Geo-object matching is a process that identifies, classifies and matches the object pairs with regards to their maximum similarity in whole datasets. The matching process is used to handle updating, aligning, optimizing, integrating and/or quality measuring of road networks. There are several metrics used in matching algorithms such as Hausdorff distance, orientation, valence, sinuosity etc. Sinuosity is a ratio of actual length of a road to the straight length among start and end points of the same road. Sinuosity defines how curve a road is. In a matching process, it is necessary to determine the sinuosity thresholds or intervals firstly. Sinuosity intervals can be determined by several data classification methods such as equal interval, quantile, natural breaks and geometrical interval. Furthermore, the intervals determined by Ireland Transportation Agency can be used in parallel with this purpose. In this study, it was aimed to find out if the variance can be used in determination of sinuosity intervals as well. An experiment was conducted to compare all of the methods mentioned above. According to the results, the efficiency of the sinuosity intervals determined by the methods in road matching differs from 37.4% to 49.4%, and it seems that the intervals determined by the variance are the most efficient ones.

Variance Sinuosity Intervals Road Matching Data Integration

Hacar, M. and Gökgöz, T., 2016. An Experiment On Distance Metrics Used For Road Matching In Data Integration. Sigma Journal of Engineering and Natural Sciences, 34(4), 527-542.

Haynes, R., Jones, A., Kennedy, V., Harvey, I. and Jewell, T.,

District variations in road curvature in England and Wales and their association with road-traffic crashes. Environment and

Planning A, 39(5), 1222-1237.

Li, L. and Goodchild, M.F., 2011. “An Optimisation Model for Linear Feature Matching in Geographical Data Conflation”, International Journal of Image and Data Fusion, 2(4), 309-328.

Mueller, J. E., 1968. An introduction to the hydraulic and topographic sinuosity indexes 1. Annals of the Association of American Geographers, 58(2), 371-385.

Mustière, S. and Devogele, T., 2008. Matching networks with different levels of detail. GeoInformatica, 12(4), 435-453.

Olteanu-Raimond, A. M., Mustiere, S. and Ruas, A., 2015. Knowledge formalization for vector data matching using belief theory. Journal of Spatial Information Science, 2015(10), 21-46.

Transport Infrastructure, 2016. National Road Network Sinuosity Index: Ireland. https://data.gov.ie/dataset/national-road-network- sinuosity-index (Accessed on 1 September 2018).

Zhang, M. and Meng, L., 2007. An iterative road-matching approach for the integration of postal data. Computers, Environment and Urban Systems, 31(5), 597-615.