WEBGIS PLATFORM FOR DETECTING SPATIO-TEMPORAL HOTSPOTS OF OTO-LARYNGO-PHARYNGEAL DISEASES

This paper is a natural prosecution of two previous works. We present a web geospatial framework for analyzing and monitoring the spatio-temporal evolution of disease hotspots; for detecting the hotspots we adopt Extended Fuzzy C-Means method; this method has been adapted for detecting spatial areas with high concentrations of events in a Geographic Information System and tested to study the spatial and temporal evolution of hotspot areas. Each event is given by the geo-positional coordinates of the place of residence of the patient. The analyst can insert event data directly on the map or digitize the address of the residence of the patient and by using geo-coding services for localizing the event. The events can be grouped for time intervals for studying the temporal evolution of the phenomenon. Other services allow the analyst to study the spatio-temporal evolution of the hotspot areas. In our experiments, the data consist of geo-referenced patterns corresponding to the residence of patients in the district of Naples (Italy) to whom a surgical intervention to the oto-laryngo-pharyngeal apparatus was carried out between the years 2008 ÷2012. The results show the presence of two major hotspots for every type of oto-laryngo-pharyngeal diseases, the former covering a geographical area that affects the city of Naples, the latter covering various towns around Vesuvius; both hotspots are significantly increased in recent years.