Abstract: An apparatus for managing wireless electronic communication signals, comprises a signal monitor configured to detect a wireless electronic communication signal with an original phase and a frequency within a range of frequencies; a signal analyzer configured to identify a communication protocol associated with the wireless electronic communication signal; a cancellation module configured to generate a cancellation signal; and a transmitter configured to transmit the cancellation signal throughout a cancellation area. The cancellation signal is formatted to oppose at least some information that was both carried by the wireless electronic communication signal and formatted in accordance with the communication protocol. Methods of using this apparatus are also disclosed.

Abstract: Systems and methods for self-provisioning of mobile devices in a deployable telecommunications network are disclosed. A telecommunications network may include an enhanced provisioning server for recording and maintaining user data and authentication information associating users with applications of the network, and for generating secure, transportable user credentials that carry the user data and authentication information on a per-user basis. An enhanced deployable mobile communication system may include local versions of the applications, as well as a local subscriber database and provisioning server. The enhanced deployable mobile system securely import individual user data and authentication information from a user's transportable credentials, and use the imported data to provision the user in the deployable mobile system. Multiple deployable systems may be used, each enabling individual users to self-provision.

Abstract: A system for setting up a cellular network is provided. The system includes a base station module and a core network module. The base station module has a transmitter, a receiver, and a processor configured to provide base station functions to handle transmission and reception of radio signals to and from cellular devices within the cellular network via the transmitter and receiver. The core network module has a processor configured to provide core network functions to handle cellular communication services for the cellular devices. The system has a switch connected to supply power to the base station module and the core network module from a power source. Activating the switch causes the base station functions and core network functions to be automatically and systematically started up to enable full functionality of the cellular network system. The system is sufficiently compact so that it can be carried by hand.

Abstract: A system for setting up a cellular network is provided. The system includes a base station module and a core network module. The base station module has a transmitter, a receiver, and a processor configured to provide base station functions to handle transmission and reception of radio signals to and from cellular devices within the cellular network via the transmitter and receiver. The core network module has a processor configured to provide core network functions to handle cellular communication services for the cellular devices. The system has a switch connected to supply power to the base station module and the core network module from a power source. Activating the switch causes the base station functions and core network functions to be automatically and systematically started up to enable full functionality of the cellular network system. The system is sufficiently compact so that it can be carried by hand.