System and method for detecting fire location

What is claimed is: 1. A fire detection system, comprising: at least two spatially resolved fire detectors having at least a partially overlapping field of view of a protected area to generate fire cluster information for the protected area; a system controller that receives the fire cluster information from the fire detectors and pairs fire clusters detected by the at least two fire detectors and for each pair of fire clusters, the system controller validates that each fire cluster of the pair represents the same fire; and a preprocessor module for averaging the acquired fire cluster information over time prior to the validation process. 2. A fire detection system as claimed in claim 1 , wherein each fire detector comprises a two-dimensional infrared sensor array. 3. A fire detection system as claimed in claim 1 , wherein the system controller further determines a three-dimensional fire location for validated fire cluster pairs. 4. A fire detection system as claimed in claim 1 , wherein the fire cluster information comprises a fire cluster center, a fire cluster size, and an alarm status of the fire cluster. 5. A fire detection system as claimed in claim 1 , wherein the system controller validates fire cluster pairs based on the geometry of the placement of the fire detectors when two fires may arise along the same line of sight for one of the fire detectors. 6. A fire detection system as claimed in claim 1 , wherein the system controller validates fire cluster pairs based on regions of interest for each of the at least two fire detectors by validating fire cluster pairs when they occur in matching regions of interest for the at least two fire detectors. 7. A fire detection system as claimed in claim 1 , wherein the system controller validates fire cluster pairs derived from the at least two fire detectors by reference to fire cluster information from additional fire detectors. 8. A fire detection system as claimed in claim 1 , wherein the system controller validates fire cluster pairs based on time cluster detection epochs by determining whether a time interval between the detection of the fire clusters by the at least two fire detectors is less than a threshold value. 9. A fire detection system as claimed in claim 1 , wherein the preprocessor module averages the acquired fire cluster information over time by receiving 2D fire cluster information for each fire detector and averaging current fire cluster center data for each of the fire clusters with previous fire cluster center data for the same fire clusters. 10. A fire detection system as claimed in claim 1 , wherein the preprocessor module further averages fire location data over configurable time windows in order to reduce the effects of wind-induced noise in the cluster center information. 11. A fire detection method, comprising: generating fire cluster information with at least two spatially resolved fire detectors having at least a partially overlapping field of view of a protected area; receiving the fire cluster information from the fire detectors and pairing fire clusters detected by the at least two fire detectors; and for each pair of fire clusters, validating that each fire cluster of the pair represents the same fire: and averaging the acquired fire cluster information over time prior to the validation. 12. A fire detection method as claimed in claim 11 , wherein each fire detector comprises a two-dimensional infrared sensor array. 13. A fire detection method as claimed in claim 11 , further comprising determining a three-dimensional fire location for validated fire cluster pairs. 14. A fire detection method as claimed in claim 11 , wherein the fire cluster information comprises a fire cluster center, a fire cluster size, and an alarm status of the fire cluster. 15. A fire detection method as claimed in claim 11 , wherein validating the fire cluster pairs comprises determining a geometry of the placement of the fire detectors and accounting when two fires may arise along the same line of sight for one of the fire detectors. 16. A fire detection method as claimed in claim 11 , wherein validating the fire cluster pairs comprises validating fire cluster pairs based on regions of interest for each of the at least two fire detectors by validating fire cluster pairs when they occur in matching regions of interest for the at least two fire detectors. 17. A fire detection method as claimed in claim 11 , wherein validating the fire cluster pairs comprises validating fire cluster pairs derived from the at least two fire detectors by reference to fire cluster information from additional fire detectors. 18. A fire detection method as claimed in claim 11 , wherein validating the fire cluster pairs comprises validating fire cluster pairs based on time cluster detection epochs by determining whether a time interval between the detection of the fire clusters by the at least two fire detectors is less than a threshold value. 19. A fire detection method as claimed in claim 11 , further comprising receiving 2D fire cluster information for each fire detector, averaging current fire cluster center data for each of the fire clusters with previous fire cluster center data for the same fire clusters, and averaging fire location data over configurable time windows in order to reduce the effects of wind-induced noise in the cluster center information. 20. A fire detection method, comprising: generating fire cluster information with at least two spatially resolved fire detectors having at least a partially overlapping field of view of a protected area; receiving the fire cluster information from the fire detectors and pairing fire clusters detected by the at least two fire detectors, wherein the fire cluster information comprises a fire cluster center, a fire cluster size, and an alarm status of the fire cluster; for each pair of fire clusters, validating that each fire cluster of the pair represents the same fire by validating fire cluster pairs based on regions of interest for each of the at least two fire detectors by validating fire cluster pairs when they occur in matching regions of interest for the at least two fire detectors; determining a three-dimensional fire location for validated fire cluster pairs.