Tutorials/FundamentalDiagram

generated on 2019-08-26 00:07:10.138656 from the wiki page for Tutorials/FundamentalDiagram for SUMO git

Introduction

The Fundamental diagram of traffic flow describes the relationship between flow (vehicles per hour) and density (vehicles per km).

Both measures can be obtained from edgeData-output. The density value measures vehicles per km and the flow can be computed from entered * 3600 / freq where freq is the specified aggregation interval of the output.

Generally, this can be computed for any kind of scenario as long as this scenario covers the desired range of traffic densities.

Fundamental diagram of a closed circular route

A common scenario that is used to generate the fundamental diagram is a circular route where the density is increased over time. Such a scenario can be found at <SUMO_HOME>//tests/sumo/cf_model/drive_in_circles.

There are different ways for increasing the density. The key problem that must be solved is, that density can only be increased when there is sufficient space to insert additional vehicles. In a closed system all the space is eventually taken up by the existing vehicles and the safety gaps between them. Additional space can only be obtained by lowering the speed in some parts of the circle to reduce these gaps.

Reducing the speed evenly

An elegant way to reduce the speed is to initialize the network with evenly spaced vehicles at a predefined density. For the circle scenario this can be accomplished by the following demand definition:

   <routeDistribution id="startAnywhere">
       <route edges="6/1to7/1 7/1to8/1 8/1to9/1 9/1to10/1 10/1to1/1 1/1to2/1 2/1to3/1 3/1to4/1 4/1to5/1 5/1to6/1"/>
       <route edges="7/1to8/1 8/1to9/1 9/1to10/1 10/1to1/1 1/1to2/1 2/1to3/1 3/1to4/1 4/1to5/1 5/1to6/1"/>
       <route edges="8/1to9/1 9/1to10/1 10/1to1/1 1/1to2/1 2/1to3/1 3/1to4/1 4/1to5/1 5/1to6/1"/>
       <route edges="9/1to10/1 10/1to1/1 1/1to2/1 2/1to3/1 3/1to4/1 4/1to5/1 5/1to6/1"/>
       <route edges="10/1to1/1 1/1to2/1 2/1to3/1 3/1to4/1 4/1to5/1 5/1to6/1"/>
       <route edges="1/1to2/1 2/1to3/1 3/1to4/1 4/1to5/1 5/1to6/1"/>
       <route edges="2/1to3/1 3/1to4/1 4/1to5/1 5/1to6/1"/>
       <route edges="3/1to4/1 4/1to5/1 5/1to6/1"/>
       <route edges="4/1to5/1 5/1to6/1"/>
       <route edges="5/1to6/1"/>
   </routeDistribution>
   <flow id="0" type="default" route="startAnywhere" begin="0" end="3" period="0.001" departPos="last" departSpeed="15" departLane="free"/>

The routeDistribution ensures that all vehicles reach the edge where the <rerouter> takes effect to repeat the circle. The disadvantage of this approach is the need to run the simulation multiple times with different values of departSpeed to achieve different densities.

Reducing the speed locally

An alternative approach is to reduce the speed at some part of the circle repeatedly and insert vehicles upstream of the speed reduction where the local density is reduced for a time. This can be accomplished with the following definition (to be placed in an additional-file)

   <variableSpeedSign id="disturbance" lanes="10/1to1/1_0">
       <step time="2000" speed="1"/>
       <step time="2100"/>
       <step time="3000" speed="1"/>
       <step time="3100"/>
       <step time="4000" speed="1"/>
       <step time="4100"/>
       <step time="5000" speed="1"/>
       <step time="5200"/>
       <step time="6000" speed="1"/>
       <step time="6200"/>
       <step time="7000" speed="1"/>
       <step time="7200"/>
       <step time="8000" speed="1"/>
       <step time="8300"/>
       <step time="9000" speed="1"/>
       <step time="9300"/>
       <step time="10000" speed="1"/>
       <step time="10300"/>
       <step time="11000" speed="1"/>
       <step time="11400"/>
       <step time="12000" speed="1"/>
       <step time="12400"/>
       <step time="13000" speed="1"/>
       <step time="13400"/>
   </variableSpeedSign>
Caution:
This speed reduction will introduce some small artefacts into the resulting fundamental diagram.

And a flow that continuously tries to add vehicles:

   <flow id="0" type="default" begin="0" end="60000" period="3" departPos="last" departSpeed="max" departLane="free">
       <route edges="1/1to2/1 2/1to3/1 3/1to4/1 4/1to5/1 5/1to6/1"/>
   </flow>