Developing digital roads and improving air quality

Transport Xtra

September 16, 2019

Simulating the effect of traffic management strategies to mitigate poor air quality across different authorities’ jurisdictions

 

NEVFMA is headed by Aimsun in collaboration with Siemens Mobility, EarthSense and Oxfordshire CC to tackle air quality in the UK

Network Emissions/Vehicle Flow Management Adjustment (NEVFMA), a project by a consortium headed by Aimsun in collaboration with Siemens Mobility, EarthSense and Oxfordshire County Council, recently won Highways England funding for an initiative to tackle air quality around the country’s motorways and major A roads. The competition was facilitated by Innovate UK as a small business research initiative.

Gavin Jackman from Aimsun will be presenting an overview of the NEVFMA project at Smarter Tomorrow 2019. NEVFMA will investigate the impact of different traffic management strategies in real-time on the Oxford City road network and the surrounding strategic road network such as the A34 and A40. The proposal provides short-term air quality and traffic predictions, based on a network of sensors and dynamic simulation. The system will enable operators to simulate the effect of different traffic management strategies and select the best strategy to mitigate poor air quality.

Aimsun will be deploying its Aimsun Live software as a strategic real-time decision-making tool alongside technology and air quality modelling from EarthSense and traffic signal technology from Siemens Mobility. Aimsun is a fully-owned Siemens Mobility company and the portfolios often compliment each other to provide operators with predictive tools that interact seamlessly with traffic hardware.

Air quality has become a key consideration for the UK government agenda, with Low Emission Zones, the new Ultra Low Emission Zones in London, and even the world’s first Zero Emission Zone in Oxford, starting from 2020.

However, this localised approach to reducing emissions may have wider implications for nearby areas: discouraging vehicles from crossing a city centre may overburden a nearby ring road with a net negative effect. A linked consideration is that the rise in active travel initiatives, such as giving pedestrians priority over cars at traffic lights, might have implications on the link roads. Clearly, a holistic approach is needed, where the impact of local measures can be evaluated alongside their implications on the strategic road network, and this is where the NEVFMA project comes in.

NEVFMA project goals

Systematise clear congestion trigger points, based on predictions of the implications of a “do nothing” scenario Create measurable and actionable KPIs for system evaluation at traffic control centres Use real-time traffic data and air quality data (from on-vehicle sensors, infrastructure-embedded sensors, or satellite data) Establish clear response strategies (including divergence routes, time-to-green, etc, depending on available local ITS) based on simulations and evaluations Disseminate information to drivers via highway authority social media or broadcast radio but also via edge devices, such as traffic lights and DSRC communication NEVFMA will investigate the impact of different traffic management strategies in real-time on the Oxford City road network and the surrounding strategic interurban roads such as the A34 and A40. The project provides short-term air quality and traffic predictions, based on a network of sensors and dynamic simulation. The system will enable operators to

Air quality has become a key consideration for the UK government agenda, with Low Emission Zones (LEZ), Ultra Low Emission Zones (ULEZ), in London) and even the world’s first Zero Emission Zone (Oxford, starting from 2020). However a localised approach to reducing emissions may have wider implications for nearby areas, a critical example being the strategic road network (SRN). The act of discouraging vehicles from crossing a city centre may overburden a nearby ring road with a net negative effect. A holistic approach is needed, where the impact of such local measures can be evaluated alongside their implications on the SRN, and this is where NEVFMA project comes in.

Read the full article for more detail.