Effects of low speed limits on freeway traffic flow

Recent years have seen a renewed interest in Variable Speed Limit (VSL) strategies. New opportunities for VSL as a freeway metering mechanism or a homogenization scheme to reduce speed differences and lane changing maneuvers are being explored. This paper examines both the macroscopic and microscopic effects of different speed limits on a traffic stream, especially when adopting low speed limits. To that end, data from a VSL experiment carried out on a freeway in Spain are used. Data include vehicle counts, speeds and occupancy per lane, as well as lane changing rates for three days, each with a different fixed speed limit (80 km/h, 60 km/h, and 40km/h). Results reveal some of the mechanisms through which VSL affects traffic performance, specifically the flow and speed distribution across lanes, as well as the ensuing lane changing maneuvers. It is confirmed that the lower the speed limit, the higher the occupancy to achieve a given flow. This result has been observed even for relatively high flows and low speed limits. For instance, a stable flow of 1942 veh/h/lane has been measured with the 40 km/h speed limit in force. The corresponding occupancy was 33%, doubling the typical occupancy for this flow in the absence of speed limits. This means that VSL strategies aiming to restrict the mainline flow on a freeway by using low speed limits will need to be applied carefully, avoiding conditions as the ones presented here, where speed limits have a reduced ability to limit flows. On the other hand, VSL strategies trying to get the most from the increased vehicle storage capacity of freeways under low speed limits might be rather promising. Additionally, results show that lower speed limits increase the speed differences across lanes for moderate demands. This, in turn, also increases the lane changing rate. This means that VSL strategies aiming to homogenize traffic and reduce lane changing activity might not be successful when adopting such low speed limits. In contrast, lower speed limits widen the range of flows under uniform lane flow distributions, so that, even for moderate to low demands, the under-utilization of any lane is avoided. These findings are useful for the development of better traffic models that are able to emulate these effects. Moreover, they are crucial for the implementation and assessment of VSL strategies and other traffic control algorithms.

[1]  Soyoung Ahn,et al.  Variable speed limit control for steady and oscillatory queues at fixed freeway bottlenecks , 2014 .

[2]  H Stoelhorst Reduced speed limits for local air quality and traffic efficiency , 2008 .

[3]  Michael J. Cassidy,et al.  Increasing Capacity of an Isolated Merge by Metering its On-Ramp , 2004 .

[4]  Chris Lee,et al.  Evaluation of Variable Speed Limits to Improve Traffic Safety , 2006 .

[5]  Markos Papageorgiou,et al.  Microsimulation Analysis of Practical Aspects of Traffic Control With Variable Speed Limits , 2015, IEEE Transactions on Intelligent Transportation Systems.

[6]  Bart De Schutter,et al.  Optimal coordination of variable speed limits to suppress shock waves , 2005, IEEE Transactions on Intelligent Transportation Systems.

[7]  Habib HAJ SALEM,et al.  THEORETICAL ANALYSIS OF THE EFFICENCY OF RAMP METERING , SPEED MANAGEMENT BASED ON BRAESS-LIKE PARADOXES , 2005 .

[8]  Lina Kattan,et al.  Variable speed limit: an overview , 2015 .

[9]  Markos Papageorgiou,et al.  Traffic flow modeling of large-scale motorwaynetworks using the macroscopic modeling tool METANET , 2002, IEEE Trans. Intell. Transp. Syst..

[10]  Markos Papageorgiou,et al.  METANET: A MACROSCOPIC SIMULATION PROGRAM FOR MOTORWAY NETWORKS , 1990 .

[11]  Markos Papageorgiou,et al.  Modelling and real-time control of traffic flow on the southern part of Boulevard Peripherique in Paris: Part I: Modelling , 1990 .

[12]  M. Papageorgiou,et al.  Effects of Variable Speed Limits on Motorway Traffic Flow , 2008 .

[13]  Benjamin Heydecker,et al.  Analysis and Modelling of Traffic Flow under Variable Speed Limits , 2011 .

[14]  H Remeijn THE DUTCH MOTORWAY CONTROL AND SIGNALLING SYSTEM , 1981 .

[15]  Soyoung Ahn,et al.  Spatiotemporal Analysis of Impacts of Lane Changing Consistent with Wave Propagation , 2009 .

[16]  Andreas Hegyi,et al.  Dynamic speed limit control to resolve shock waves on freeways - Field test results of the SPECIALIST algorithm , 2010, 13th International IEEE Conference on Intelligent Transportation Systems.

