Geometrical and Functional Criteria as a Methodological Approach to Implement a New Cycle Path in an Existing Urban Road Network: A Case Study in Rome

Most road accidents occur in urban areas and notably at urban intersections, where cyclists and motorcyclists are the most vulnerable. In the last few years, cycling mobility has been growing; therefore, bike infrastructures should be designed to encourage this type of mobility and reduce motorized and/or private transport. The paper presents a study to implement a new cycle path in the existing cycle and road network in Rome, Italy. The geometric design of the new path complies with Italian standards regarding the technical characteristics of bicycle paths, while the Highway Capacity Manual has been considered for the traffic analysis. In particular, a before-after approach has been adopted to examine and compare the traffic flow at more complex and congested intersections where the cycle path will pass. Trams, buses, cars, bikes and pedestrians were the traffic components considered in each analysis. The software package PTV VISSIM 8 allowed the simulations of traffic flows at traffic-light intersections; an original linear process has been proposed to model dynamic intelligent traffic controls, which are not admitted by the software used. The traffic analysis allowed the identification of the best option for each of the five examined intersections. Particularly, the maximum queue length value and the total number of passed vehicles have been considered in order to optimize the transport planning process. The results of this study highlight the importance of providing engineered solutions when a cycle path is implemented in a complex road network, in order to avoid negative impacts on the citizens and maximize the expected advantages.

[1]  Romanika Okraszewska,et al.  Growing role of walking and cycling and the associated risks , 2017 .

[2]  Rob van Nes,et al.  A Simple Representation of a Complex Urban Transport System Based on the Analysis of Transport Demand: The Case of Region Ile-de-France , 2012 .

[3]  Liu Yu,et al.  Calibration of Vissim for Bus Rapid Transit Systems in Beijing Using GPS Data , 2006 .

[4]  Giuseppe Loprencipe,et al.  Sustainable Pavement Management System in Urban Areas Considering the Vehicle Operating Costs , 2017 .

[5]  Fabrizio Finucci,et al.  Urban Green Infrastructures and Social Shared Choices: A Deliberative Valuation Method , 2014 .

[6]  Thomas Panagopoulos,et al.  Cycling as a Smart and Green Mode of Transport in Small Touristic Cities , 2018 .

[7]  Klotildi Saliara,et al.  Public Transport Integration: The Case Study of Thessaloniki, Greece☆ , 2014 .

[8]  Audrey de Nazelle,et al.  Cycling in Warsaw, Poland – Perceived enablers and barriers according to cyclists and non-cyclists , 2018, Transportation research. Part A, Policy and practice.

[9]  John D. Nelson,et al.  Recent Developments in Bus Rapid Transit: A Review of the Literature , 2011 .

[10]  Maria Vittoria Corazza,et al.  An Analysis on Health Care Costs Due to Accidents Involving Powered Two Wheelers to Increase Road Safety , 2016 .

[11]  Harry Lahrmann,et al.  Comparison of five bicycle facility designs in signalized intersections using traffic conflict studies , 2017 .

[12]  Valentina Feliziani,et al.  How Many Visitors Should there Be in the City? The Case of Rome , 2012 .

[13]  Priyanka Alluri,et al.  Analyzing pedestrian crash injury severity at signalized and non-signalized locations. , 2015, Accident; analysis and prevention.

[14]  Irene Isaksson-Hellman,et al.  Detailed description of bicycle and passenger car collisions based on insurance claims , 2017 .

[15]  Julian Arellana,et al.  From restricting the use of cars by license plate numbers to congestion charging: Analysis for Medellin, Colombia , 2017 .

[16]  Yi Zhang,et al.  Household, Personal and Environmental Correlates of Rural Elderly’s Cycling Activity: Evidence from Zhongshan Metropolitan Area, China , 2014 .

[17]  Mariela Alfonzo,et al.  Euro What can we learn from existing research and from urban planning practice about how to support active living through active design in Chinese cities ? , 2013 .

[18]  Rune Elvik,et al.  Elementary Units of Exposure , 2009 .