Brzina slobodnog toka se kao parametar koristi u modelima transportnog planiranja, modelima analize kapaciteta cestovnih prometnica kao i u izradi dijagrama brzina-tok. Značajan broj razvijenih modela ne koristi procedure za procjenu brzine slobodnog toka već predlaže da se brzina slobodnog toka procijeni usporedbom sa zabilježenim brzinama slobodnog toka na sličnim već izgrađenim prometnicama što predstavlja značajan problem, a naročito na području Bosne i Hercegovine. U ovom radu se u prvom dijelu analiziraju problemi upotrebe postojećih modela u uvjetima prometa i prometnica u B&H, a u drugom se prikazuje model za procjenu brzine slobodnog toka razvijen na temelju opsežnog terenskog istraživanja provedenog na 9 homogenih dionica državnih i regionalnih cesta.
Highway Capacity Manual 2010 (HCM 2010). TRB. National Research Council. Washington D.C.; 2010.
Handbuch für die Bemessung von Straßenverkehrsanlagen (HBS) (German Highway Capacity Manual). Forschungsgesellschaft für Straßen- und Verkehrswesen. Köln; 2005.
Traffic Assignment Manual. Bureau of Public Roads. Urban Planning Division. US Department of Commerce. Washington D.C.; 1964.
Modeling Operating Speed. TRB. Washington D.C.; 2011.
Lamm R, Choueiri EM. Recommendations for Evaluating Horizontal Alignment Design Consistency Based on Investigations in the State of New York. Transportation Research Record 1987;1122:68–78.
Morrall J, Talarico RJ. Side Friction Demand and Margins of Safety on Horizontal Curves. Transportation Research Record 1995;1435:145–152.
Gibreel GM, Easa SM, Hassan Y, El-Dimeery IA. State of the Art of Highway Geometric Design Consistency. Journal of Transportation Engineering. 1999;125:305-313.
Krammes RA et al. Horizontal alignement design consistency for rural two- lane highways. Report no. FHWA-RD-94-034. FHWA. Washington D.C.; 1995.
Fitzpatrick et al. Speed Prediction for Two-Lane Rural Highways. Report FHWA-RD-99-171. U.S. Department of Transportation; 2000.
Figueroa AM, Tarko AP. Speed Factors on Two-Lane Rural Highways in Free-Flow Conditions. Transportation Research Record. 2005;1912:46-49.
Misaghi P, Hassan Y. Modeling Operating Speed and Speed Differential on Two-Lane Rural Roads. Journal of Transportation Engineering. 2005;131:408-417.
Cafiso S, Di Graziano A, Di Silvestro G, La Cava G. Safety Performance Indicators for Local Rural Roads: A Comprehensive Procedure from Low-Cost Data Survey to Accident Prediction Model. presented at the 87th Annual Meeting of the Transportation Research Board. Washington D.C.; 2008.
Marchionna A, Perco P. Operating Speed Profile Prediction Model for Two-Lane Rural Roads in the Italian Context. Journal Advances in Transportation Studies. 2008;XIV.
Esposito T, Mauro R, Russo F, Dell’Acqua G. Operating speed prediction models for sustainable road safety management. ICSDC 2011 Integrating Sustainability Practices in the Construction Industry - Proceedings of the International Conference on Sustainable Design and Construction 2011;712-721.
De Luca M, Dell’Acqua G. Freeway safety management: case studies in Italy. TRANSPORT. 2012;27:320-326. doi: 10.3846/16484142.2012.724447
Cvitanić D, Vukoje B, Breški D. Metode za osiguranje konzistencije toka trase. Građevinar. 2012;5(64):385-393
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