Abstract: The present invention relates to a wireless communication system. More specifically, the present invention relates to a method and a device for avoiding padding only MAC PDU in a D2D communication system, the method comprising: receiving a sidelink grant from a base station (BS) when the TX UE communicates with a receiving UE (RX UE) directly; checking size of the received sidelink grant; and transmitting a Medium Access Control Protocol Data Unit (MAC PDU) including at least one byte of Radio Link Control Service Data Unit (RLC SDU) if the size of received sidelink grant is larger than a minimum size of MAC PDU including only MAC header and Radio Link Control (RLC) header for Sidelink Traffic Channel (STCH).

Abstract: The present invention pertains to the allocation of bandwidth on a global large scale network. Systems and methods are provided to base bandwidth allocation on the predicted bandwidth demands of the network users. In allocating bandwidth, each user is assigned a user weight value, and is to be allocated bandwidth in proportion to that value. In addition, the bandwidth allocation is enforced so as to ensure that bandwidth allocation policies are maintained.

Abstract: A method for measuring signals of peripheral cells when heterogeneous communication modules such as Long Term Evolution (LTE), wireless Local Area Network (LAN), Bluetooth, and Global Positioning System (GPS) coexist in a terminal in a wireless communication system is provided. The method includes receiving a measuring report setting message including measuring report conditions from a base station, measuring signal quality of at least one of a serving cell or a peripheral cell and determining whether the measured signal quality satisfies the measuring report conditions, and generating and transmitting a measuring report message including a measuring result to the base station when the measured signal quality satisfies the measuring report conditions. Accordingly, the terminal may measure signals of peripheral cells in a state in which there is interference from another communication module to maintain a normal communication situation.

Abstract: Method used in a first control node controlling one or more first links among two or more first radio nodes in a first network, and an associated first control node. Transmitting desired sounding and sensing related parameters of the first control node to a second control node controlling one or more second links among two or more second radio nodes in a second network neighboring the first network and operating at the same frequency as the first network. Receiving, from the second control node, sounding and sensing related parameters to be applied to the one or more second links, which are adjusted based on the desired sounding and sensing related parameters of the first control node. Adjusting the desired sounding and sensing related parameters of the first control node, based on the sounding and sensing related parameters to be applied to the one or more second links and applying them.

Abstract: A measuring unit for measuring transmission parameters of a device under test, comprising a control unit, a transmitter and receiver unit and an evaluation unit. The transmitter and receiver unit is connected via a first connection to the control unit and via at least one transmission channel to the device under test. The device under test is connected via a second connection to the evaluation unit, wherein, for the measurement of the transmission parameters of the device under test, control-data packets and test-data packets are transmitted separately between the control unit and the evaluation unit, and wherein a transmission channel for the test-data packets can be disturbed in a targeted manner.

Abstract: One embodiment provides a mobile wireless network that includes a plurality of wireless nodes and a controller node which manages a weighted network graph for the plurality of wireless nodes. A local wireless node sends a route-request message associated with at least one destination node to the controller node, receives a path to the destination node, and routes a packet to the destination node based on the received path. The path is computed based on the weighted network graph. One embodiment provides a system for routing in a mobile wireless network that comprises a plurality of wireless nodes. The system receives a route-request message associated with at least one destination node from a source node, computes a path between the source node and the destination node based on a weighted network graph for the plurality of wireless nodes, and transmits the computed path to at least the destination node.

Abstract: A method for obtaining and utilizing internet protocol (IP) subnet information, the method may include obtaining by a layer two cable modem termination system (L2 CMTS) information about IP subnets that comprise DHCP leased IP addresses assigned to devices serviced by the L2 CMTS; and maintaining, by the L2 CMTS and based on the information about the IP subnets, a data structure that reflects the IP subnets that comprise the IP addresses that are allocated to the devices serviced by the L2 CMTS.

Abstract: A user equipment includes a reception unit that receives first information indicating a radio network temporary identifier (RNTI), second information, plural pieces of third information, and fourth information. The second information indicates a subframe in which the user equipment monitors a physical downlink control channel with the RNTI. Each of the plural pieces of third information indicates an uplink-downlink configuration which is transmitted on the physical downlink control channel with the RNTI. The fourth information is used for determining an index of third information for a serving cell among the plural pieces of third information. In a case where the fourth information is configured for any of activated serving cells, the reception unit monitors the physical downlink control channel with the RNTI, in a common search space for a primary cell, in the subframe for monitoring the physical downlink control channel with the RNTI.

Abstract: An object of the present invention is to provide a network system or the like in which the construction cost of a network for a plurality of control systems is suppressed which is excellent in resistance to a network failure.

Abstract: Systems and methods are disclosed that may ensure equal medium access between a first wireless device associated with a load based equipment (LBE) protocol and a number of second wireless devices associated with an enhanced distributed channel access (EDCA). The first wireless device may determine a level of contention associated with gaining access to a wireless medium, select a contention window size based, at least in part, on the determined level of contention, and select, for a medium access contention operation, a random back-off number from a range of numbers defined by the selected contention window size.

