Note: when via is not set, any -elements that belong to this route will automatically be used as intermediate edges. List of intermediate edges that shall be passed on rerouting Whether the vehicle should be equipped with a rerouting device (setting this to false does not take precedence over other assignment options) The number of occupied container places when the vehicle is inserted. The number of occupied seats when the vehicle is inserted. The final edge along the route where the vehicle should leave the network (only supported if a complete route is defined) see #arrivalEdge.Ī string specifying the id of a public transport line which can be used when specifying person rides The speed with which the vehicle shall leave the network see #arrivalSpeed. The position at which the vehicle shall leave the network see #arrivalPos. The lane at which the vehicle shall leave the network see #arrivalLane. The initial edge along the route where the vehicle should enter the network (only supported if a complete route is defined) see #departEdge. Int (index from [0, routeLength[ or "random" The speed with which the vehicle shall enter the network see #departSpeed. The position at which the vehicle shall enter the net see #departPos. default: "first"įloat(m)/string ("random", "free", "random_free", "base", "last", "stop") The lane on which the vehicle shall be inserted see #departLane. Alternatively the vehicle departs once a person enters or a container is loaded The time step at which the vehicle shall enter the network see #depart. The id of the route the vehicle shall drive alongįloat (s) or human-readable-time or one of triggered, containerTriggered, begin The id of the vehicle type to use for this vehicle. Initially, we will define a vehicle with a route that belongs to it:Ī vehicle may be defined using the following attributes: Attribute Name The driver of a vehicle does not have to be modelled explicitly.įor the simulation of persons which walk around or ride in vehicles, additional definitions are necessary. a vehicle type which describes the vehicle's physical properties,īoth routes and vehicle types can be shared by several vehicles.Before starting, it is important to know thatĪ vehicle in SUMO consists of three parts: Of course it is also possible to define the demand file manually or to edit generatedįiles with a text editor. Traffic demand can also be created and edited visually with netedit.Īll these applications eventually create XML definitions. That can be used to define vehicular demand for SUMO from existing input data. Definition of Vehicles, Vehicle Types, and Routesĭefinition of Vehicles, Vehicle Types, and Routes.→ Additional remarks on speed distributions.→ Different distributions for cars and trucks.→ Defining a normal distribution for vehicle speeds.A Vehicle's depart and arrival parameter.→ Implicit Origin and Destination from Stops.
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