Abstract: An apparatus and method for classifying traffic data in a communication network based on IP flow. Traffic data in a communication network is monitored in order to detect an IP flow. A preliminary classification is assigned to the IP flow based on protocol information contained in its first packet. Subsequent packets within the IP flow are further monitored, and the IP flow is reclassified based, in part, on the domain name of the responding server. Web pages can also be classified, and monitored to determine their response time.

Abstract: A method comprises communicating, between a base station (112) of a network and a terminal (130), at least one downlink control message (4001) indicative of a plurality of reoccurring resources (202) allocated to a wake-up signal (4003). The method further comprises communicating, between the base station (112) and the terminal (130), the wake-up signal (4003) in at least one resource of the plurality of reoccurring resources (202). The method further comprises in response to said communicating of the wake-up signal (4003), communicating, between the base station (112) and the terminal (130), at least one further signal (4004, 4005).

Abstract: Each of multiple vehicle data collection devices are configured to collect data streams associated with operation of a vehicle. The data streams include time-stamped speed data. A transmitter is configured to transmit the data streams. An analytics server is configured to receive the data streams transmitted by the transmitter and to process the data. In connection with the processing, data streams with at least one common time stamp are identified. The time-stamped speed for one of the data streams at a first time interval is compared to the time-stamped speed for another of the identified plurality of data streams at a second time interval, where the second time interval comprises the first time interval plus an additional time increment. Based on the comparison, it is determined whether the two of the plurality of data streams are associated with a same trip or a different trip.

Abstract: A user equipment, a method, and computer-readable media. The UE, which includes a transceiver with a plurality of antenna panels, is configured to determine a link quality of a serving antenna panel. If the link quality of the serving panel is below a quality threshold, resources are allocated from the serving antenna panel to another antenna panel during a sweeping period to identify one or more beams of a target antenna panel for resuming communications. Measurements for a set of beams of the other antenna panel are obtained, during the sweeping period, with the allocated resources. The other antenna panel can be determined to be the target antenna panel based on the obtained measurements. The UE can switch from the serving antenna panel to the target antenna panel, select the one or more beams based on the obtained measurements, and resume the communications on the selected one or more beams.

Abstract: The technologies described herein are generally directed toward shedding processing loads associated with route updates. For instance, a system can comprise a processor and a memory that can enable operations facilitating performance of operations including facilitating receiving a content item for transmission to a destination router device on a network. The operations can further comprise facilitating communicating, to a second routing device, a first portion of the content item. The operations can further comprise facilitating communicating, to a third routing device, a second portion of the content item. Further, operations can be performed for appending a separation indicator to at least one of the first portion or the second portion, wherein the separation indicator provides information that links the first portion to the second portion.

Abstract: The disclosure relates to a 5th generation (5G) or pre-5G communication system for supporting a higher data rate beyond a 4th generation (4G) communication system, such as Long Term Evolution (LTE). An operation method and a terminal are provided. The method includes acquiring information and determining an initial value for an automatic gain control (AGC) operation for a signal received from a transmission device, receiving a signal from the transmission device, and performing the AGC operation for the received signal by using the initial value determined based on the information.

Abstract: A method and device are disclosed for controlling a data-transmission mode used by a vehicle to communicate. In one aspect, the control method includes selectively activating, when a predefined condition C1 or C2 is met, a full-duplex data-transmission mode at a first vehicle to communicate with a second vehicle and with a base station of a network to which the first vehicle is connected.

Abstract: In one embodiment, a first networking device sends, to a second networking device, a training frame of a transmitter training signal (TTS) that includes a request for the second networking device to enable a protocol on the second networking device. In addition, the first networking device receives, from the second networking device, an indication that the second networking device has enabled the protocol on the second networking device. The first networking device may also send, using the protocol, first flow-control information indicating a number of data packets sent by the first networking device to the second networking device and a number of acknowledgments received from the second networking device, in addition to receiving second flow-control information indicating a number of data packets received at the second networking device from the first networking device and a number of acknowledgments sent by the second networking device to the first networking device.

Abstract: A device (e.g. a wireless communication device) may determine, according to a set of guidelines, a list that includes system information to be requested by the device as part of a system information request procedure. The device may determine whether to combine the system information request with an additional request associated with a random access procedure (RACH). In response to determining that the requests are to be combined, the device may initiate a unified RACH that combines the system information request and the additional request. The decision to combine the requests may be based on the type of the additional request, whether the list has been completed by the time the additional request is to be issued, and/or additional factors associated with wireless communications of the device. The system information request may be an OnDemand system information block request, and the RACH may be contention-based or contention-free.

