Shaping the Future of Advanced Traffic Management Solutions
Advanced traffic management solutions play a crucial role in enhancing mobility, reducing congestion and ensuring resilient multimodal services. By leveraging cutting-edge technologies such as AI-driven algorithms, real-data analytics and simulation, these solutions empower cities to respond effectively to traffic incidents, foster multimodal connectivity and optimize transport network performance.
In this article, Antonio Pellicer Pous , a Scientific Researcher at Aimsun, explains how cities and authorities can effectively utilize and implement these integrated multimodal solutions to master network and traffic management by using a toolbox such as the one developed by the EU-funded SYNCHROMODE Project .
The SYNCHROMODE toolbox: a suite of services for traffic management?
The SYNCHROMODE research team are developing a toolbox that combines a suite of services and modules to improve overall transport network management, helping to coordinate different agents involved in the provision and control of the transport services.
The hope is SYNCHROMODE will provide transport managers and authorities with new predictive and network optimization capabilities for balancing transport supply and demand and reacting to different network disturbances.
The services integrated within the SYNCHROMODE toolbox are:
?Aimsun’s contributions: data-driven and simulation-based solutions
In SYNCHROMODE, Aimsun is primarily leading the simulation-based demand-supply interaction modelling task and plays a major role estimating and predicting traffic demand using data-driven approaches.
The team is working on improving the efficiency and accuracy of methods for offline estimation?of the traffic demand. The process of estimating Origin-Destination (OD) traffic demand using simulation-based optimization is complex and can be computationally intensive for large-scale models. In SYNCHROMODE we propose novel methods for demand estimation, that combine Machine-Learning techniques and optimization approaches and do not rely on traffic simulations. Aimsun’s research uses neural networks to emulate traffic simulation, enabling analytical gradient calculations and backpropagation to improve the efficiency and accuracy of the estimated demand.
Additionally, the team is also developing a deep learning (DL) model to predict traffic demand from traffic observations (e.g. flow measurements from loop detectors) and offline estimated demand matrices for the network of interest.
?Aimsun is also supporting the SYNCHROMODE partners by developing transport simulation models to virtually assess traffic management strategies and by integrating optimisation-based modules into simulation tools. ?
Case studies
The proposed approaches will be demonstrated and validated through three Case Studies (CS) in Madrid (Spain), South Holland region (The Netherlands) and Thessaloniki (Greece).?
Case Study 1: Madrid
Leveraging the excess capacity of public transport during off-peak hours for last-mile delivery, this case study is led by Nommon and aims to integrate urban last-mile delivery using Demand-Responsive Transport with public transport services.
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The SYNCHROMODE toolbox will assist users in predicting and estimating public transport and parcel delivery demand, optimizing parcel placement within buses, enhancing bus and Demand-Responsive Transport services for both passengers and parcels.
Aimsun will contribute to this case study by simulating the optimised and combined Demand-Responsive Bus routes in the Aimsun Ride simulation platform for on-demand services. The team has also been working on improving the multimodal public transport trip routing?and simulation in Aimsun Ride; this involves the computation of an optimal sequence of mode-specific trips with alternative transport modes such as walking, car, bike, scooter, etc. to access and egress public transport such as bus, rail, metro, tram, etc.
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Case Study 2: South Holland
The Province of South Holland is facing major mobility challenges due to the increasing number of visitors during warm and sunny days. Roads accessing the Keukenhof flower park and the coastline of the province are experiencing congestion and delays. Additionally, major large-scale infrastructure roadworks are planned for the upcoming years, which might exacerbate the impacts on the road network.
Aimsun , in collaboration with the Universidad de Deusto , 英国伦敦大学学院 and Be-Mobile are developing a methodology to optimise (and prioritise) the sequence of multi-day roadworks considering simulation-based traffic-related indicators.
?In addition, Aimsun is applying the demand estimation module in the Beach and Keukenhof Use Cases. A preliminary exercise was carried out using traffic data from 2023 of the entire region of The Netherlands. After formatting and cleaning the data, traffic patterns were extracted from the historical data, using clustering algorithms.
Results from this analysis showed 4 main patterns representing how traffic moves in the Netherlands (see Figure 3, below). The identified patterns were used to adjust the historical demand (OD) matrices. Upcoming work will further delimitate the study area to the beach and Keukenhof sites to focus on identifying patterns for beach/Keukenhof days and estimate the demand for these specific days to be included into the transport model.?
Case Study 3: Thessaloniki
Thessaloniki’s western entrance faces significant congestion, with most travellers using low-occupancy private vehicles. There’s a need to promote PT, shared vehicles and available parking areas to alleviate this issue.
Aimsun is contributing to this Use Case by developing a microscopic model of a signalized arterial (Leoforos Nikis) and testing C-ITS apps at signalized intersections for pedestrians and eBikes. ‘Illegal’ behaviours such as ‘red-light violation’ or ‘jaywalking’ will also be considered in the simulation to complement the analysis. ?
?Next steps
In just 15 months, SYNCHROMODE has already made a significant impact by developing innovative methodologies that will pave the way for more efficient and integrated tools to enhance traffic management.
Exciting months lie ahead as we intensify our efforts to finalise the development of methodologies and apply them to the case studies by the end of the year. Follow SYNCHROMODE Project on LinkedIn for regular updates!