Road
Lost in Transmission: Communicating for Safe Automated Vehicle Interactions in Cities
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.
Safer Micromobility
27 March 2024
- Micromobility is becoming safer. But, an increase in severe injuries from e-scooter crashes is cause for concern. Overall, shared e-scooter crash risk is decreasing as their usage is increasing faster than injuries.
Safe infrastructure and vehicle design matter. A focus on rider behaviour and safety equipment must be complemented by better infrastructure and improved vehicle design – especially for e-scooters.
Reinforcing existing policies improves safety. Road safety measures also make micromobility safer – managing speed, providing training to road users and enforcing rules against impaired driving and riding.
Safety Performance Indicators: Monitoring, Evaluating and Improving the Safe System
30 December 2023
Using Safety Performance Indicators to Improve Road Safety: The case of Korea
10 December 2023
- Set safety targets. Ambitious road safety targets and concrete measures help to reduce the number of road fatalities and injuries quickly. Including meaningful performance indicators in road safety strategies is crucial to success.
- Prioritise vulnerable people. Pedestrians, cyclists and the elderly are most vulnerable in road traffic. Prioritise their safety by using road safety performance indicators to pave the way for more inclusive, protective road environments and reduce the risk of road traffic causing tragedies.
- Create a feedback loop. The insights gained from safety performance indicators must feed directly into improving road safety strategies. Creating a continuous feedback loop will make the strategies responsive to changes, measures more impactful and road traffic safer.
Shifting the Focus: Smaller Electric Vehicles for Sustainable Cities
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
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.
Monitoring Progress in Urban Road Safety: 2022 Update
16 October 2022
- Ensure consistent collection of reliable urban road safety data.
- Create urban traffic observatories that collect both general mobility data and road safety data.
- Set ambitious reduction targets for the number of traffic crash casualties in cities.
- Focus on protecting vulnerable road users on urban streets.
- Measure crash risks for vulnerable road users with appropriate indicators.
- Adopt an integrated urban mobility plan based on Safe System principles.
The Safe System Approach in Action
29 June 2022
- Commit to a long-term Safe System initiative
- Build Safe System initiatives on data and evidence of effectiveness
- Start at a manageable level of activity and then scale up
- Build capacity for practical implementation of the Safe System approach, especially in low- and middle-income countries
- Use pilot projects to further test and develop the Safe System framework
- Use the framework to assess projects, organisations and policies, identify gaps, and plan effective strategies
Artificial Intelligence in Proactive Road Infrastructure Safety Management
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.
Motorway Safety in Korea
6 December 2021
- Develop a proactive approach to motorway safety.
- Promote work-related road safety in road haulage companies and in other sectors.
- Review the cost-benefit evaluation of road safety investment.
- Create an observatory to map and monitor unsafe situations and behaviours.
- Review the legal and operational frameworks for speed enforcement.
- Set high vehicle safety standards inspired by those developed in the European Union.
- Upgrade the physical and digital infrastructure for the adoption of connected and automated driving.
- Set guidance and standards for the rapid deployment of Co‑operative-ITS services in Korea.
- The KEC should invest in solutions that protect road users, from the most traditional to the most innovative.
Monitoring Progress in Urban Road Safety
4 November 2020
- Set ambitious targets to reduce the number of casualties.
- Create joint mobility and safety observatories in cities.
- Put the focus on protecting vulnerable road users.
- Measure the safety of vulnerable road users in cities with appropriate indicators.
ITF launches web overview of Covid-19-related measures for passenger and road transport in Europe
26 March 2020
Safe Micromobility
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
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.
High Capacity Transport
1 May 2019
- Use the potential of High Capacity Vehicles to increase transport efficiency, reduce traffic volumes, lower emissions and achieve better safety outcomes.
- Use well-monitored trials to introduce High Capacity Vehicles on a road network.
- Configure High Capacity Vehicles for the specific area in which they will operate.
Road Safety in European Cities
10 April 2019
- Develop mobility plans and observatories in cities.
- Use appropriate indicators to measure the safety of vulnerable road users.
- Collect traffic casualty data from hospitals and from the population, not only from police records.
- Improve the comparability of road safety statistics. Adopt ambitious targets for casualty number reduction.
- Focus on protecting vulnerable road users.
- Conduct further research on crash risks.
- Local government should demonstrate leadership.
- Gather evidence that can serve as fundament of road safety policy.
- Create strong Metropolitan Transport Authorities.
Commercial Vehicle On-Board Safety Systems
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.
The Social Impacts of Road Pricing
10 October 2018
- Make demand management and congestion reduction the primary objective of road pricing.
- Differentiate road pricing by location and time.
- Combine road pricing and public transport planning to improve efficiency.
- Examine the combined effects of scheme design and mitigation to understand distributional impacts.
- Consider the use of discounts and exemptions carefully.
- Develop road pricing as part of an intervention package to achieve better utilisation of urban space.
- Reconcile economic, practical and political aspects in the design of road pricing schemes.
- Differentiate charges and consider adopting a rules-based pricing approach.
Safer Roads with Automated Vehicles?
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.
British-Romanian researcher wins global award for analysis of drink-driving crashes
8 May 2018
Speed and Crash Risk
28 March 2018
- Reduce the speed on roads as well as speed differences between vehicles.
- Set speed limits according to Safe System principles.
- Improve infrastructure and enforcement if speed limits are to be increased.
- Use automatic speed control to reduce speed effectively.
Alcohol-Related Road Casualties in Official Crash Statistics
6 February 2018
- Review how data on alcohol-related road crashes is collected.
- Aim for a systematic alcohol testing of every road user actively involved in a serious crash.
- Use statistical analysis methods to better estimate the number of alcohol-related road fatalities.
- Harmonise definitions of alcohol-related road casualties.
- Conduct future research on how to measure alcohol-related road crashes involving pedestrians and cyclists.