[17]  Andreas Hegyi,et al.  SPECIALIST: A dynamic speed limit control algorithm based on shock wave theory , 2008, 2008 11th International IEEE Conference on Intelligent Transportation Systems.

[18]  Carlos F. Daganzo,et al.  Impacts of Lane Changes at Merge Bottlenecks: A Theory and Strategies to Maximize Capacity , 2007 .

[19]  Vincenzo Punzo,et al.  Impact on Vehicle Speeds and Pollutant Emissions of a Fully 3 Automated Section Speed Control Scheme on the Naples Urban 4 motorway , 2010 .

[20]  Steven E Shladover,et al.  Review of Variable Speed Limits and Advisories , 2014 .

[21]  M. Cassidy,et al.  Some traffic features at freeway bottlenecks , 1999 .

[22]  P. G. Gipps,et al.  A behavioural car-following model for computer simulation , 1981 .

[23]  Carlos F. Daganzo,et al.  MOVING BOTTLENECKS: A THEORY GROUNDED ON EXPERIMENTAL OBSERVATION , 2002 .

[24]  Carlos F. Daganzo,et al.  The Smoothing Effect of Carpool Lanes on Freeway Bottlenecks , 2008 .

[25]  Marcel Sala,et al.  Freeway Lab: Testing Dynamic Speed Limits , 2014 .

[26]  Victor L. Knoop,et al.  Lane distribution of traffic near merging zones influence of variable speed limits , 2010, 13th International IEEE Conference on Intelligent Transportation Systems.

[27]  Jorge A. Laval Multi-lane hybrid traffic flow model : a theory on the impacts of lane-changing maneuvers , 2004 .

[28]  Bart De Schutter,et al.  Model predictive control for optimal coordination of ramp metering and variable speed limits , 2005 .

[29]  Carlos F. Daganzo,et al.  A BEHAVIORAL THEORY OF MULTI-LANE TRAFFIC FLOW. PART I, LONG HOMOGENEOUS FREEWAY SECTIONS , 1999 .

[30]  A. Soret,et al.  Air pollution impacts of speed limitation measures in large cities: The need for improving traffic data in a metropolitan area , 2010 .

[31]  Markos Papageorgiou,et al.  Optimal Motorway Traffic Flow Control Involving Variable Speed Limits and Ramp Metering , 2010, Transp. Sci..

[32]  M. Cassidy BIVARIATE RELATIONS IN NEARLY STATIONARY HIGHWAY TRAFFIC , 1998 .

[33]  Ioannis Papamichail,et al.  Optimal mainstream traffic flow control of large-scale motorway networks , 2010 .

[34]  E. van den Hoogen,et al.  Control by variable speed signs: results of the Dutch experiment , 1994 .

[35]  Michael J. Cassidy,et al.  METHODOLOGY FOR ASSESSING DYNAMICS OF FREEWAY TRAFFIC FLOW , 1995 .

[36]  Francesc Soriguera Martí,et al.  Empirical evidences of dynamic speed limit impact on a metropolitan freeway , 2014 .

[37]  Michael Cremer,et al.  Der Verkehrsfluss auf Schnellstrassen : Modelle, Überwachung, Regelung , 1979 .

[38]  Virginia P Sisiopiku VARIABLE SPEED CONTROL : TECHNOLOGIES AND PRACTICE , 2001 .

[39]  Aurélien Duret,et al.  Lane flow distribution on a three-lane freeway: General features and the effects of traffic controls , 2012 .

[40]  Carlos F. Daganzo,et al.  Lane-changing in traffic streams , 2006 .

[41]  Soyoung Ahn,et al.  Freeway Traffic Oscillations and Vehicle Lane-Change Maneuvers , 2007 .

[42]  Stef Smulders,et al.  Control of freeway traffic flow by variable speed signs , 1990 .

[43]  C. Daganzo,et al.  Effects of HOV lanes on freeway bottlenecks , 2007 .

[44]  H. Zackor Speed Limitation on Freeways: Traffic-Responsive Strategies , 1991 .

[45]  P. G. Gipps,et al.  A MODEL FOR THE STRUCTURE OF LANE-CHANGING DECISIONS , 1986 .

[46]  Carlos F. Daganzo,et al.  A Simple Traffic Analysis Procedure , 1997 .

[47]  Steven E. Shladover,et al.  Review of Variable Speed Limits and Advisories theory , algorithms , and practice , 2022 .

[48]  Francesc Soriguera,et al.  Assessment of Dynamic Speed Limit Management on Metropolitan Freeways , 2013, J. Intell. Transp. Syst..