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.
12 December 2021
- Regulate mobility operators and MaaS providers separately.
- Adopt an explicitly pro-competitive approach to MaaS in policy and legislation.
- Clearly establish the status of MaaS providers via a licensing scheme.
- Review conditions for mobility operator licences to ensure they do not include barriers to developing MaaS.
- Add mandatory minimum data-sharing requirements relating to informational and operational data to licences for mobility operators.
- Build mandatory consumer data portability, subject to user consent, into the conditions of all mobility operator and MaaS provider licences.
- Adopt competition safeguards as part of the MaaS provider licensing framework.
- Ensure public transport operators have the freedom to negotiate the terms of public transport ticket resale with MaaS providers who, in turn, should be free to determine the pricing of services to consumers.
- Apply OECD and EU best practice principles on regulatory policy and governance to inform approaches to regulating MaaS.
- Make data reporting requirements to public authorities specific and directly related to regulatory tasks.
- The Good Move policy package should remain the key vehicle for implementing sustainable urban mobility policies.
17 October 2021
- Adopt a light and flexible regulatory approach that allows Mobility as a Service to evolve.
- Integrate the governance of Mobility as a Service into broader sustainable mobility policies.
- Allow public transport operators the freedom to negotiate with Mobility as a Service providers.
- Create data-sharing frameworks that are as open as possible, as constrained as necessary.
- Define common building blocks for sharing data within a Mobility as a Service eco-system.
7 October 2021
- Put more focus on flexible labour arrangements.
- Better identify the costs and benefits of port automation projects.
- Stimulate social dialogue and co-operation between employers and workers on port automation.
- Address social costs of automation.
20 July 2021
- Support the adoption of clean vehicles with targeted policy action and by increasing transparency of their carbon footprint.
- Prioritise a transition to direct electrification of vehicles and renewable energy.
- Address challenges in resource efficiency and sustainable supply chains.
- Prepare for a transition from fuel duties by seizing opportunities arising from increased connectivity and accelerating enabling regulatory actions.
- Include infrastructure for easy access to clean energy and digital connectivity of road transport in Covid‑19 recovery packages.
- Prepare for the impact of the sustainable mobility transition on jobs, required skill sets and social equity.
- Accelerate the development of other low-carbon technologies.
5 July 2021
- Anchor the governance of Mobility as a Service in a strategic vision, applied to the whole functional urban area and informed by effective digital monitoring
- Seek greater understanding of how Mobility as a Service can add value for the user
- Guide Mobility as a Service where necessary to achieve agreed societal outcomes
- Adopt a flexible and light-handed regulatory approach towards Mobility as a Service platforms
- Adopt a predictable regulatory approach and allow for evolution
- Enhance public transport authorities’ and operators’ ability to negotiate terms of sale and re-use of tickets with Mobility as a Service providers
- Base data-sharing frameworks on the principle of “as open as possible, as closed as necessary”
- Build data portability into the MaaS ecosystem by default
- Consider common building blocks for sharing data
- Establish data-reporting requirements that are proportionate and targeted to outcomes
- Adopt complementary policies in other areas to ensure that the Mobility as a Service ecosystem contributes to desired policy outcomes
- Invest in the built environment and interchange facilities
- Skill sets will need to evolve to improve the public authority’s capacity to regulate and assess digital markets
10 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.
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.
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.
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.
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.
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.
19 March 2019
- Make use of smart technologies part of the response to congestion.
- Invest in improving junctions where these create bottlenecks.
- Use hard-shoulder running and ramp metering to get the most out of trunk road capacity.
- Use congestion pricing for active traffic management as part of integrated urban policies.
- Adopt barrier-free electronic tolling to remove bottlenecks.
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.
9 October 2018
- Consider integrating Shared Mobility services into the Greater Dublin Area transport system.
- Shared mobility services should be provided on a large-enough scale to reap full benefits.
- Use shared services as a feeder service for high-capacity public transport and the existing bus network.
- Use alternative fuels for shared mobility fleet to reduce emissions further.
- Target potential early adopters for Shared Mobility services in order to achieve scale of service.
- Set the regulatory framework for shared mobility services to generate maximum societal benefit.
25 September 2018
- Support the emergence of open standards in maritime logistics.
- Ensure interoperability between public and private systems for the exchange of logistics information.
- Support ports in creating co-ordination platforms and Single Windows.
- Ensure that digitalisation in the maritime logistics chain occurs in a competitive environment.
