Road
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.
Monitoring Progress in Urban Road Safety
Case-Specific Policy Analysis, Policy Insights,
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.
Good to Go? Assessing the Environmental Performance of New Mobility
Corporate Partnership Board Report, Policy Insights,
16 September 2020
- Leverage existing reporting obligations and introduce new requirements for micromobility providers to make evidence-based policy decisions.
- Focus interventions aiming at clean mobility on ridesourcing vehicles with high lifetime travel.
- Set incentives to increase occupancy of ridesourcing vehicles.
- Standardise methodologies for the evaluation of shared micromobility’s life-cycle emissions and introduce minimum performance requirements via market entry rule and/or operating licenses.
- Strengthen synergies between public transport and shared micromobility.
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.
Electrifying Postal Delivery Vehicles in Korea
Case-Specific Policy Analysis, Policy Insights,
4 March 2020
- Continue replacement of motorcycles in the current delivery fleet with compact e-vehicles.
- Carry out focus group studies to capture qualitative data and pilot studies to reflect local context.
- Prioritise driver confidence through training and clear communication of vehicle safety features.
- Communicate overall efficiency gains with e-vehicles to drivers.
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.
The Social Impacts of Road Pricing
Roundtable Report, Policy Insights,
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?
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.
Cooperative Mobility Systems and Automated Driving
Roundtable Report, Policy Insights,
2 May 2018
- Shared mobility is still a relatively new field but is progressing rapidly. With business models and preferred technologies still in flux, policy makers need to prepare considered responses to these developments without delay.
- Service concepts and technology currently and on the brink of being explored need to consider a range of design domain restrictions, dependencies on infrastructure, operating principles and user interfaces.
- Specific service concepts should be matched to specific operational environments, on a detailed local level as well as across continents and cultures.
- Government action will affect how automated vehicles will impact society. Existing approaches will not be appropriate for long. Their understanding and input will help to balance the debate on whether AVs can indeed alleviate a series of stubborn problems.
Speed and Crash Risk
IRTAD, Policy Insights,
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
IRTAD, Policy Insights,
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.
Improving Safety for Motorcycle, Scooter and Moped Riders
Research Report, Policy Insights,
7 October 2015
- The powered two-wheeler population is increasing and plays a significant role in mobility.
- Powered two-wheeler (PTW) riders are at far greater risk than car drivers.
- Poor perception and control are frequent failures that lead to PTW crashes.
- A Safe System approach is required to improve the safety of PTWs.
- The helmet is the most important source of protection against severe injuries and death.
- Advances in car technology can also bring positive safety benefits to PTW users. There are a number of new technologies, such as forward collision warning, blind spot information and vulnerable road user protection systems, which can prevent collisions, including those with PTW riders, pedestrians and cyclists.
Road Infrastructure Safety Management
IRTAD, Policy Insights,
6 October 2015
- Benchmark road infrastructure against good practices in other countries.
- Implement new minimum safety standards for road infrastructure.
- Continue evaluation and research to quantify safety impacts of planning decisions.
- Implement suitable Road Infrastructure Safety Management procedures for each stage of road development including planning design, pre-opening and full operation.
- Make Road Infrastructure Safety Management procedures legally binding.
- Involve both road and health authorities when developing road accident data bases.
- Assure adequate institutional management capacity and investment levels.
- Use existing tools and guidelines; adopt second-best solutions where state-of-the-art solutions are not feasible.
- Identify the Road Safety Infrastructure Management procedures that fit specific needs and understand barriers to implementation.
- Share good practices of Road infrastructure Safety Management procedures and intervention measures.
- Monitor the safety performance of road infrastructure.
- Develop self-explaining roads.
Why Does Road Safety Improve When Economic Times Are Hard?
IRTAD, Policy Insights,
5 October 2015
- There is clear evidence that when economic growth declines, and particularly when unemployment increases, road safety improves.
- The financial and economic crises which started in 2007 were accompanied by marked falls in annual numbers of road deaths in most OECD countries.
- It is important to understand how much of the accelerated reduction in numbers of deaths during the downturn that began in 2008 was attributable to the changed economic conditions.
- The economic downturn in 2009-10 may well have contributed to about two-thirds of the decrease in fatalities from 2008.
- The recent downturn has had repercussions on the Gross Domestic Product (GDP) and unemployment rate and has influenced the number of road deaths through a reduction in vehicle kilometres driven, especially by young men and by heavy goods vehicles, a reduction in speeding and in drink-driving, and a reduction in learning to drive by young men.
- Policy makers need to take careful account of these results when setting road safety targets and when designing road safety strategies for the future.
Automated and Autonomous Driving
Corporate Partnership Board Report, Policy Insights,
30 April 2015
- Automated driving comprises a diverse set of emerging concepts that must be understood individually and as part of broader trends toward automation and connectivity
- Uncertainty on market deployment strategies and pathways to automation complicates the regulatory task
- Incrementally shifting the driving task from humans to machines will require changes in insurance
- The shift from human to machine may have an impact on what product information developers and manufacturers of autonomous vehicles share, and with whom
- Regulators and developers should actively plan to minimise legacy risks