Synchronization of notification patterns in alerting systems

We claim: 1. A method for synchronizing a non-symmetrical tonal pattern in a wireless alerting system, comprising: concurrently receiving at a plurality of alerting devices a beacon message that is wirelessly broadcast by a parent device of the alerting devices during each of a plurality of time slots defined by a communication protocol; synchronously generating at each of the plurality of alerting devices a synchronization pulse signal comprised of a plurality of synchronization pulses which are periodic in accordance with a predetermined synchronization pulse interval; receiving as part of the beacon message a cadence section indicator (CSI) specifying a value indicating a portion of each alarm cadence of a plurality of different alarm cadences that the plurality of alerting devices is able to reproduce; and using the value specified by the CSI in combination with the synchronization pulse signal to determine a portion of an alarm cadence of the plurality of different alarm cadences to sound at each of the plurality of alerting devices so that the alarm cadence is synchronized among the plurality of the alerting devices. 2. The method according to claim 1 , wherein the alarm cadence is a non-symmetrical tonal pattern extending for a duration of time that exceeds the duration of the predetermined synchronization pulse interval. 3. The method according to claim 1 , further comprising specifying in the beacon message one of the plurality of different alarm cadences, each having a non-symmetrical tonal pattern. 4. A method for synchronizing a non-symmetrical tonal pattern in a wireless alerting system, comprising: concurrently receiving at a plurality of alerting devices a beacon message that is wirelessly broadcast by a parent device of the alerting devices during each of a plurality of time slots defined by a communication protocol; synchronously generating at each of the plurality of alerting devices a synchronization pulse signal comprised of a plurality of synchronization pulses which are periodic in accordance with a predetermined synchronization pulse interval; receiving as part of the beacon message a cadence section indicator (CSI) specifying a value; using the value specified by the CSI in combination with the synchronization pulse signal to determine a portion of an alarm cadence to sound at each of the alerting device so that the alarm cadence is synchronized among the plurality of the alerting devices; specifying in the beacon message one of a plurality of different alarm cadences, each having a non-symmetrical tonal pattern; and selecting a range of the CSI to specify the portion of the alarm cadence for each of the plurality of different alarm cadences. 5. The method according to claim 4 , further comprising selecting a range of the CSI value to comprise an integer multiple of the number of cadence parts in each of the plurality of different alarm cadences. 6. The method according to claim 1 , further comprising deriving a synchronous timing of the plurality of synchronization pulses at each of the plurality of alerting devices based on information contained in the beacon message. 7. The method according to claim 6 , further comprising deriving the synchronous timing from a slot count information contained in the beacon message, where the slot count information specifies one of a plurality of predetermined time slots which are defined as part of the communication protocol. 8. The method according to claim 5 , further comprising deriving the synchronous timing from a known data structure of each of said plurality of time slots. 9. The method according to claim 1 , further comprising using a notification unit at each of the plurality of alerting devices to synchronously sound the alarm cadence at each of the plurality of the alerting devices. 10. A wireless alerting device, comprising: a wireless receiver configured to receive a beacon message that is wirelessly broadcast by a parent device during each of a plurality of time slots defined by a communication protocol; a processing device configured to synchronously generate a synchronization pulse signal comprised of a plurality of synchronization pulses which are periodic in accordance with a predetermined synchronization pulse interval; parse the beacon message to determine a cadence section indicator (CSI) contained therein specifying a value indicating a portion of each alarm cadence of a plurality of different alarm cadences that a plurality of alerting devices is able to reproduce; and use the value specified by the CSI in combination with the synchronization pulse signal to determine a portion of an alarm cadence of the plurality of different alarm cadences to sound at the wireless alerting device so that the alarm cadence is synchronized with an alarm cadence sounded in at least a second alerting devices which also receives the beacon message. 11. The wireless alerting device according to claim 10 , wherein the alarm cadence is a non-symmetrical tonal pattern extending for a duration of time that exceeds the duration of the predetermined synchronization pulse interval. 12. The wireless alerting device according to claim 10 , wherein the beacon message specifies one of the plurality of different alarm cadences, each having a non-symmetrical tonal pattern. 13. A wireless alerting device, comprising: a wireless receiver configured to receive a beacon message that is wirelessly broadcast by a parent device during each of a plurality of time slots defined by a communication protocol; a processing device configured to synchronously generate a synchronization pulse signal comprised of a plurality of synchronization pulses which are periodic in accordance with a predetermined synchronization pulse interval; parse the beacon message to determine a cadence section indicator (CSI) contained therein specifying a value; and use the value specified by the CSI in combination with the synchronization pulse signal to determine a portion of an alarm cadence to sound at the wireless alerting device so that the alarm cadence is synchronized with an alarm cadence sounded in at least a second alerting devices which also receives the beacon message; wherein the beacon message specifies one of a plurality of different alarm cadences, each having a non-symmetrical tonal pattern; and wherein the CSI has a predetermined value range to specify the portion of the alarm cadence for each of the plurality of different alarm cadences. 14. The wireless alerting device according to claim 13 , wherein the CSI has a predetermined value range comprised of an integer multiple of the number of cadence parts in each of the plurality of different alarm cadences. 15. The wireless alerting device according to claim 10 , wherein the processing device is further configured to derive a synchronous timing of the plurality of synchronization pulses at each of the plurality of alerting devices based on information contained in the beacon message. 16. The wireless alerting device according to claim 15 , wherein the processing device is further configured to derive the synchronous timing from a slot count information contained in the beacon message, where the slot count information specifies one of a plurality of predetermined time slots which are defined as part of the communication protocol. 17. The wireless alerting device according to claim 14 , wherein the processing device is further configured to derive the synchronous timing from a known data structure of each of said plurality of time slots. 18. The wireless alerti