Embodiments assign shared spectrum resources to access points. Embodiments group the access points into coexistence groups of access points, and generate a vertex graph including vertices that each represent one of the coexistence groups, where an edge connecting a pair of vertices in the vertex graph represents an overlap between coverage contours of a pair of coexistence groups represented by the pair of vertices, and the edge is assigned a weight that is proportional to the overlap as compared to other overlaps between coverage contours of other pairs of coexistence groups. Embodiments generate at least one vertex-colored graph by assigning a color to each vertex in the vertex graph, group the coexistence groups into groups of coexistence groups based on their corresponding assigned colors in the at least one vertex-colored graph, and map shared spectrum transmit frequencies to the groups of coexistence groups.

Provided is an analysis method for testing a vehicle-to-object (V2X) communication system and a system for performing the analysis method. The analysis method for a vehicle-to-object (V2X) communication system includes the steps of collecting data on a radio signal from the V2X communication system, the radio signal being transmitted or received in the V2X communication system; and transferring at least a portion of the collected radio signal data to a client; wherein the radio signal data is collected from two or more layers of layers constructing the V2X communication system.

Disclosed is a method for implementing antenna azimuth correction based on user data. Five prediction algorithms are combined to avoid some defects of an individual algorithm. By means of a method for applying a plurality of prediction model weights, a plurality of algorithms is organically combined, a high weight is applied to an algorithm having a good prediction effect, and a low weight is applied to an relatively bad algorithm, such that not only the accuracy of data prediction but also the stability of data prediction for different regions are ensured. By drawing a grid-level user data RSRP heat map for analyzed data to obtain sampling point information around a cell and a predicted azimuth, the present invention can find out, by means of deeper analysis, problems in engineering parameters, such as a longitude/latitude error, an azimuth error, and a reversely connected cell.

Disclosed is a method for implementing antenna azimuth correction based on user data. Five prediction algorithms are combined to avoid some defects of an individual algorithm. By means of a method for applying a plurality of prediction model weights, a plurality of algorithms is organically combined, a high weight is applied to an algorithm having a good prediction effect, and a low weight is applied to an relatively bad algorithm, such that not only the accuracy of data prediction but also the stability of data prediction for different regions are ensured. By drawing a grid-level user data RSRP heat map for analyzed data to obtain sampling point information around a cell and a predicted azimuth, the present invention can find out, by means of deeper analysis, problems in engineering parameters, such as a longitude/latitude error, an azimuth error, and a reversely connected cell.

Techniques for providing network connection plans for computing devices planning to travel along a pre-specified route are disclosed herein. In an example, crowd-sourced data is used to generate a network map that includes network parameters mapped to one or more geographical locations. The network map is used to generate a network connection plan for a computing device planning to travel along a pre-specified route. The computing device may then connect to one or more wireless networks according to the network connection plan while traveling along the pre-specified route.

A network node of a communications network configured to provide Citizen Broadband Radio Service (CBRS) to at least one end user device (EUD) in a coverage area of the network node. The network node comprises: at least one processor; and a memory storing software instructions configured to control the at least one processor to perform steps of: causing the at least one EUD to report information indicative of a respective reference signal downlink power detected by the at least one EUD; and determine a respective coverage threshold for the network node based on the information reported by the at least one EUD.

A network node of a communications network configured to provide Citizen Broadband Radio Service (CBRS) to at least one end user device (EUD) in a coverage area of the network node. The network node comprises: at least one processor; and a memory storing software instructions configured to control the at least one processor to perform steps of: causing the at least one EUD to report information indicative of a respective reference signal downlink power detected by the at least one EUD; and determine a respective coverage threshold for the network node based on the information reported by the at least one EUD.

The present invention provides a method and a system for arranging base stations in a millimeter wave communication network. The method establishes a stochastic optimization framework for millimeter-wave base station deployment in the urban street geometry and provides a low-complexity user association arrangement which can well balance the workloads among BSs and reduce the outage probability by taking the time-varying nature of user equipments' positions and the susceptibility of millimeter-wave links to blockage effect into account. Compared with the state-of-the-art approaches, the present invention can effectively and efficiently reduce the outage probability in the long term.

The present invention provides a method and a system for arranging base stations in a millimeter wave communication network. The method establishes a stochastic optimization framework for millimeter-wave base station deployment in the urban street geometry and provides a low-complexity user association arrangement which can well balance the workloads among BSs and reduce the outage probability by taking the time-varying nature of user equipments' positions and the susceptibility of millimeter-wave links to blockage effect into account. Compared with the state-of-the-art approaches, the present invention can effectively and efficiently reduce the outage probability in the long term.

Aspects of the subject disclosure may include, for example, generating, at a first point in time, a first prediction regarding a likelihood that a communication device will attempt to connect to a service of a network at a second point in time that is subsequent to the first point in time, generating, at a third point in time that is prior to the second point in time, a second prediction regarding a scope of coverage of the network at the second point in time, and generating, by the processing system, a first ad-hoc network, modifying, by the processing system, a parameter of a second ad-hoc network, or a combination thereof, in accordance with the first prediction and the second prediction to extend the scope of coverage. Other embodiments are disclosed.