1. An apparatus comprising of: an interval timer; a power control; a Short Message Service (SMS) packetizer; a geo-locator; a radio frequency (RF) communicator; a controller and a memory, with the memory comprising instructions for the controller to operate the interval timer cooperatively with the power control to cause a transition of the geo-locator from a sleep state to a wake state after a preset defined time interval, and to operate the geo-locator to receive signal strength levels and corresponding cell IDs from a plurality of cellular base stations, and to operate the SMS packetizer to package the signal strength levels and the corresponding cell IDs into a first outgoing SMS message, and to communicate the first outgoing SMS message to a preset address using the RF communicator.
2.The apparatus of claim 1, is further comprising of: a subscriber identity module (SIM); and the memory further comprising instructions to block visibility to the SIM by the geo-locator for a limited duration after the transition of the geo-locator from the sleep state to the wake state after the defined time interval.
3.The apparatus of claim 2, further comprising: the memory further comprising instructions to override a preset floor on the signal strength levels during the limited duration after the transition of the geo-locator from the sleep state to the wake state after the defined time interval.
4.The apparatus of claim 1, further comprising: the memory further comprising instructions to operate the SMS packetizer to package the signal strength levels with the corresponding cell IDs.
5.The apparatus of claim 1, further comprising: the memory further comprising instructions to receive a command SMS message via the RF communicator; a parser to extract a time interval command from the received command SMS message; and the memory further comprising instructions to apply the time interval command to the interval timer to set the defined time interval.
6. The apparatus of claim 1, further comprising: the memory further comprising instructions to receive a response SMS message via the RF communicator, the response SMS message being a response to the first outgoing SMS message; a parser to extract geo-locations for cell IDs from the response SMS message; and the memory further comprising instructions to associate the geo-locations for each of the cell IDs from the response message with corresponding cell IDs in the memory.
7. A method comprising of: applying an interval timer to a power control to control power for a subscriber identify module (SIM), a SMS packetizer, a geo-locator, and a radio frequency (RF) communicator after a preset defined time interval; operating the interval timer cooperatively with the power control to cause a transition of the geo-locator from a sleep state to a wake state after the defined time interval; operating the geo-locator to receive signal strength levels and corresponding cell ids from a plurality of cellular base stations; operating the SMS packetizer to package the signal strength levels and the corresponding cell IDs into an outgoing SMS message; and communicating the outgoing SMS message to a preset address using the RF communicator.
8. The method of claim 7, further comprising: blocking visibility to the SIM by the geo-locator for a limited duration after the transition.
9. The method of claim 8, further comprising: overriding a preset floor on the signal strength levels during the limited duration after the transition.
10. The method of claim 7, further comprising: receiving a command SMS message via the RF communicator; extracting a time interval command from the command SMS message; and applying the time interval command to the interval timer to set the defined time interval.
11. The method of claim 7, further comprising: receiving a response SMS message via the RF communicator in response to the outgoing SMS message; extracting geo-locations for cell IDs from the response SMS message; and associating the geo-locations for each of the cell ids from the response SMS message with corresponding cell IDs in a memory.
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We have a vision for a simple, smart, connected world. We empower that vision through our self-contained, fully integrated, Mobile IoT modules. Our modules are designed with a small plug and play form factor for easy attachment of antenna, battery, and sensors. Combined with low-cost connectivity,
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