Dimitropoulos, K.Köse, KıvançGrammalidis, N.Çetin, A. Enis2016-02-082016-02-0820101682-1750http://hdl.handle.net/11693/28591Beyond taking precautionary measures to avoid a forest fire, early warning and immediate response to a fire breakout are the only ways to avoid great losses and environmental and cultural heritage damages. To this end, this paper aims to present a computer vision based algorithm for wildfire detection and a 3D fire propagation estimation system. The main detection algorithm is composed of four sub-algorithms detecting (i) slow moving objects, (ii) smoke-coloured regions, (iii) rising regions, and (iv) shadow regions. After detecting a wildfire, the main focus should be the estimation of its propagation direction and speed. If the model of the vegetation and other important parameters like wind speed, slope, aspect of the ground surface, etc. are known; the propagation of fire can be estimated. This propagation can then be visualized in any 3D-GIS environment that supports KML files.EnglishCultural heritageEstimationForest fireGISMonitoringMultisensorSimulationVisualizationComputer visionDeforestationEstimationFire hazardsFire protectionFlow visualizationForestryGeographic information systemsMonitoringObject detectionRemote sensingWindCultural heritagesForest firesMulti sensorPrecautionary measuresPropagation directionSimulationSlow moving objectsVision based algorithmsFiresAlgorithmsForest FiresGISConference Paper