Abstract: Apparatuses, methods, and systems for coordinating wireless communication are disclosed. One method includes generating, by a wireless radiator, a plurality of selectable directional wireless communication links capable of providing connectivity across a plurality of cells, wherein each of the cells is spatially different from other cells, and wherein each of the cells covers a cell area, wherein a plurality of hubs are located within the cell area, generating, by a controller, a cell map, wherein the cell map maps which of the directional wireless links, which of the plurality cells, and which of the hubs are active as a function of time, thereby supporting a wireless communication link between the base station and the hubs of the cell area corresponding with the active directional wireless link, and providing the cell map to the base station and the hubs of each of the cells.

Abstract: An access point (AP) may operate as a master AP (AP1) to perform multi-AP coordinated beamforming (CBF). The AP1 may to initiate a first sounding sequence with one or more STAs associated with the AP1 (BSS STAs) and the one or more STAs associated with a second AP (AP2) (OBSS STAs). In these embodiments, initiation of the first sounding sequence triggers the AP2 to join the sounding sequence to initiate a second sound sequence with the BSS STAs and the OBSS STAs.

Abstract: A system and method for beam switching by a User Terminal (UT). The method includes initiating a beam switch between an old beam and a new beam when the UT is disposed in an overlap area of the old beam and the new beam; duplicating over the new beam, at a Network Access Point (NAP), user traffic to the UT; and assigning a Time Division Multiplex Access (TDMA) allocation for the UT on the new beam, prior to an arrival of the UT on the new beam, where the user traffic traversing a satellite network remains uninterrupted during the beam switch and the NAP redirects user traffic for the UT via the old beam to the new beam.

Abstract: A mobile station control method by a computer for controlling a first mobile station for communicating with a second mobile station includes: distance detecting of detecting a distance between the first mobile station and the second mobile station; and first switching of switching a beam width of an electromagnetic wave emitted from the first mobile station to the second mobile station switching a beam width of an electromagnetic wave emitted from the first mobile station to the second mobile station the distance.

Abstract: Herein is disclosed a wireless communication device comprising two or more antennas; one or more transceivers, configured to process wireless signal for one or more processors received via the two or more antennas; and one or more processors, configured to determine a timing of data transmissions within the wireless signal; determine a timing of intervals between beam selection protocol transmissions in the wireless signal; determine a testing period corresponding to an overlap of one data transmission selected from the data transmissions and one interval of the intervals; and measure a signal quality of the selected data transmission during the testing period using a candidate receive-beam setting from a plurality of predefined receive-beam settings for receiving the wireless signals via the two or more antennas.

Abstract: Methods and systems for shaping an electromagnetic wavefront are disclosed. A disclosed method includes tuning a tunable surface in an electromagnetic cavity and receiving the electromagnetic wavefront in the electromagnetic cavity. The electromagnetic wavefront includes a first wave defined by a first wavelength and a second wave defined by a second wavelength. The first wave and the second wave have a shared phase and a shared beam direction in the electromagnetic wavefront. The method further includes reflecting the electromagnetic wavefront within the cavity to repeatedly interact with the tunable surface, and transmitting, after reflecting the electromagnetic wavefront within the cavity, the electromagnetic wavefront from the electromagnetic cavity as a shaped electromagnetic wavefront. The first wave and the second wave have at least one of a difference in phase or a difference in beam direction in the shaped electromagnetic wavefront.

Abstract: A sidelink communication method performed by a UE includes receiving from a base station a message including first configuration information of a common resource pool and second configuration information for an occupancy state reporting of the common resource pool. The method also includes receiving from the base station an indicator indicating resources used for sidelink communication within the common resource pool by performing a monitoring operation on resources indicated by the second configuration information and performing sidelink communication using resources other than the resources indicated by the indicator within the common resource pool indicated by the first configuration information.

Abstract: A control station for a fourth-generation (4G) automatic link establishment (ALE) network is disclosed. In embodiments, the control station is GPS-enabled or has a comparable precise timing source for generating timing information including the minute, second, and millisecond a protocol data unit (PDU) is to begin. The control station has a transceiver assembly for encoding the millisecond data and embedding the encoded millisecond data (as well as the minute and second data) within a Time-of-Day (TOD) Response or comparable time broadcast PDU. The PDU is transmitted to unsynchronized nodes of the 4G ALE network allowing for more precise time synchronization to the control station.

Abstract: In one example, an integrated relay distributed antenna system includes a relay node communicatively coupled to a base station and a master unit communicatively coupled to the relay node. The relay node is configured to communicate with the base station via a backhaul interface. The master unit is configured to communicate with the relay via an access interface, and the master unit and the relay node are configured to communicate demodulated and decoded data and/or demodulated data with each other. The integrated relay distributed antenna system further includes one or more remote antenna units communicatively coupled to the master unit and located remote from the master unit, wherein the one or more remote antenna units are configured to provide radio frequency signals to a coverage zone via one or more antennas.

Abstract: A transmission configuration method can be applied to a base station and include: determining that a terminal is allowed to report a changed transmission capability when the transmission capability changes; generating a first configuration information, the first configuration information characterizes that the terminal is allowed to report the changed transmission capability when the transmission capability changes; sending the first configuration information to the terminal, such that when the transmission capability changes, the terminal obtains the changed transmission capability according to the first configuration information and sends the changed transmission capability to the base station.

