the match with the prefix of the CCN name. In response to not determining the match between the prefix of the CCN name and the entry in the AoC table or in response to receiving a purchase accepted response from the AoC server, a CCN object identified by the CCN name is retrieved and forwarded to the user equipment.

Abstract: A base station included in the D2D communication system: a shared resource allocation unit configured to select a resource block having highest performance in D2D communication from a plurality of resource blocks occupied by a plurality of cellular terminals and to set the shared resource block to be shared by a corresponding D2D terminal; an exclusive resource allocation unit configured to select at least one other D2D terminal with which to share an exclusive resource block occupied by the corresponding D2D terminal for the D2D communication and to set the exclusive resource block to be shared by the at least one other D2D terminal; and a power allocation unit configured to create a virtual resource block by matching the shared resource block and the exclusive resource block and to control powers allocated to the shared resource block and the exclusive resource block included in the virtual resource block.

Abstract: Embodiments of the present disclosure describe techniques and configurations for triggering transmission of data payloads in a wireless communication network. An apparatus may include one or more computer-readable media having instructions and one or more processors coupled with the one or more computer-readable media and configured to execute the instructions to implement an interworking function (IWF) to receive, from a Machine Type Communication (MTC) server, a trigger request to trigger sending of a data payload over a wireless communication network, the data payload being smaller than a preconfigured threshold, and send, in response to the trigger request over a reference point to a module including a Mobility Management Entity (MME) or a Serving GPRS (General Packet Radio Service) Support Node (SGSN), a trigger notification to trigger sending of the data payload over the wireless communication network.

Abstract: There are provided a method, user equipment, and transmission point device for feeding back channel quality indicator (MU-CQI) to the transmission point in a communication system including the transmission point and a plurality of user equipments, the method comprising steps: the transmission point sending a message to an intended user equipment of the plurality of user equipments; and the intended user equipment calculating the MU-CQI based on the message, and feeding back the MU-CQI to the transmission point. The present disclosure enables dynamic MU operation, and improves link adaptation performance with marginal downlink overhead. And the accuracy is not limited by codebook size.

Abstract: Embodiments relate to the field of wireless communications, and particularly, to methods and apparatuses for power headroom reporting. In one embodiment, a method of power headroom reporting includes: determining PH information of each of configured and active cells at a current instant if PH information is required to be reported, where the configured and active cells include a cell which is configured with a downlink subframe at the current instant; and reporting the determined PH information. Since a power headroom is reported by obtaining PH information of a configured and active cell which is currently a downlink subframe according to a virtual transmission format, the PH information facilitates subsequent scheduling by an eNB.

Abstract: A method in a first network node (110) for coordinating data transmissions between wireless devices (121, 122) and two or more antennas associated with at least one second network node (210, 310) in a wireless communication network (100) is provided. The wireless devices (121, 122) are served by the at least one second network node (210, 310) and the at least one second network node (210, 310) is configured to perform coordinated data transmission or reception. First, the first network node (110) identifies two or more groups of wireless devices based on mutual spatial correlation between the wireless devices (121, 122). Then, the first network node (110) selects a subset of wireless devices from two or more of the identified groups of wireless devices based on a criterion that relates to a data rate of each of the wireless devices.

Abstract: Efficient and scalable source routed forwarding can be achieved in multi-domain networks by substituting path identifiers for intra-domain hop lists in source route hop lists. The path identifiers are then replaced with the corresponding intra-domain hop lists at the ingress edge nodes of each corresponding domain. The path identifiers do not specify individual hops along an intra-domain path segment, and are therefore typically shorter than the intra-domain hop lists. To facilitate multi-domain source routed forwarding techniques, routing tables in edge nodes of the corresponding domains are updated to associate the path identifiers with the corresponding intra-domain hop lists during (or immediately following) inter-domain path computation.

Abstract: Various embodiments include an apparatus having a wireless communication device (WCD) and methods for the WCD to wirelessly exchange messages with other devices. In some embodiments, such a WCD may send a message to reject an invitation to form a peer-to-peer (P2P) wireless connection between the WCD and a first device if the invitation is received by the WCD when the WCD has already established a P2P wireless connection with a second device. Other embodiments including additional apparatus and methods are described.

Abstract: A transponder-bonded receiver system with clock recovery may include memory an and one or more processors coupled to the memory and configured to execute one or more program modules to perform: receiving multiple data streams each including a number of data packets, and a number of marker packets with embedded bonding clock references (BCRs) and including marker packet information; adjusting arrival-time-stamps (ATSs) of the marker packets by using the BCRs and including capturing timing between the marker packets based on a local free running counter of the receiver; and determining an adjusted ATS corresponding to an ATS at the receiver for each of the plurality of packets using the ATS and a delta-ATS.

Abstract: Provided are methods and systems for estimating bandwidth in a communications network in which time slotting is occurring. A pre-filter is used to alter the distribution of transit deltas between data packets transmitted over the network to a receiver. By calculating the differences between arrival times of consecutive data packets received at a receiving end, and comparing the differences between the arrival times of the packets to the differences between corresponding send times for the packets, a determination is made as to whether such packets should be logically grouped together so as to constitute a single arrival event. The sum of the payload sizes of data packets within a group, together with timestamps for the arrival time and send time of the last packet included in the group is used as input to a bandwidth estimator.

Abstract: Channel quality indicator (CQI) and precoding feedback from a user equipment includes reporting of at least a first and a second precoding matrix indicator (PMI). First, second and third indices are determined based upon the first and the second PMI and third and fourth PMI and are employed to select the precoding matrix. The selected precoding matrix includes a first column comprising a first row partition and a second row partition, where the first row partition is a Kronecker product of at least first and second precoding vectors and the second row partition is a Kronecker product of a first term and a second term. The first term is a product of a co-phasing factor and the first precoding vector and the second term is the second precoding vector. The first precoding vector is selected from a first codebook and the second precoding vector is selected from a second codebook.

Abstract: Disclosed are a data transmission method and device, used to solve the problem of achieving air interface group calling and multicasting when a base station is connected to a network side via an IP interface; the data transmission method of the present invention comprises: the base station determines a group air interface identifier corresponding to an IP broadcast address or an IP multicast target address; the base station assigns the air interface identifier to a user equipment in the group; and the base station schedules and transmits the air interface data via the air interface identifier.

Abstract: In one embodiment, a plurality of packets is sent from an origin device along a communication path toward a destination device. Each packet includes a lifespan indicator which is incrementally increased for each subsequently sent packet. A plurality of response messages are received at the origin device from a plurality of intermediate devices, respectively. A plurality of secure path objects included in the plurality of response messages, respectively, is determined. Additionally, the plurality of secure path objects are validated based on validation information accessible by the origin device. Validation results of the plurality of secure path objects are checked to determine whether a packet that is sent from the origin device and received by the destination device travels along a particular communication path as dictated by control plane information.