%0 Journal Article %T A Photogrammetric Approach for Assessing Positional Accuracy of OpenStreetMap£¿ Roads %A Roberto Canavosio-Zuzelski %A Peggy Agouris %A Peter Doucette %J ISPRS International Journal of Geo-Information %D 2013 %I MDPI AG %R 10.3390/ijgi2020276 %X As open source volunteered geographic information continues to gain popularity, the user community and data contributions are expected to grow, e.g., CloudMade, Apple, and Ushahidi now provide OpenStreetMap £¿ (OSM) as a base layer for some of their mapping applications. This, coupled with the lack of cartographic standards and the expectation to one day be able to use this vector data for more geopositionally sensitive applications, like GPS navigation, leaves potential users and researchers to question the accuracy of the database. This research takes a photogrammetric approach to determining the positional accuracy of OSM road features using stereo imagery and a vector adjustment model. The method applies rigorous analytical measurement principles to compute accurate real world geolocations of OSM road vectors. The proposed approach was tested on several urban gridded city streets from the OSM database with the results showing that the post adjusted shape points improved positionally by 86%. Furthermore, the vector adjustment was able to recover 95% of the actual positional displacement present in the database. To demonstrate a practical application, a head-to-head positional accuracy assessment between OSM, the USGS National Map (TNM), and United States Census Bureau¡¯s Topologically Integrated Geographic Encoding Referencing (TIGER) 2007 roads was conducted. %K OpenStreetMap (OSM) %K positional accuracy %K vector %K roads %K adjustment %U http://www.mdpi.com/2220-9964/2/2/276