Abstract: A method of performing bidirectional forwarding detection (BFD) by a hardware forwarding element that includes a set of ingress pipelines and a set of egress pipelines. Each ingress pipeline includes a packet generator. A packet generator in a first pipeline periodically generates a pair of packets to monitor the health of a particular egress link. The pair includes a BFD transmit packet and a BFD dummy transmit packet. The method forwards each dummy BFD transmit packet to a first egress pipeline and increments a counter at the first egress pipeline. Each BFD packet is transmitted through the particular egress link to a network node. BFD packets received from the network node are forwarded to the first egress pipeline and the value of the counter is rest. The method marks the particular egress link as failed when the value of the counter exceeds a predetermined threshold.

Abstract: A signaling-link retimer concatenates discontiguous leading and trailing portions of a precoded and scrambled symbol stream, shunting the trailing portion of the stream ahead of unneeded stream content to dynamically reduce the number of symbols queued between retimer input and output and thus reduce retimer transit latency.

Abstract: Techniques for efficient communication packet generation in internet of things (IOT) include presenting an application programming interface to each of a plurality of protocols in a plurality of different layers of a network communications protocol stack. A single packet buffer is configured in memory to hold headers for all of the plurality of protocols for a packet directed to a first destination node. Pointers are also stored in memory to tables maintained by the plurality of protocols. In response to receiving input at the application programming interface from a first protocol, at least one bit is updated in the single packet buffer based on the input and on data in a table maintained by a different second protocol of the plurality of protocols.

Abstract: An apparatus and method for classifying traffic data in a communication network based on IP flow. Traffic data in a communication network is monitored in order to detect an IP flow. A preliminary classification is assigned to the IP flow based on protocol information contained in its first packet. Subsequent packets within the IP flow are further monitored, and the IP flow is reclassified based, in part, on the domain name of the responding server. Web pages can also be classified, and monitored to determine their response time.

Abstract: A method for scheduling a downlink transmission is provided. The method includes receiving, by a user equipment (UE), downlink control information (DCI) from a base station, the DCI indicating a location of a transmission duration within a subframe, the location of the transmission duration including a start position of the transmission duration and a length of the transmission duration, the length of the transmission duration being 2, 4, or 7 symbols. The method further includes receiving downlink data from the base station, the downlink data carried by the transmission duration at the location indicated by the DCI.

Abstract: An apparatus of a management service producer comprises one or more processors to create a measurement job for one or more NFs, NSSIs, NSIs, networks or subnetworks by receiving a CreateMeasurementJob operation request for creating a measurement job for the one or more NFs, NSSIs, NSIs, networks or subnetworks from a consumer, checking if one or more new measurement types need to be collected for the one or more NFs or constituent NSSIs or constituent NFs, requesting the NFs or the management service producer of the constituent NSSIs or constituent NFs to collect the performance data when one or more new measurements types are to be collected for the one or more NFs or constituent NSSIs or constituent NFs. The management service producer allows the consumer to choose the reporting method from performance data file reporting and performance data streaming for the collected performance data in the CreateMeasurementJob operation request.

Abstract: A network device receives, from a congestion controller, traffic policy information associated with a data stream between a sender and a receiver, where the traffic policy information includes a maximum round trip delay time (RTT) and a maximum throughput rate (Rate). The network device obtains a receiver advertised window size (RWND) for the receiver for the data stream. The network device modifies the RWND based on the RTT and the Rate to produce a modified receiver window size (RWND?) and sends the RWND? to the sender for use in controlling congestion on the data stream between the sender and the receiver.

Abstract: A network access node for use in a wireless telecommunications system comprising the network access node and a terminal device, the network access node is operable to: transmit wake-up signalling for the terminal device in a wake-up signalling transmission period in advance of transmitting a paging message to indicate the terminal device should seek to decode the paging message, wherein the wake-up signalling comprises: first wake-up signalling transmitted in a first frequency band during a first transmission period in the wake-up signalling transmission period; and second wake-up signalling transmitted in a second frequency band during a second transmission period in the wake-up signalling transmission period.

Abstract: Determination of characteristics of a communication environment may be beneficial in many communication systems. For example, certain wireless communication systems, such as fifth generation (5G) communication systems, may benefit from appropriate mobility measurements. A method can include performing, at a user equipment, beam-specific measurements of a plurality of beams of at least one cell. The method can also include calculating a cell quality based on the beam-specific measurements.

Abstract: A method for spectrum sensing for cognitive radio includes performing a process of local spectrum sensing using receive beamforming and energy detection at each of a plurality of secondary users included in a cognitive radio network, wherein the process of local spectrum sensing decides between two hypotheses corresponding to absence and presence of a primary user, the two hypotheses being formulated using a primary user signal, a plurality of co-channel interferences, and sensing noise, the primary user signal, the plurality of co-channel interferences, and the sensing noise being received at each of the plurality of secondary users, and a set of beamforming weights of the receive beamforming is determined by optimizing a probability of detection and constraining a probability of false alarm.

Abstract: A method and apparatus for identification of control information for sidelink management in a wireless communication system is provide. A first wireless device (e.g., a first user equipment (UE)) receives control information including at least one identifier (ID) associated with a link, and determines one of in-sync indication or out-of-sync indication based on a receiving quality of the control information.