Road
Lost in Transmission: Communicating for Safe Automated Vehicle Interactions in Cities
Case-Specific Policy Analysis, Policy Insights,
11 September 2024
- Automated vehicles should adapt their communications to cities.
- Design street-friendly automated vehicles, not automated-vehicle-friendly streets.
- Use automated vehicle crash data to improve safety.
- Establish robust cybersecurity systems for safe and trustworthy automated vehicle interactions in cities.
- Translate regulations into machine-readable format.
Shifting the Focus: Smaller Electric Vehicles for Sustainable Cities
Corporate Partnership Board Report, Policy Insights,
26 September 2023
- Shift the focus of policies that promote electric vehicles to end the dependency on large, under-used vehicles.
- Help make smaller electric vehicles an attractive choice for citizens.
- Ensure the transition to smaller electric vehicles goes in hand with adequate safety provisions.
- Fast-track the electrification of shared mobility services in complement with public transport.
- Ensure the availability of enough charging points to make electric mobility attractive.
The Freight Space Race: Curbing the Impact of Freight Deliveries in Cities
Corporate Partnership Board Report, Policy Insights,
5 December 2022
- Manage curb space with a focus on the needs of both passengers and goods transport.
- Apply access restrictions for delivery vehicles in urban areas while considering business practices.
- Use more logistics data to better monitor and manage freight flows.
Decarbonising Europe’s Trucks: How to Minimise Cost Uncertainty
Case-Specific Policy Analysis, Policy Insights,
4 September 2022
- Ensure that policies to promote direct electrification of trucks remain technology-neutral.
- Launch targeted studies and pilot projects to assess the merits of electric road systems for road freight decarbonisation.
- Further investigate decarbonisation technologies for particularly challenging road freight applications.
- Introduce policies that help zero-emission vehicles become cost-competitive sooner.
- Accelerate the deployment of zero-emission vehicle infrastructure.
- Strengthen regulations that make trucks more energy-efficient.
Artificial Intelligence in Proactive Road Infrastructure Safety Management
Roundtable Report, Policy Insights,
14 December 2021
- Develop a competitive market for the sharing and monetising of traffic and mobility data.
- Do not wait for real-time data before developing risk maps.
- Mandate the sharing of aggregate vehicle data.
- Learn from other fields and best practice for data sharing and privacy protection.
- Support research and innovation towards trusted and explainable AI.
- Align new tools with precise policy objectives.
- Develop new skills and digital infrastructure.
- Clarify regulatory frameworks for data protection and digital security.
- Design user-friendly risk-mapping tools.
How Urban Delivery Vehicles can Boost Electric Mobility
Case-Specific Policy Analysis, Policy Insights,
9 December 2020
- Prioritise electrification of vehicles with high mileage and regular daily activity, including LCVs in last-mile delivery.
- Promote electric light commercial vehicles in cities and tightly regulate combustion-engine vehicles.
- Strengthen fuel economy standards, zero-emission mandates and economic incentives for light commercial vehicles.
- Define regulatory requirements and clarify costs for upgrades to the electricity grid needed for electric vehicles.
- Use vehicle design and components of electric passenger cars to unlock price reductions of electric light commercial vehicles.
- Strengthen co-operation among stakeholders to reduce investments risks for the manufacturing of electric light commercial vehicles.
Regulations and Standards for Clean Trucks and Buses
Case-Specific Policy Analysis, Policy Insights,
14 September 2020
- Ensure that vehicle safety regulations and standards for electric and hydrogen cover all classes of road vehicles and better differentiate between light and heavy vehicles.
- Leverage the experience of international regulatory fora to extend the coverage of safety-related requirements to heavy electric vehicles.
- Ensure that the scope of regulations on the safety of hydrogen-powered heavy vehicles addresses aspects that are currently not adequately considered.
- Involve diverse transport and energy stakeholders in the development of charging standards for electric heavy vehicles.
- Address missing elements in regulations and standards related to electric road systems.
- Develop hydrogen refuelling protocols for heavy vehicles using gaseous storage at 70 MPa, new nozzles and instruments guaranteeing compliance with stringent fuel quality requirements.
- Increase the focus of pre-normative research on the safe use of low- and zero emission vehicles with existing vehicle infrastructure, especially for hydrogen-powered options.
- Harmonise regulations on tailpipe GHG emissions and energy consumption of heavy vehicles, also integrating instruments evaluating energy use for low- and zero-emission vehicles.
