Abstract: In aspects of modem processor firewall operations, an application processor may provide to a modem information related to one or more firewall rules configured to enable the modem to block data packets satisfying filter criteria consistent with the one or more firewall rules. A modem processor may receive from the application processor one or more firewall rules used by the application processor for performing firewall operations on received data packets, generate one or more filters executable by the modem processor based on the received one or more firewall rules for application to data packets received by the modem, and drop received data packets that meet blocking criteria of the generated one or more filters.

Abstract: Methods, devices, and systems of various embodiments are disclosed for managing a vehicle charging station having a docking terminal. In various embodiments, a priority of a first autonomous vehicle and a second autonomous vehicle may be determined for using the docking terminal when a docking request is received from the second autonomous vehicle while the first autonomous vehicle occupies the docking terminal. In some embodiments, the priorities of the first and second autonomous vehicles may be based on an available power level of each of the first and second autonomous vehicles. The first autonomous vehicle may be instructed to undock from the docking terminal in response to determining that the second autonomous vehicle has a higher priority.

Abstract: Methods, devices, and systems of various embodiments are disclosed for managing an unmanned aerial vehicle (UAV). In various embodiments, the UAV may charge an onboard battery while docked at a docking terminal of a charging station. The UAV may receive a message from the charging station with an instruction to undock from the docking terminal. The UAV may undock from the docking terminal before charging of the onboard battery is complete in response to receiving the message from the charging station with the instruction to undock.

Abstract: Methods, devices, and systems of various embodiments are disclosed for managing an unmanned aerial vehicle (UAV). In various embodiments, the UAV may charge an onboard battery while docked at a docking terminal of a charging station. The UAV may receive a message from the charging station with an instruction to undock from the docking terminal. The UAV may undock from the docking terminal before charging of the onboard battery is complete in response to receiving the message from the charging station with the instruction to undock.

Abstract: Methods, devices, and systems of various embodiments are disclosed for managing a vehicle charging station having a docking terminal. In various embodiments, a priority of a first autonomous vehicle and a second autonomous vehicle may be determined for using the docking terminal when a docking request is received from the second autonomous vehicle while the first autonomous vehicle occupies the docking terminal. In some embodiments, the priorities of the first and second autonomous vehicles may be based on an available power level of each of the first and second autonomous vehicles. The first autonomous vehicle may be instructed to undock from the docking terminal in response to determining that the second autonomous vehicle has a higher priority.

Abstract: Methods, devices, and systems of various embodiments are disclosed for managing an unmanned aerial vehicle (UAV) charging station having a docking terminal. In various embodiments, a priority of a first UAV and a second UAV may be determined for using the docking terminal when a docking request is received from the second UAV while the first UAV occupies the docking terminal. In some embodiments, the priorities of the first and second UAVs may be based on an available power level of each of the first and second UAVs. The first UAV may be instructed to undock from the docking terminal in response to determining that the second UAV has a higher priority.

Abstract: Methods, devices, and systems of various embodiments are disclosed for managing an unmanned aerial vehicle (UAV) charging station having a docking terminal. In various embodiments, a priority of a first UAV and a second UAV may be determined for using the docking terminal when a docking request is received from the second UAV while the first UAV occupies the docking terminal. In some embodiments, the priorities of the first and second UAVs may be based on an available power level of each of the first and second UAVs. The first UAV may be instructed to undock from the docking terminal in response to determining that the second UAV has a higher priority.

Abstract: In one aspect, mobile access point devices may provide client devices access to an internet service provider. The mobile access point may communicate with the internet service provider via a cellular connection or a Wi-Fi connection. As the Wi-Fi connection may cause data service access failures due to, for example, firewalls, protocol limitations, or application layer gateways, allowing the mobile access point device to dynamically determine which mode of communication will reach the internet service provider can ensure more efficient service provisioning to the client devices. Packet filters may be maintained at the mobile access point device which identify which connections should be established via cellular and which should be established via Wi-Fi.

Abstract: Described herein are apparatuses, methods, and computer readable media for configuring a router. An exemplary method comprises determining a first subnet associated with the router, the router having a first configuration setting; updating the first configuration setting for the router; in response to updating the first configuration setting, determining whether a second subnet is associated with the router; determining whether the router is connected to a client device that has a network address associated with the first subnet; and determining whether to disassociate the first subnet from the router based, at least in part, on whether the router is connected to the client device that has the network address associated with the first subnet.

Abstract: In one aspect, mobile access point devices may provide client devices access to an internet service provider. The mobile access point may communicate with the internet service provider via a cellular connection or a Wi-Fi connection. As the Wi-Fi connection may cause data service access failures due to, for example, firewalls, protocol limitations, or application layer gateways, allowing the mobile access point device to dynamically determine which mode of communication will reach the internet service provider can ensure more efficient service provisioning to the client devices. Packet filters may be maintained at the mobile access point device which identify which connections should be established via cellular and which should be established via Wi-Fi.