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We’re launching a new series of free video tutorials for using Aimsun Next mobility modeling software. No experience is necessary – these tutorials are designed for total beginners to follow. In this introduction to the series, Dimitris Triantafyllos outlines which topics we will be covering.
New to Aimsun Next?
Let’s get started! In this video, we’ll show you how to download the software and take you on a guided tour around the welcome page and user interface. For a step-by-step guide to installing Aimsun Next, go here: www.aimsun.com/aimsun-next-installation-guide/
Create a complete network from scratch: learn how to open Aimsun Next and create a new project, then import a map from OpenStreetMap and apply background images.
The goal of these model-building exercises is to start from zero and create a complete traffic-network model with all the data you need to run a microscopic simulation.
Learn how to create the geometry of a road network.
The goal of these model-building exercises is to start from zero and create a complete traffic-network model with all the data you need to run a microscopic simulation.
The goal of these model-building exercises is to start from zero and create a complete traffic-network model with all the data you need to run a microscopic simulation.
The goal of these model-building exercises is to start from zero and create a complete traffic-network model with all the data you need to run a microscopic simulation.
In Aimsun Next there are two ways to represent demand: one is through traffic states and the other is through origin-destination matrices (often shortened to ‚OD matrices‘). In this video we will look at creating traffic states.
The goal of these model-building exercises is to start from zero and create a complete traffic-network model with all the data you need to run a microscopic simulation.
The goal of these model-building exercises is to start from zero and create a complete traffic-network model with all the data you need to run a microscopic simulation.
The goal of these model-building exercises is to start from zero and create a complete traffic-network model with all the data you need to run a microscopic simulation.
The goal of these model-building exercises is to start from zero and create a complete traffic-network model with all the data you need to run a microscopic simulation.
The goal of these model-building exercises is to start from zero and create a complete traffic-network model with all the data you need to run a microscopic simulation.
How to visualise results in Aimsun Next, from viewing data for a single vehicle to creating thematic maps to present results with different labels and diagrams.
• Obtain different visual simulation outputs and view statistics.
• View data from a single vehicle while running a microscopic simulation.
• Use the Time Series Viewer to view various data during a simulation.
• Define view styles and view modes to present results in the main 2D view using colors, shapes, and labels.
• Create a print layout to present your data and compare data from different simulations.
The experiments in these exercises use models from the microscopic simulator. If you have a license for the Pro Meso edition of Aimsun Next instead, you should create the experiments as described but use the mesoscopic simulator rather than the microscopic option.
Using the example of a football match in Barcelona, we’ll observe the impact of spectators leaving the stadium after the game on traffic in the network, then we’ll find traffic management actions to mitigate that impact.
• Create policies for changing the destinations of vehicles in response to network conditions and events.
• Define strategies and policies to divert traffic, close turns, and reduce congestion. These strategies will involve police actions, VMS signs, traffic control plans, and conditional triggers.
• Create periodic incidents in a road section.
• We’ll use the example of a football match in Barcelona, where departing spectators impact traffic between 20:00 and 21:00h. Our task is to observe if all vehicles can leave in a timely manner and how we can mitigate their impact on traffic in the network.
Crating post-event mitigation strategies in the simulation
• Create policies for changing the destinations of vehicles in response to network conditions and events.
• Define strategies and policies to divert traffic, close turns, and reduce congestion. These strategies will involve police actions, VMS signs, traffic control plans, and conditional triggers.
• Create periodic incidents in a road section.
• We’ll use the example of a football match in Barcelona, where departing spectators impact traffic between 20:00 and 21:00h. Our task is to observe if all vehicles can leave in a timely manner and how we can mitigate their impact on traffic in the network.
• Create policies for changing the destinations of vehicles in response to network conditions and events.
• Define strategies and policies to divert traffic, close turns, and reduce congestion. These strategies will involve police actions, VMS signs, traffic control plans, and conditional triggers.
• Create periodic incidents in a road section.
• We’ll use the example of a football match in Barcelona, where departing spectators impact traffic between 20:00 and 21:00h. Our task is to observe if all vehicles can leave in a timely manner and how we can mitigate their impact on traffic in the network.