- Closely monitor cyber security vulnerabilities in maritime logistics.
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.
16 May 2018
- Public authorities must prepare for a much more networked and meshed world.
- Take into account changes in data science and technology when developing Mobility as a Service.
- Look beyond initial cryptocurrency applications of distributed ledger technologies.
- Governments should help deploy the building blocks that enable wider uptake of distributed ledgers.
- Apply blockchain technology now for slow and (relatively) small transport use cases; anticipate next generation distributed ledger technologies for “big and fast” applications to be deployed later.
- Governments should develop algorithmic code-based regulation to accompany the uptake of distributed ledger technologies.
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.
25 April 2018
- Design interchange stations to provide secure, uncongested conditions for transfer by the shortest routes possible.
- Provide adequate bike parking areas at stations and stops.
- Integrate ticketing and information systems as well as the physical transport infrastructure.
- Establish integrated urban transport plans in consultation with stakeholders and the public.
27 November 2017
- Consider integrating shared mobility services into Auckland’s existing transport offer.
- Use shared services as feeder service for train, ferry and bus rapid transit services to increase use of public transport.
- Ensure shared mobility services are provided in a large enough area of Auckland.
- Target shared mobility services for potential early adopters.
- Integrate land use and transport policies to limit urban sprawl and support the uptake of shared mobility services.
- Create a legal and regulatory framework focused on delivering societal benefits from uptake of shared mobility services.
- Make sharing of performance data a pre-requisite for licensing shared mobility services.
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.
30 May 2017
- Focus on improving overall mobility outcomes, not just on lowering public transport costs.
- Set a vision for urban transport that includes full integration of innovative mobility options.
- Ensure partnerships between public transport and innovative mobility operators to improve mobility for all people, including those with disabilities.
- Target low-performing or costly routes, and leverage government assets to guide convergence.
- Split regulatory oversight from operation of urban transport and adapt procurement practices.
- Mitigate innovation risk for new services through pilots and portfolio management.
- Incentivise age- and disability-friendly interactions in partnerships between public transport and ride-service operators.
30 May 2017
- Start to integrate shared mobility solutions into existing urban transport plans.
- Leverage shared mobility to increase use of existing high-capacity public transport.
- Deploy shared mobility services in a phased way that maximises public acceptance.
- Optimise overall efficiency while assuring a healthy level of competition in the market.
- Limit exclusive occupancy of shared vehicles to avoid the erosion of traffic reduction and CO2 emissions.
- Leverage the significant potential of improved territorial accessibility created by shared mobility.
- Make shared mobility services fully accessible to citizens with reduced mobility benefits.
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.
9 June 2016
- Steer policy development towards mobility services that allow efficient achievement of public policy objectives regarding the needs of consumers and society.
- Encourage innovative and more flexible regulation of for-hire transport services.
- Embrace data-led regulation to improve societal outcomes.
- Keep the regulatory framework of for-hire passenger transport services as simple and uniform as possible.
9 May 2016
- Focus policy regarding for-hire passenger transport on the needs of consumers and society.
- Keep the regulation framework of for-hire passenger transport services as simple and uniform as possible.
- Encourage innovative and more flexible regulation of for-hire transport services.
- Embrace data-led regulation to improve societal outcomes.
9 May 2016
- Shared mobility benefits depend on creating the right market conditions and operational frameworks.
- Shared mobility has significant environmental benefits, even with current engine technology.
- Shared mobility will radically change public transport and most traditional bus services will disappear.
- Public authorities must guide the deployment of shared mobility systems and anticipate their impacts.
30 April 2015
- Cost savings from bigger container ships are decreasing.
- The transport costs due to larger ships could be substantial.
- Supply chain risks related to mega-container ships are rising.
- Public policies need to better take account of this and act accordingly.
- Further increase of maximum container ship size would raise ransport costs.
31 March 2015
- Self-driving vehicles could change public transport as we currently know it.
- The potential impact of self-driving shared fleets on urban mobility is significant. It will be shaped by policy choices and deployment options.
- Active management is needed to lock in the benefits of freed space.
- Improvements in road safety are almost certain. Environmental benefits will depend on vehicle technology.
- New vehicle types and business models will be required.
- Public transport, taxi operations and urban transport governance will have to adapt.
- Mixing fleets of shared self-driving vehicles and privately-owned cars will not deliver the same benefits as a full TaxiBot/AutoVot fleet - but it still remains attractive.