Enhanced emergency detection system

What is claimed is: 1. A system for detecting dangerous conditions in a structure and determining one or more evacuation routes for occupants of the structure, the system comprising: a sensory node, the sensory node comprising: a sensor; a power source; a transceiver; a processor in electrical communication with the power source; and a memory, the memory comprising instructions which cause the processor to: receive a condition value from the sensor; transmit, using the transceiver, a digital signal, the digital signal comprising a trailing edge; transmit after the trailing edge of the digital signal, using the transceiver, an analog signal representing the condition value; transmit a sensory node identifier; a decision node, the decision node comprising: a power source; a transceiver; a processor in electrical connection with the power source; and a memory, the memory comprising instructions which cause the processor to: receive from the sensory node, a first signal and in response to the first signal, sending a signal to the sensory node that changes a behavior of the sensory node, the first signal comprising a digital component and an analog component, the analog component located after a trailing edge of the digital signal; identify a first hazardous condition from a trend identified using the analog signal component and previously received analog signal components from the sensory node; using the sensory node identifier, identify the location of the sensory node from which the first signal was received; receive occupancy data from the sensory node; determine an occupancy level in the vicinity of the sensory node; determine a first evacuation route from the location of the sensory node to an exit from the structure wherein the first evacuation route is determined from the layout of the structure and at least partially using the occupancy level; and determine a second evacuation route from the location of the sensory node to an exit from the structure if the first evacuation route cannot accommodate a number of occupants identified by the occupancy level. 2. The system of claim 1 , wherein the memory of the decision node further comprises software instructions which cause the processor to: determine a magnitude of the hazardous condition using the identified trend and the analog signal component; and further determine the first and second evacuation routes based upon the magnitude of the hazardous condition. 3. The system of claim 1 , further comprising: a second sensory node; the memory of the decision node further comprises software instructions that cause the processor to: receive from the second sensory node, a second signal comprising a digital component and an analog component, the analog component located after a trailing edge of the digital signal; receive from the second sensory node, a second sensory node identifier; identify a second hazardous condition from a trend identified using the analog component and previously received analog components from the second sensory node; and using the second sensory node identifier, identify the location of the second sensory node; and wherein the evacuation route is comprised of a plurality of evacuation route portions, the portions determined based on the layout of the structure and locations of the sensory node and the second sensory node, the selection of one of the plurality of evacuation route portions is determined based on the location of the second hazardous condition. 4. The system of claim 3 , wherein the selection of one of the plurality of route portions is determined by the decision node based on the location of the second hazardous condition. 5. The system of claim 3 , further comprising a second decision node and wherein at least one evacuation route portion is determined by the second decision node. 6. The system of claim 1 , wherein the occupancy level is determined directly from occupancy data. 7. The system of claim 1 , wherein the occupancy level is estimated using historic occupancy data and a time at which the hazardous condition is detected. 8. The system of claim 1 , where the change in behavior of the sensory node is a change in a listening schedule. 9. A method of detecting a dangerous condition in a structure and determining one or more evacuation routes for occupants of the structure, comprising: receiving a first signal from a first sensory; receiving from the first sensory node, the first signal, the first signal comprising a digital component and an analog component, the analog component located after a trailing edge of the digital signal, sending a control signal to the sensory node in response to the first signal that changes a behavior of the sensory node; transmitting by the first sensory node, a sensory node identifier identifying a location of the condition sensor; receiving by a first processor, the first signal, the analog component representing condition data; identifying by the first processor, a hazardous condition using the analog component and previously received analog components from the first sensory node; receiving by the first processor, the sensor identifier and identifying the location of the hazardous condition based on the location of the first sensory node; receiving by the first processor, occupancy data from the first sensory node; determining an occupancy level at the location of the first sensory node; determining a first evacuation route from the location of the first sensory node to an exit from the structure wherein the first evacuation route is determined at least partially based on the occupancy level; and determining a second evacuation route from the location of the first sensory node to an exit from the structure if the first evacuation route cannot accommodate the occupancy level. 10. The method of claim 9 , further comprising: determining a magnitude of the hazardous condition from the analog component; and further determining the first and second evacuation routes based upon the magnitude of the hazardous condition. 11. The method of claim 9 , comprising: receiving a signal from a second sensory node comprising a second analog component; identifying a second hazardous condition from the second analog component; identifying the location of the second sensory node from which the analog signal was received; and determining a plurality of evacuation route portions based on the layout of the structure and locations of the first sensory node and the second sensory node, the selection of one of the plurality of route portions is determined by the first processor based on the location of the second hazardous condition. 12. The method of claim 11 , wherein the selection of one of the plurality of evacuation route portions is further determined based on the occupancy level. 13. The method of claim 9 , wherein the occupancy level is determined directly from occupancy data. 14. The method of claim 9 , wherein the occupancy level is estimated using historic occupancy data and a time at which the hazardous condition is detected. 15. The method of claim 9 , wherein the sensory node receives the control signal which causes the sensory node to change a listening schedule. 16. A method of detecting dangerous conditions in a structure and determining one or more evacuation routes for occupants of the structure, comprising: receiving a condition value from a first condition sensor located at a sensory node; transmitting by the sensory node, a digital signal, the digital signal comprising a trailing edge; transmitting by