Abstract: The disclosure relates to technology for iterative localization and channel estimation in a communication system. A radio network node detects user location information from user equipment in a geographic region, where the geographic region includes a location cluster having multiple location levels. A location signature profile is formed for each level based on the location signature of a corresponding location level in the cluster, and a filter is generated for each level based on the location signature. Upon application of the filter that matches the location level of the location user information, the channel is estimated and the user location information is updated based on the channel estimation. The process is repeated until the user location information converges with a preselected convergence value.

Abstract: Communication methods and systems wirelessly communicate onboard messages between communication devices onboard the same vehicle. The communication devices can wirelessly communicate with other communication devices onboard other vehicles in a vehicle system for remote control of the vehicles. Receipt of the onboard messages at the communication devices is determined, and operative states of the communication devices are determined based at least in part on the receipt of the onboard messages at the communication devices. Determining these operative states in this manner can allow for an operator to identify communication faults with the communication devices prior to departing the vehicle.

Abstract: Embodiments of the present invention disclose a TCP link configuration method, apparatus, and device. The method includes: acquiring data information in a data packet transmitted on a target TCP link or transmission information generated in a process of transmitting the data packet; determining, according to the data information or the transmission information, a target network type of a network on which the target TCP link is located; searching a pre-established configuration library for a target TCP configuration file corresponding to the target network type; and configuring the target TCP link by using the searched target TCP configuration file. According to the method, the configured target TCP link is better adapted to a network on which the target TCP link is located; use of network bandwidth can be maximized; and TCP transmission efficiency can be improved.

Abstract: A method for establishing an alternate pathway to an endpoint that may determine that a network connection is lost between a first network element and an application server. The method may select a second network element from a virtual network operating on an optical network. The second network element may include a network connection over the optical network to the application server, and a network connection to the first network element over the virtual network. The method may designate the second network element to act as a network proxy to the first network element. The first network element may use the second network element as the network proxy for receiving data over the virtual network. The method may receive data from the application server at the first network element using the second network element as the network proxy.

Abstract: A real-time service is distributed across multiple hosts, with different instances of the service running on the different hosts. Instances of a current (non-updated) version of a service run concurrently with instances of an updated version of the same service for some period of time. In order to smoothly handoff the handling of client requests so as to handle all packets, the different instances of the service evaluate one or more criteria that include a listed data timestamp of packets embodying the client requests. Use of objective criteria such as the listed data timestamp allow the different service instances to evaluate the criteria in a way that is consistent with the evaluations of the other instances, despite computer network-induced variability such as imperfect clock synchronization among hosts and variance in request delivery time.

Abstract: The present disclosure relates to the field of communication technology, and provides a data transmission method, a data reception and detection method, a base station and a UE on the basis of a non-orthogonal mode. Before the transmission of pieces of data on physical resources by the base station, a plurality of pieces of data is firstly mapped to the physical resources at an amount not greater than the number of the pieces of data, each piece of data in the plurality of pieces of data is mapped to at least one physical resource, and the number of the physical resources to which each piece of data is mapped is not completely the same. Then, the pieces of data on the physical resources are transmitted by the base station. According to the present disclosure, it is able to transmit more pieces of data through fewer physical resources, thereby to improve the data transmission capability for the communication system.

Abstract: Methods and apparatuses for control admission to network resources are provided. Probationary service flows with a reduced priority are provisionally allowed to use network resources. As the network demonstrates its continued stability by the addition of the new probationary flows, each probationary flow can be re-assigned its original priority thereby promoting the probationary flow to a non-probationary status.

Abstract: Wireless transceiver includes a plurality of RF filters. A first band switching network includes a first plurality of RF switches to selectively direct transmitter RF energy to a selected RF filter. A second band switching network includes a second plurality of RF switches which selectively controls which of RF filter is connected to an antenna port. A receiver RF switch is connected to at least one of the RF filters and to a receiver input to selectively permit the received RF energy arriving at one RF filter to be communicated to the receiver. Each RF switch is a PIN diode type with at least one series diode provided along a signal path. No more than two PIN diodes are present in the signal path between the common transmitter port and the common antenna port when any of the RF filters is in use.

Abstract: A method for setting connection between an access point and a station is provided. A method includes transmitting, by a station management entity, to a MAC layer management entity included in the station, information about a reception condition for a communication setup message transmitted by the access point and information about a reporting timing of the communication setup message by the MAC layer management entity to the station management entity when the MAC layer management entity receives the communication setup message, and adjusting, by the MAC layer management entity, a transmission timing of the communication setup message to the station management entity according to information about a connection priority requirement included in the communication setup message received by the MAC layer management entity from the access point, and the information about the reporting timing.

Abstract: Techniques for reducing broadcast and multicast traffic in a stacking system are provided. In one embodiment, a master device in the stacking system can automatically determine a minimal set of VLAN associations for stacking links in the stacking system. The minimal set of VLAN associations can avoid unnecessary transmission of broadcast or multicast packets through the system's topology.