Node migration

That which is claimed is: 1. A method, comprising the steps of: periodically sending an Advanced Meter Reading (AMR) beacon from a node at a first regular time interval, the AMR beacon containing a register identification (ID) and a reading detected by the node; periodically listening, at the node, for a hail message such that instances of listening occur at a second regular time interval smaller than the first regular time interval; receiving the hail message at the node; processing the hail message at the node; and suspending the step of periodically sending an AMR beacon from the node. 2. The method of claim 1 , wherein the hail message includes a preamble; and wherein the step of processing the hail message comprises performing, at the node, a channel activity detection (CAD) to determine whether a channel on which the hail message is transmitted contains radio frequency (RF) energy that matches a preamble transmission profile of the node. 3. The method of claim 2 , further comprising the steps of: reaching a determination that the CAD was unsuccessful; and responsive to the determination that the CAD was unsuccessful, resuming the step of periodically sending an AMR beacon from the node and repeating the step of periodically listening, at the node, for a hail message. 4. The method of claim 2 , wherein the channel on which the hail message is transmitted is a non-Frequency-Hopping Spread Spectrum (non-FHSS) channel; wherein the hail message identifies a Frequency-Hopping Spread Spectrum (FHSS) channel to which the node should hop following a successful CAD; and wherein responsive to a successful CAD, the method further comprises the step of hopping to the FHSS channel identified in the hail message. 5. The method of claim 4 , further comprising the step of determining, at the node, whether stable two-way FHSS communication with a hailing device has begun. 6. The method of claim 5 , further comprising the steps of: responsive to a determination that stable two-way FHSS communication with the hailing device has not begun, resuming the step of periodically sending an AMR beacon from the node and repeating the step of periodically listening, at the node, for a hail message; and responsive to a determination that stable two-way FHSS communication with the hailing device has begun, receiving a mobile command at the node. 7. The method of claim 6 , further comprising the step of executing the mobile command by performing an action selected from a group consisting of performing a task, sending a reply communication, and both performing a task and sending a reply communication. 8. The method of claim 1 , further comprising: receiving at the node a Network System Status Request (NSSR) from a stationary transceiver; and sending an ID communication from the node in response to the NSSR, the ID communication containing a node ID and the register ID. 9. The method of claim 8 , further comprising receiving a parent assignment command, the parent assignment command causing the node to transition to an Advanced Metering Infrastructure mode. 10. The method of claim 9 , further comprising the step of, responsive to receipt of the parent assignment command, halting the step of periodically sending an Advanced Meter Reading (AMR) beacon from a node. 11. A node, comprising: a processor; and logic processed by the processor to periodically send an Advanced Meter Reading (AMR) beacon from a node at a first regular time interval, the AMR beacon containing a register identification (ID) and a reading detected by the node, periodically listen for a hail message such that instances of listening occur at a second regular time interval smaller than the first regular time interval, receive the hail message at the node, process the hail message at the node, and suspend the step of periodically sending an AMR beacon from the node. 12. The node of claim 11 , wherein the logic is further processed by the processor to perform a channel activity detection (CAD) to determine whether a channel on which the hail message is transmitted contains radio frequency (RF) energy that matches a preamble transmission profile of the node. 13. The node of claim 12 , wherein the logic is further processed by the processor to reach a determination that the CAD was unsuccessful; and responsive to the determination that the CAD was unsuccessful, resume the step of periodically sending an AMR beacon from the node and repeat the step of periodically listening, at the node, for a hail message. 14. The node of claim 12 , wherein the channel on which the hail message is transmitted is a non-Frequency-Hopping Spread Spectrum (non-FHSS) channel; wherein the hail message identifies a Frequency-Hopping Spread Spectrum (FHSS) channel to which the node should hop following a successful CAD; and wherein the logic is further processed by the processor to, responsive to a successful CAD, hop to the FHSS channel identified in the hail message. 15. The node of claim 14 , wherein the logic is further processed by the processor to determine whether stable two-way FHSS communication with a hailing device has begun. 16. The node of claim 15 , wherein the logic is further processed by the processor to: responsive to a determination that stable two-way FHSS communication with the hailing device has not begun, resume periodically sending an AMR beacon from the node and again periodically listen for a hail message; and responsive to a determination that stable two-way FHSS communication with the hailing device has begun, receive a mobile command at the node. 17. The node of claim 16 , wherein the node is further processed by the processor to: receive a parent assignment command; and transition to an Advanced Metering Infrastructure mode in response to receipt of the parent assignment command.