Abstract: Disclosed are some examples of techniques for positioning of a user equipment (UE) using positioning reference signal (PRS). One or more units of messages may be communicated between an initiator UE and a responder UE. A unit of message may include a pre-PRS message, a PRS message and a post-PRS message. The pre-PRS message and the post-PRS message may be sent or received using a license spectrum. The PRS message may be sent or received using an unlicensed spectrum. The communication between the initiator UE and the responder UE may be initiated by the initiator UE identifying the responder UE from a plurality of UEs based on positioning properties of the responder UE. The positioning properties of the responder UE may include one or more of a direction, a velocity, a location confidence and a location of the responder UE.

Abstract: A terminal according to the present invention includes an array antenna including an aperture, and an antenna pattern calculation unit. The antenna pattern calculation unit calculates antenna patterns of the array antenna that divide the aperture to correspondingly orient each of the aperture divisions toward a plurality of relay stations when control frames are received, and orient the aperture toward one of the plurality of relay stations when a data frame is received.

Abstract: A method is provided for off-loading MAC (medium access control) functionalities that were previously carried out by satellites, and carry out these functionalities by control gateways that are located on the ground, and by implementing that to simplify the operation and maintenance of the satellite communications network.

Abstract: A method for Xx/Xn interface communication is disclosed, comprising: at an Xx/Xn gateway for communicating with, and coupled to, a first and a second radio access network (RAN), receiving messages from the first RAN according to a first Xx/Xn protocol and mapping the received messages to a second Xx/Xn protocol for transmission to the second RAN; maintaining state of one of the first RAN or the second RAN at the Xx/Xn gateway; executing executable code received at an interpreter at the Xx/Xn gateway as part of the received messages; altering the maintained state based on the executed executable code; and receiving and decoding an initial Xx/Xn message from the first RAN; identifying specific strings in the initial Xx/Xn message; matching the identified specific strings in a database of stored scripts; and performing a transformation on the initial Xx/Xn message, the transformation being retrieved from the database for stored scripts, the stored scripts being transformations.

Abstract: An electronic device according to various embodiments of the present disclosure includes: a first communication circuit; a second communication circuit; a processor operatively coupled with the first communication circuit and the second communication circuit; and a memory operatively coupled with the processor. The memory may store instructions, when executed, causing the processor to receive from a base station (BS) a synchronization signal including identification information of the BS via the first communication circuit, identify a direction from the electronic device to the BS by transmitting and receiving at least one signal with respect to the BS via the second communication circuit based on the identification information of the BS, and perform beam training by using some beams corresponding to the identified direction among a plurality of beams supported by the electronic device. Other embodiments are also possible.

Abstract: A communication system uses skywave propagation to transmit data between communication nodes over a data transmission path. An atmospheric sensor is configured to collect atmospheric data at the reflection point of the data transmission path where the transmission path is redirected from the atmosphere toward the surface of the Earth. Data collected by the atmospheric sensor may be used to predict future ionospheric conditions and determine optimum working frequencies for transmission of data between the communication nodes.

Abstract: Techniques are provided for positioning of a mobile device in a wireless network using directional positioning reference signals (PRS), also referred to as PRS beamforming. In an example method, a plurality of directional PRSs are generated for at least one cell for a base station, such that each of the plurality of directional PRSs comprises at least one signal characteristic and a direction of transmission, either or both of which may be distinct or unique. The plurality of directional PRSs is transmitted within the at least one cell, such that each of the plurality of directional PRSs is transmitted in the direction of transmission. A mobile device may acquire and measure at least one of the directional PRSs which may be identified using the associated signal characteristic. The measurement may be used to assist position methods such as OTDOA and ECID and to mitigate multipath.

Abstract: According to a communication method of the present disclosure, a responder, after the end of transmission sector sweep (TXSS), receives from an initiator a first feedback frame including a BF training type FIELD indicating whether or not to implement a beam forming training (BFT) of a single user multi-input multi-output (SU-MIMO). If the BF training type FIELD indicates that a BFT of the SU-MIMO is to be implemented, the responder transmits to the initiator a second feedback frame based on the result of the TXSS and including a signal to noise ratio (SNR) and a sector identifier (ID) order. The initiator implements the BFT of the SU-MIMO between the initiator and the responder on the basis of the SNR and the sector ID order.

Abstract: A wireless communication-based casualty reporting, responder-ready emergency application system permits users to notify one or more pre-programmed responders of an emergency event so that an emergency alert can be broadcast to notify the users in the facility/site of the emergency. The system includes a check-in and verification component to provide access with respect to each specific facility/site. The system further includes a data storage provision coupled with the main application and is configured to maintain logs of alert events and other relevant information for future reference to build protocols and check for any patterns. To facilitate these operations, the system is programmed to relay crisis management plans and standard emergency protocols to users within a facility/site when an emergency event arises.

Abstract: The present invention provides user equipment and a beam failure recovery method. The beam failure recovery method for user equipment (UE), includes: receiving indication of beam failure instance; accumulating the number of received indications so as to obtain an accumulative value; initiating a beam failure recovery procedure when the accumulative value is greater than a first threshold; and skipping processing the received indication of beam failure instance during the beam failure recovery period. Thus, it is possible to eliminate false beam failures.