How to use strategic modeling tools in Aimsun Next.
• Prepare and execute a generation/attraction experiment to create GA vectors using land-use and travel-behavior data.
• Run a trip distribution and a modal-split experiment to create OD matrices and assign the resultant demand to the traffic network.
• Use a four-step-model experiment to link these processes together.
The basic macroscopic modeling tools in Aimsun Next
• Look at traffic assignment, OD-matrix adjustment, subnetworks, and how to balance OD matrices.
• Assign an OD matrix to a network to see how the flow distribution is assigned and how results are obtained.
• Adjust the OD matrix using data from detectors.
• Define a subnetwork and obtain its traversal OD matrix.
• Balance an OD matrix using the Furness method.
Run a microscopic simulation that contains embedded pedestrians.
• Create a pedestrian area with all the data required to run a microsimulation that includes embedded pedestrians.
• Define an area that pedestrians can walk through and areas where there is interaction between vehicles and pedestrians.
• Define pedestrian centroids, pedestrian OD matrices, create traffic demand, and run a simulation scenario to see the impact of pedestrians on traffic.
• Scenario Data Comparison
• Network Attributes Override
• Scenario Revision
• Geometry Configuration
• Using a Static Assignment to Verify Real and Simulated Data
• Defining a Subnetwork Study Area and Running a Static Traversal
• Checking Detector Coverage
• Extending the OD Matrices Based on Traffic Measurements
• Adjusting the Subnetwork OD Matrices
• Creating a Profiled Demand with a Static OD Departure Adjustment
• Running a Dynamic User Equilibrium (DUE) Experiment
• Running a Microscopic Stochastic Route Choice (SRC) Scenario
• Running a Meso-micro Hybrid SRC Scenario
• Running a Macro-meso Hybrid Simulation
• Priority
• Actuated Control
• Priority
• Actuated Control
Nachdem Sie Aimsun Next installiert haben, schauen Sie sich die Tutorials-Wiedergabeliste auf dem Aimsun YouTube-Kanal an – die Videos sind so konzipiert, dass sie Hand in Hand mit den schriftlichen Tutorials und praktischen Übungen gehen, die Sie über die Willkommensseite unserer Software aufrufen können.
So starten Sie ein Lernprogramm:
Wenn Sie die Übung(en) überspringen, aber die endgültigen erwarteten Ergebnisse und das fertige Modell ansehen möchten, klicken Sie auf Fertiges Netzwerk und öffnen das fertige Netzwerkmodell.
Für tiefer gehende oder fortgeschrittene Schulungen schauen Sie in unseren Schulungskalender.
Wenn Sie Fragen haben, kontaktieren Sie uns unter info@aimsun.com
TEILEN
Aimsun Next 23
Aimsun Next 20.0.5
Aimsun Next 23
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title = {Aimsun Next 23 User’s Manual},
author = {Aimsun},
edition = {Aimsun Next 23.0.0},
address = {Barcelona, Spain},
year = {2023. [Online]},
month = {Accessed on: Month, Day, Year},
url = {https://docs.aimsun.com/next/23.0.0/},
}
Aimsun Next 20.0.5
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title = {Aimsun Next 20.0.5 User’s Manual},
author = {Aimsun},
edition = {Aimsun Next 20.0.5},
address = {Barcelona, Spain},
year = {2021. [In software]},
month = {Accessed on: Month, Day, Year},
url = {qthelp://aimsun.com.aimsun.20.0/doc/UsersManual/Intro.html},
}
Aimsun Next 23
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Y2 – Accessed on: Month, Day, Year
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PB – Aimsun
UR – [In software]. Verfügbar: https://docs.aimsun.com/next/23.0.0/
Aimsun Next 20.0.5
TY – COMP
T1 – Aimsun Next 20.0.5 User’s Manual
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ET – Aimsun Next Version 20.0.5
Y1 – 2021
Y2 – Accessed on: Month, Day, Year
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PB – Aimsun
UR – [In software]. Available: qthelp://aimsun.com.aimsun.20.0/doc/UsersManual/Intro.html