The disclosure relates in some aspects to forbidden area procedures and connection release management for a user terminal (UT). Forbidden area-related procedures include, for example, using a special paging area code (PAC) in conjunction with a forbidden area, defining a location reporting threshold for a UT based on the proximity of the UT to a forbidden area, or using a default paging area code if a service restriction for a UT has ended. Connection release management includes, for example, a UT sending a request to cause the release of a Radio Connection that the UT no longer needs, or a UT sending a Location Indication (e.g., including a flag requesting release of a connection) to release the connection used for location reporting when a UT is done sending the location information and is going to go back to idle mode.

The present teachings is generally directed to systems and methods for facilitating communications with a satellite. In some embodiments, a request to communicate with a satellite may be received from a client device, and upon determining that a device identifier associated with the client device is associated with an account authorized to connect to one or more satellite ground stations, a schedule of activity for the account may be retrieved. The schedule of activity may indicate a time period that the client device is authorized to connect to the satellite ground station(s) such that data is communicated between the satellite and the client device, and the satellite ground station(s) may be configured to communicate with the satellite. At a start of the time period, a connection between the client device and the satellite ground station(s) may be generated, and via the connection, data may be provided to the client device.

The disclosure relates in some aspects to managing paging area information for a user terminal (UT) and connection signaling. In some aspects, paging area information is provided for an idle UT by defining a default paging area code (PAC) that is known by the network and the UT. In some aspects, paging area information is communicated via connection signaling. In some aspects, connection signaling may be used to force a UT to invoke an update procedure (e.g., a reconnection).

The present teachings is generally directed to systems and methods for facilitating communications with a satellite. In some embodiments, a request to communicate with a satellite may be received from a client device, and upon determining that a device identifier associated with the client device is associated with an account authorized to connect to one or more satellite ground stations, a schedule of activity for the account may be retrieved. The schedule of activity may indicate a time period that the client device is authorized to connect to the satellite ground station(s) such that data is communicated between the satellite and the client device, and the satellite ground station(s) may be configured to communicate with the satellite. At a start of the time period, a connection between the client device and the satellite ground station(s) may be generated, and via the connection, data may be provided to the client device.

The terrestrial-based satellite telephone monitoring system may be used for, among other things, intelligence gathering purposes that intercept communications to or from target satellite handsets or terminals. The exemplary signal processing units receive wireless signals and extend the line-of-sight range of a terrestrial-based satellite telephone monitoring system. The exemplary signal processing unit may be installed in or on an aerial vehicle, such as an unmanned aerial vehicle (UAV), or a satellite, such as a CubeSat, or other vehicle

Embodiments described herein provide for a satellite device that can be associated with a user account of a minor aged (e.g., child or adolescent) user that does not have a smartphone that can be used as a companion device to the satellite device. The satellite device can be configured to be used as a primary device, without reliance upon a paired smartphone. Certain information can be synchronized with the satellite device via the association with the family account. During initial configuration, a set of cryptographic keys can be generated to associate the account of the satellite device with the set of accounts in the family. The satellite device can then access calendars, media, or other data that is shared with user accounts within a family of user accounts.

A multi-tenant system is provided for coordinating spectrum allocation of a plurality of high-altitude networks (HANs) so that at least one high-altitude platform (HAP) in one of the plurality of HANs is controlled to avoid interfering with a HAP in at least one other HAN of the plurality of HANs. The multi-tenant system comprises a database including: 1) a first interface, 2) a second interface, 3) at least one service module, and 4) a data storage device. The multi-tenant system further comprises a communication controller coupled to the database, the communication controller configured to control various characteristics of HAPs in their respective HANs and links therebetween based on data maintained in the data storage device of the database. The data includes regulatory and coordination constraints provided via the first interface and non-regulatory and external coordination information provided via the second interface.

The present teachings is generally directed to systems and methods for facilitating communications with a satellite. In some embodiments, a request to communicate with a satellite may be received from a client device, and upon determining that a device identifier associated with the client device is associated with an account authorized to connect to one or more satellite ground stations, a schedule of activity for the account may be retrieved. The schedule of activity may indicate a time period that the client device is authorized to connect to the satellite ground station(s) such that data is communicated between the satellite and the client device, and the satellite ground station(s) may be configured to communicate with the satellite. At a start of the time period, a connection between the client device and the satellite ground station(s) may be generated, and via the connection, data may be provided to the client device.

A method and system for providing GTP acceleration for secure cellular backhaul over satellite (CBoS). A satellite terminal receives request from a first entity to establish a security association with a second entity, and establishes a first secure tunnel to a gateway. A second secure tunnel is then established between the gateway and the second entity based on a certificate belonging to the first entity. A third secure tunnel is established between the satellite terminal and the first entity based on a certificate belonging to the second entity. The contents of encrypted traffic between the first entity and the second entity are examined so that GTP acceleration may be applied to eligible traffic transmitted over the first secure tunnel.

Systems, methods, and apparatus for protected multi-operators payload operations are disclosed. In one or more embodiments, a disclosed method for protected multi-operators payload operations comprises transmitting, by a hosted payload (HoP) operation center (HOC), encrypted hosted commands to a host spacecraft operations center (SOC). Also, the method comprises transmitting, by the host SOC, encrypted host commands and the encrypted hosted commands to a vehicle. In addition, the method comprises reconfiguring a payload on the vehicle according to unencrypted host commands and unencrypted hosted commands. Additionally, the method comprises transmitting, by a payload antenna on the vehicle, payload data to a host receiving antenna and a hosted receiving antenna. Also, the method comprises transmitting, by a host telemetry transmitter on the vehicle, encrypted host telemetry to the host SOC. Further, the method comprises transmitting, by a hosted telemetry transmitter on the vehicle, encrypted hosted telemetry to the host SOC.