A method of managing wireless access to a network performed by an access point includes storing a programmable response time for defining a zone of operation around the access point, receiving from a client device a request to associate with the access point, transmitting a probe to the client device, when a response to the probe is received, measuring a round trip time between transmission of the probe and receipt of the response, determining whether the client device's request to associate with the access point should be granted or denied by comparing the round trip time to the programmable response time, granting the request to associate in response to determining that the round trip time is less than the programmable response time, and denying the request to associate with the access point in response to determining that the round trip time is longer than the programmable response time.

A method of managing wireless access to a network performed by an access point includes storing a programmable response time for defining a zone of operation around the access point, receiving from a client device a request to associate with the access point, transmitting a probe to the client device, when a response to the probe is received, measuring a round trip time between transmission of the probe and receipt of the response, determining whether the client device's request to associate with the access point should be granted or denied by comparing the round trip time to the programmable response time, granting the request to associate in response to determining that the round trip time is less than the programmable response time, and denying the request to associate with the access point in response to determining that the round trip time is longer than the programmable response time.

Techniques are provided which may be implemented using various methods and/or apparatuses in a mobile device to crowd source mobile terrestrial transceiver identifiers associated with mobile terrestrial transports. In an embodiment, transceiver identifiers associated with mobile terrestrial transports may be identified and tracked through the detection and measurement of signals transmitted by mobile terrestrial transceivers received either by mobile devices located on the mobile terrestrial transport or through the detection and measurement of transient signals transmitted by passing mobile terrestrial transceivers received by stationary or near stationary mobile devices. The identity of detected mobile terrestrial transceivers and their locations and time observed may be uploaded to a server. The crowdsourced location and schedule information for the mobile terrestrial transports may be downloaded to mobile devices to provide transportation information such as arrival times, departure alerts, targeted stop alerts and other transport related functionality.

An interference evaluation method for evaluating, over an area, radio-wave interference that occurs between a first radio station and a second radio station includes: a distinguishing step of acquiring information indicating topographic cross-sections of respective azimuths centered about the first radio station, and distinguishing the topographic cross-section into a segment in which there is visibility from the position of the first radio station and a segment in which there is no visibility from the position of the first radio station; and a specification step of specifying a position at which a desired interference amount is reached based on a distance between the first radio station and the second radio station in a segment distinguished as having visibility from the position of the first radio station, and specifying a position at which the desired interference amount is reached by evaluating the radio-wave interference for each square of an evaluation target region segmented into squares in a segment distinguished as having no visibility from the position of the first radio station.

Disclosed is a virtual wireless base station that can dynamically scale its capacity to meet changes in demand for connectivity. The virtual wireless base station includes a plurality of virtual baseband modules, a plurality of interface/router modules, an orchestrator module and a fabric mapper module. Each of the plurality of virtual baseband modules is coupled to the interface/router modules by a low latency switch fabric. The orchestrator determines current and near future demand for connectivity within the virtual wireless base station and either instantiates and connects new virtual baseband processors to meet a rise in demand, or shuts down underutilized virtual baseband processors in case of insufficient demand.

Disclosed is a virtual wireless base station that can dynamically scale its capacity to meet changes in demand for connectivity. The virtual wireless base station includes a plurality of virtual baseband modules, a plurality of interface/router modules, an orchestrator module and a fabric mapper module. Each of the plurality of virtual baseband modules is coupled to the interface/router modules by a low latency switch fabric. The orchestrator determines current and near future demand for connectivity within the virtual wireless base station and either instantiates and connects new virtual baseband processors to meet a rise in demand, or shuts down underutilized virtual baseband processors in case of insufficient demand.

A communication control device includes: a selection unit that selects, on the basis of a protection target range which is set to the air above a communication device of a second wireless system on the basis of a position of the communication device of the second wireless system which secondarily uses a frequency resource primarily used by a first wireless system, a communication device of the first wireless system as a target for calculating interference applied by the communication device of the second wireless system.

This disclosure describes techniques for selecting network protocols using heatmaps. For instance, a system may receive radio frequency information from one or more sources located within an environment. The system may then generate heatmaps using the radio frequency information, where the heatmaps represent characteristics associated with different network protocols. The characteristics may include signal strengths, throughputs, data packet drop rates, data packet retry rates, and/or the like for various locations within the environment. A user device may then receive the heatmaps from the system. Using a location of the user device and the heatmaps, the user device may determine to communicate using a network protocol from the different network protocols. The user device may then establish a connection using the network protocol.

A shielding object identifying unit identifies a partial point cloud representing a shielding object existing in a Fresnel zone on a basis of point cloud data indicating a position of the shielding object in the Fresnel zone between two wireless stations. A criterion decision unit decides an evaluation criterion of propagation loss by the shielding object on a basis of distribution of the partial point cloud. A determination unit makes determination related to communication between the two wireless stations on a basis of the evaluation criterion.

A method and system for Precision Drive Testing (PDT) of cellular wireless networks (e.g., 2G/3G/4G/LTE, 5G, 6G). The PDT system and method are cloud-based, automated, remotely controlled and allow for directed testing of user/device or machine experience of network(s) and service(s) performance by running pre-defined use cases, specific test scripts on pre-defined (pre-calculated) routes or within pre-defined (pre-calculated) areas of interest for the use case. The PDT may be automatically and remotely triggered by AI/ML based network sensing by drive test agents and/or outcomes (results) of network and/or service performance data and/or customer analytics or raw network and/or service and/or customer data, and/or network planning data, and/or new deployments of networks/technologies/services/devices, and benchmarking data.