Transportation infrastructure systems serve as the platform for emerging automated vehicle (AV) technologies and, in their current condition, limit the reliability of these new vehicles. Road conditions, lane markings, and signs provide essential guidance and information to both human- and machine-controlled vehicles; however, their condition and placement vary depending on local conditions, practices, and funding. Irregular sign placements and road markings confuse both human and machine drivers and can create unsafe conditions. Still, in the short term, they are the easiest factor to adjust regarding successful AV deployment. Automated Vehicles and Infrastructure Enablers: Pavement Markings and Signsexamines the issues associated with pavement markings and signs in the context of advanced automation. The report focuses on unresolved issues between the AV industry and infrastructure owners and operators and provides opportunities and recommendations for the AV industry and the larger transportation community to address reliability issues. Click here to access The Mobility Frontier: Accelerating Infrastructure Readiness for Autonomy Click here to access the full SAE EDGETM Research Report portfolio. https://doi.org/10.4271/EPR2022011
Curbs are as key to automated driving system (ADS) navigation, operation, and safety as they are for human driven vehicles. The design, maintenance, and management of curbs and adjacent infrastructure can make the difference in whether ADS vehicles can pick up and deliver passengers and goods safely, efficiently, and effectively. Curbs may also be key to integrating ADS services with other forms of active and human-driven transportation. Benefits from accessibility, reduced emissions, and strong supply chains require that ADS vehicles be able to dock curbside in a manner that does not disrupt traffic or impede safe movement of people walking, biking, or using a mobility device. Automated Vehicles and Infrastructure Enablers: Curbs and Curbside Management addresses considerations regarding the curb with respect to pick up and drops for passengers and freight, as well as managing and designing both sides of the curb with respect to automated vehicles and other types of shared mobility. These issues are examined in the context of the US and emerging practices in the UK, Europe, and Asia. Click here to access The Mobility Frontier: Accelerating Infrastructure Readiness for Autonomy Click here to access the full SAE EDGETM Research Report portfolio. https://doi.org/10.4271/EPR2024005
Despite advances in automated driving systems and their potential help many mobility users who cannot drive, significant barriers remain regarding accessibility for emerging technology vehicles. These barriers exist in the design of vehicles and affect boarding, accessing pick-up and drop-off points, and traveling to a vehicle location. The accessibility of automated mobility services hinges on an interdependent set of vehicle design and infrastructure issues, both digital and physical. Automated Vehicles and Infrastructure Enablers: Accessibility highlights the development status of accessible vehicles and services, considers approaches to vehicle design that allow for increased accessibility, and examines the ways in which infrastructure can open the door to automated mobility for disabled customers. Use cases for accessible automated mobility service include local bus, paratransit, and robotaxis. Click here to access The Mobility Frontier: Accelerating Infrastructure Readiness for Autonomy Click here to access the full SAE EDGETM Research Report portfolio. https://doi.org/10.4271/EPR2022024
While it will likely be many years before fully automated busses and trains are readily available for transportation across all use cases, technological advancements are moving faster than legacy routing, policy, and infrastructure decisions can be planned. The increased deployment of automated vehicles (AVs) for transit presents a variety of health, economic, and accessibility benefits, including the potential to save lives by preventing accidents caused by driver error. Infrastructure Enablers and Automated Vehicles: Transit focuses on the unresolved issues in transit-specific AV technology. As higher levels of automation are reached, public infrastructure needs to be in place to unlock the full intended benefits. To effectively function at a high level of automation, transit AVs require the integration of sensor data with complex decision-making algorithms and the ability to quickly respond to changing roadway conditions. Both physical and digital infrastructure are necessary to help enable automated transit operations. Click here to access The Mobility Frontier: Accelerating Infrastructure Readiness for Autonomy Click here to access the full SAE EDGETM Research Report portfolio. https://doi.org/10.4271/EPR2022021
While weaponizing automated vehicles (AVs) seems unlikely, cybersecurity breaches may disrupt automated driving systems’ navigation, operation, and safety—especially with the proliferation of vehicle-to-everything (V2X) technologies. The design, maintenance, and management of digital infrastructure, including cloud computing, V2X, and communications, can make the difference in whether AVs can operate and gain consumer and regulator confidence more broadly. Effective cybersecurity standards, physical and digital security practices, and well-thought-out design can provide a layered approach to avoiding and mitigating cyber breaches for advanced driver assistance systems and AVs alike. Addressing cybersecurity may be key to unlocking benefits in safety, reduced emissions, operations, and navigation that rely on external communication with the vehicle. Automated Vehicles and Infrastructure Enablers: Cybersecurity focuses on considerations regarding cybersecurity and AVs from the perspective of V2X infrastructure, including electric charging infrastructure. These issues are examined in the context of initiatives in the US at all levels of government and regulatory frameworks in the UK, Europe, and Asia. Click here to access the full SAE EDGETM Research Report portfolio. https://doi.org/10.4271/EPR2024018
Highly automated vehicles are being developed alongside a variety of novel, disruptive technologies and a global focus on reducing greenhouse gas emissions from transportation. ADS can reduce emissions and improve fuel efficiency for vehicles powered by traditional internal combustion engines. Electric motors can further raise the bar for both those areas, especially if the power used to charge an electric vehicle is generated from renewable sources. However, implementing electrified AVs requires a viable charging infrastructure. Automated Vehicles and Infrastructure Enablers: Electrification covers issues concerning infrastructure and the electrification of all forms of vehicles: heavy-duty vehicles like trucks and buses, light-duty vehicles like cars and vans, micro-mobility, and new form factors. Click here to access The Mobility Frontier: Accelerating Infrastructure Readiness for Autonomy Click here to access the full SAE EDGETM Research Report portfolio. https://doi.org/10.4271/EPR2022029