- Fully integrate electricity and hydrogen into regulatory policies on low-carbon fuels.
- Address non-regulated pollutants and integrate hydrogen-powered vehicles using internal combustion engines in regulations on tailpipe pollutant emissions.
- Address the environmental performance of vehicle batteries with regulatory innovation targeting their durability, carbon footprint and the sustainability of associated supply chains.
- Develop an internationally harmonised regulatory framework for the application of differentiated road charges and access restrictions based on environmental performances of vehicles.
Safe Micromobility
Corporate Partnership Board Report, Policy Insights,
17 February 2020
- Allocate protected space for micromobility and keep pedestrians safe.
- To make micromobility safe, focus on motor vehicles.
- Regulate low-speed e-scooters and e-bikes as bicycles, higher-speed micro-vehicles as mopeds.
- Collect data on micro-vehicle trips and crashes.
- Proactively manage the safety performance of street networks.
- Include micromobility in training for road users.
- Tackle drunk driving and speeding across all vehicle types.
- Eliminate incentives for micromobility riders to speed.
- Improve micro-vehicle design.
- Reduce wider risks associated with shared micromobility operations.
New Directions for Data-Driven Transport Safety
Corporate Partnership Board Report, Policy Insights,
22 May 2019
- Develop standards and platforms for the collection and sharing of safety-critical vehicle data.
- Ensure privacy in the use of safety-critical data.
- Refine the applications of surrogate traffic safety metrics.
- Harness Big Data for road safety but beware of biases.
- Review training needs for road safety professionals.
- Empower transport users and workers through mechanisms to report safety concerns.
- Make safety-critical vehicle data available for telematics applications.
- Find ways to integrate smartphones into Cooperative-ITS to benefit all users.
- Improve and link police and hospital data on road crash injuries.
- Prevent, detect and signal driver distractions.
- Revise trigger mechanisms for automatic crash notification and event data recording.
- Share data to enforce limits on driving hours in the gig economy.
- Favour more accurate and relevant geo-spatial accuracy for safety applications.
- Update legal frameworks to account for ubiquitous sensing data and their use in improving safety.
Commercial Vehicle On-Board Safety Systems
Roundtable Report, Policy Insights,
24 January 2019
- Ensure international harmonisation of regulation for autonomous trucks.
- Use the flexibility within existing regulatory frameworks to accommodate vehicle automation technologies.
- Weigh the advantages, disadvantages and limits to stretching existing regulatory frameworks to cover safe vehicle automation.
- Consider data-led approaches for regulating vehicles with high automation levels. Consider government intervention to address labour issues if and where they arise.
Potential of Intelligent Transport Systems to Reduce Greenhouse Gas Emissions in Road Freight Transport
Presentation, slides, speech,
28 June 2018
Summary of the ITF Roundtable on Truck Automation and Platooning
Presentation, slides, speech,
27 June 2018
Safer Roads with Automated Vehicles?
Corporate Partnership Board Report, Policy Insights,
22 May 2018
- Reinforce the Safe System approach to ensure automated vehicles are used safely.
- Apply Vision Zero thinking to automated driving.
- Avoid safety performance being used to market competing automated vehicles.
- Carefully assess the safety impacts of systems that share driving tasks between humans and machines.
- Require reporting of safety-relevant data from automated vehicles.
- Develop and use a staged testing regime for automated vehicles.
- Establish comprehensive cybersecurity principles for automated driving.
- Ensure the functional isolation of safety-critical systems and that connectivity does not compromise cybersecurity or safety.
- Provide clear and targeted messaging of vehicle capabilities.
Managing the Transition to Driverless Road Freight Transport
Case-Specific Policy Analysis, Policy Insights,
30 May 2017
- Continue driverless truck pilot projects to test vehicles, network technology and communications protocols.
- Set international standards, road rules and vehicle regulations for self-driving trucks.
- Establish a temporary transition advisory board for the trucking industry.
- Consider a temporary permit system to manage the speed of adoption and to support a just transition for displaced drivers, while ensuring fair access to markets.
Data-led Governance of Road Freight Transport
Corporate Partnership Board Report, Policy Insights,
30 May 2017
- Use currently available data within existing frameworks.
- Consider a completely new data-driven regulatory approach.
- Develop cross-sectoral approaches to data handling and processing.
- Investigate the best uses of new technologies, systems, and data science.
- Investigate applicability of wider and less structured big data sets.
- Consider impacts of automation of road freight vehicles.