A method and corresponding apparatus configured to collect raw data from a plurality of wireless devices. The raw data includes activity recorded when the wireless devices are at a selected topographic region. The raw data is combined to produce aggregated data representative of the activities of the individual wireless devices. Either the aggregated data or the raw data are selected for analysis depending on whether the raw data meets a threshold activity or subscriber density level. The selected data are analyzed to identify activity patterns of users of the wireless devices.

Method performed by a network node (110) for keeping wireless devices (140) served by the network node (110) in active mode. Each of the wireless devices has a value for a first condition. The network node (110) determines whether each of the wireless devices has the value for the first condition among a number of highest values for the first condition. The first condition is associated with a need to be in active mode. The number of highest values for the first condition corresponds to a maximum amount of wireless devices allowed to be in the active mode simultaneously. The network node (110) updates a register, so that the wireless devices (140) in the register have the highest values for the first condition, according to the maximum amount. The network node (110) keeps the wireless devices (140) in the updated register in active mode.

Method performed by a network node (110) for keeping wireless devices (140) served by the network node (110) in active mode. Each of the wireless devices has a value for a first condition. The network node (110) determines whether each of the wireless devices has the value for the first condition among a number of highest values for the first condition. The first condition is associated with a need to be in active mode. The number of highest values for the first condition corresponds to a maximum amount of wireless devices allowed to be in the active mode simultaneously. The network node (110) updates a register, so that the wireless devices (140) in the register have the highest values for the first condition, according to the maximum amount. The network node (110) keeps the wireless devices (140) in the updated register in active mode.

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.

Embodiments of the present invention provide a method, includes: receiving corresponding information from a communications device, where the corresponding information indicates a correspondence between at least one sending resource and at least one coverage level; receiving at least one segment of control information sent by using the at least one sending resource; parsing the at least one segment of control information to obtain content included in the at least one segment of control information; and setting, according to the corresponding information if content included in one segment of control information in the at least one segment of control information includes information indicating an identity of the user terminal, a coverage level of the user terminal to a first coverage level that is in the at least one coverage level and that is corresponding to a sending resource by using which the one segment of control information is sent.

Embodiments of the present invention provide a method, includes: receiving corresponding information from a communications device, where the corresponding information indicates a correspondence between at least one sending resource and at least one coverage level; receiving at least one segment of control information sent by using the at least one sending resource; parsing the at least one segment of control information to obtain content included in the at least one segment of control information; and setting, according to the corresponding information if content included in one segment of control information in the at least one segment of control information includes information indicating an identity of the user terminal, a coverage level of the user terminal to a first coverage level that is in the at least one coverage level and that is corresponding to a sending resource by using which the one segment of control information is sent.

In a communication system of the LPWAN type including a server and a plurality of gateways intended to make wireless communications with terminals in said communication system, the server: obtains a description of a mobility hierarchy in which mobility types are hierarchically defined; obtains a description of a mobility tree in which mobility areas are hierarchically defined, in conformity with the mobility hierarchy; obtains terrain measurements associated with each mobility area defined in the mobility tree; establishes a frequency plan on the basis of the mobility tree and terrain measurements; and configures the gateways and the terminals according to the frequency plan established.

In a communication system of the LPWAN type including a server and a plurality of gateways intended to make wireless communications with terminals in said communication system, the server: obtains a description of a mobility hierarchy in which mobility types are hierarchically defined; obtains a description of a mobility tree in which mobility areas are hierarchically defined, in conformity with the mobility hierarchy; obtains terrain measurements associated with each mobility area defined in the mobility tree; establishes a frequency plan on the basis of the mobility tree and terrain measurements; and configures the gateways and the terminals according to the frequency plan established.

A maritime network provides network coverage for nautical or aerospace vehicles traveling over the sea. Generating the network configuration for the maritime network includes receiving client information for client devices in range of a given node of the maritime network for a period of time that the client devices are traveling asea, as well as location information for the period of time from a plurality of nodes in the network including the given node. Based on the client information and the location information, a network configuration is determined to include a plurality of links to be formed for routing paths through the maritime network. The routing paths are configured to transmit data related to the client devices, and the plurality of links includes a link between the given node and another node in the network that is within a maximum distance from the given node.