System and method for dynamically adjusting an emergency coordination simulation system

The invention claimed is: 1. A method of dynamically adjusting an emergency coordination simulation system, comprising: performing an emergency coordination simulation for a subarea of a geographic region based on expected user behavior in the subarea and environmental variables of the subarea; transmitting an emergency notice to a plurality of users in the subarea based on the emergency coordination simulation; receiving a plurality of citizen sensor reports from the users via citizen sensor monitoring devices, wherein the citizen sensor monitoring devices communicate with a backend system and form a citizen sensor platform, wherein each citizen sensor report comprises first data manually entered by one of the users and second data automatically detected by the citizen sensor monitoring device used by the one of the users; performing a consistency check on the plurality of citizen sensor reports by comparing the citizen sensor reports with one another, wherein the consistency check comprises comparing citizen reports of the plurality of citizen reports for consistency with real-world observations, and Wherein the comparing citizen reports of the plurality of citizen reports for consistency with real-world observations includes receiving feedback from users of the plurality of users regarding consistency between the emergency notice and real-world observations; filtering the plurality of citizen sensor reports to remove outliers based on the consistency checks, and to remove citizen sensor reports that are inconsistent with real-world observations, wherein filtering the plurality of citizen sensor reports is further based on area-specific and time-related information; performing an emergency coordination resimulation for the subarea based on the expected user behavior in the subarea, the environmental variables of the subarea, and the filtered plurality of citizen sensor reports; and transmitting an updated emergency notice to the plurality of users based on the emergency coordination resimulation. 2. The method of claim 1 , wherein the second data comprises location data detected by a Global Positioning System (GPS) radio disposed in the citizen sensor monitoring device used by the one of the users. 3. The method of claim 1 , wherein the second data comprises a tuple, and the tuple comprises: a latitude value detected by the corresponding citizen sensor monitoring device and indicating a latitude of the corresponding citizen sensor monitoring device; a longitude value detected by the corresponding citizen sensor monitoring device and indicating a longitude of the corresponding citizen sensor monitoring device; an altitude value detected by the corresponding citizen sensor monitoring device and indicating an altitude of the corresponding citizen sensor monitoring device; a report type value indicating a type of the corresponding citizen sensor report; a priority value indicating a calculated priority of the corresponding citizen sensor report; and a reputation value indicating a calculated reputation of the corresponding citizen sensor report. 4. The method of claim 1 , Wherein the emergency notice and the updated emergency notice each comprise at least one of a description of an emergency in the subarea and a recommended course of action responsive to the emergency in the subarea. 5. The method of claim 1 , further comprising: storing the citizen sensor reports in a database at the backend system; and indexing the citizen sensor reports. 6. The method of claim 1 , wherein the citizen sensor monitoring devices are smartphones. 7. The method of claim 1 , further comprising: performing additional emergency coordination simulations for neighboring subareas that neighbor the subarea of the geographic region; modifying the updated emergency notice based on the additional emergency coordination simulations; and transmitting the modified updated emergency notice to the plurality of users. 8. An emergency coordination simulation system, comprising: a memory storing a computer program; and a processor configured to execute the computer program, wherein the computer program is configured to: perform an emergency coordination simulation for a subarea of a geographic region based on expected user behavior in the subarea and environmental variables of the subarea; transmit an emergency notice to a plurality of users in the subarea based on the emergency coordination simulation; receive a plurality of citizen sensor reports from the users via citizen sensor monitoring devices, wherein the citizen sensor monitoring devices communicate with the emergency coordination simulation system and form a citizen sensor platform, wherein each citizen sensor report comprises first data manually entered by one of the users and second data automatically detected by the citizen sensor monitoring device used by the one of the users; perform a consistency check on the plurality of citizen sensor reports by comparing the citizen sensor reports with one another, wherein the consistency check comprises comparing citizen reports of the plurality of citizen reports for consistency with real-world observations, and wherein the comparing citizen reports of the plurality of citizen reports for consistency with real-world observations includes receiving feedback from users of the plurality of users regarding consistency between the emergency notice and real-world observations; filter the plurality of citizen sensor reports to remove outliers based on the consistency check, and to remove citizen sensor reports that are inconsistent with real-world observations, wherein filtering the plurality of citizen sensor reports is further based on area-specific and time-related information; perform an emergency coordination resimulation for the subarea based on the expected user behavior in the subarea, the environmental variables of the subarea, and the filtered plurality of citizen sensor reports; and transmit an updated emergency notice to the plurality of users based on the emergency coordination resimulation. 9. The emergency coordination simulation system of claim 8 , wherein the second data comprises location data detected by a Global Positioning System (GPS) radio disposed in the citizen sensor monitoring device used by the one of the users. 10. The emergency coordination simulation system of claim 8 , wherein the second data comprises a tuple, and the tuple comprises: a latitude value detected by the corresponding citizen sensor monitoring device and indicating a latitude of the corresponding citizen sensor monitoring device; a longitude value detected by the corresponding citizen sensor monitoring device and indicating a longitude of the corresponding citizen sensor monitoring device; an altitude value detected by the corresponding citizen sensor monitoring device and indicating an altitude of the corresponding citizen sensor monitoring device; a report type value indicating a type of the corresponding citizen sensor report; a priority value indicating a calculated priority of the corresponding citizen sensor report; and a reputation value indicating a calculated reputation of the corresponding citizen sensor report. 11. The emergency coordination simulation system of claim 8 , wherein the emergency notice and the updated emergency notice each comprise at least one of a description of an emergency in the subarea and a recommended course of action responsive to the emergency in the subarea. 12. The emergency coordination simulation system of claim 8 , further comprising: a database, wherein the processor is further configured to store and index the citizen sensor reports i