While automated trucking developers have established regular commercial shipments, operations and testing remain limited largely to limited-access highways like interstates. This infrastructure provides a platform or operating environment that is highly structured, with generally good road conditions and visible lane markings. To date, these deployments have not included routine movements from hub to hub, whether on or off these limited-access facilities. Benefits such as safety, fuel efficiency, staffing for long-haul trips, and a strengthened supply chain turn enable broader deployment which can enable movement from one transportation system to another. Infrastructure Enablers and Automated Vehicles: Trucking focuses on unresolved issues between the automated vehicle industry and infrastructure owners and operators that stand in the way of using infrastructure—both physical and digital—to extend use cases for automated trucking to more operational design domains (ODDs). The report also examines opportunities and recommendations related the integration of automated trucking across transportation networks and the supply chain. The topics include road conditions and lane marking visibility, work zone navigation, transfer hubs, and facility design, as well as connected and electric charging infrastructure. Click here to access The Mobility Frontier: Accelerating Infrastructure Readiness for Autonomy Click here to access the full SAE EDGETM Research Report portfolio. https://doi.org/10.4271/EPR2022017
Do connected vehicle (CV) technologies encourage or dampen progress toward widespread deployment of automated vehicles? Would digital infrastructure components be a better investment for safety, mobility, and the environment? Can CVs, coupled with smart infrastructure, provide an effective pathway to further automation? Highly automated vehicles are being developed (albeit slower than predicted) alongside varied, disruptive connected vehicle technology. Automated Vehicles and Infrastructure Enablers: Connectivity looks at the status of CV technology, examines the concerns of automated driving system (ADS) developers and infrastructure owners and operators (IOOs) in relying on connected infrastructure, and assesses lessons learned from the growth of CV applications and improved vehicle-based technology. IOOs and ADS developers agree that cost, communications, interoperability, cybersecurity, operation, maintenance, and other issues undercut efforts to deploy a comprehensive connected infrastructure. Click here to access The Mobility Frontier: Accelerating Infrastructure Readiness for Autonomy Click here to access the full SAE EDGETM Research Report portfolio. https://doi.org/10.4271/EPR2023013
Manufacturers and developers of automated vehicles (AVs) often maintain that no new infrastructure enablers are needed to achieve full AV deployment aside from existing infrastructure investments (e.g., connected traffic signals, designated stops, booking software, mobile applications, separated lanes). These groups hold that a state-of-good-repair and clean lane markings are sufficient; however, much of the US receives poor grades when it comes to these features. What do infrastructure owners and operators need to know about what constitutes effective lane markings or what to prioritize in terms of safety and mobility? How do policy considerations effect these choices? Automated Vehicles and Infrastructure Enablers the first in a series on AVs and infrastructure—considers ways in which infrastructure can speed or delay deployment, mitigate hazards, and capture benefits related to AV roll-out. Some of these benefits include accessibility, safety, reduced climate impacts, and integrated supply chain logistics. Click here to access The Mobility Frontier: Accelerating Infrastructure Readiness for Autonomy Click here to access the full SAE EDGETM Research Report portfolio. https://doi.org/10.4271/EPR2022008
Transportation infrastructure systems serve as the platform for emerging automated vehicle (AV) technologies and, in their current condition, limit the reliability of these new vehicles. Road conditions, lane markings, and signs provide essential guidance and information to both human- and machine-controlled vehicles; however, their condition and placement vary depending on local conditions, practices, and funding. Irregular sign placements and road markings confuse both human and machine drivers and can create unsafe conditions. Still, in the short term, they are the easiest factor to adjust regarding successful AV deployment. Automated Vehicles and Infrastructure Enablers: Pavement Markings and Signsexamines the issues associated with pavement markings and signs in the context of advanced automation. The report focuses on unresolved issues between the AV industry and infrastructure owners and operators and provides opportunities and recommendations for the AV industry and the larger transportation community to address reliability issues. Click here to access The Mobility Frontier: Accelerating Infrastructure Readiness for Autonomy Click here to access the full SAE EDGETM Research Report portfolio. https://doi.org/10.4271/EPR2022011
Like the shift from horse drawn carriages to cars, the emergence of delivery robots marks a shift from driverless vehicles to automated logistics vehicles where form follows function. On paper, the business cases are compelling and the use cases seemingly unbounded. Vehicles may be conventional in the form of trucks and industrial equipment of all types, or as purpose-built vehicles on with widely varying cargo capacities. Proof of concepts and pilots are moving forward on roadways, sidewalks, and doorsteps, as well as in low altitude airways, ports, and even inside of buildings. Automated Vehicles and Infrastructure Enablers: Logistics and Delivery addresses the current state of the industry, benefits of ADVs, challenges, and expanding use. It also touches on opportunities to design, modify, and expand infrastructure—both digital and physical—to supports safe and equitable usage. The report draws on experience and research on these topics in North America, the United Kingdom, the European Union, Australia, and the United Arab Emirates, among others. Click here to access The Mobility Frontier: Accelerating Infrastructure Readiness for Autonomy Click here to access the full SAE EDGETM Research Report portfolio. https://doi.org/10.4271/EPR2023021
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