Integrated Vehicle Based Safety Systems (57 unique lessons found)

Further research, testing, and safety features should be developed to help drivers manage the transition from automated to manual control of a vehicle.
A detailed analysis of California Department of Motor Vehicle crash records examines the most frequent types of automated vehicle crashes.

Current generation pedestrian crash avoidance systems may not be effective at night or during right-turns.
An independent evaluation of automatic emergency braking systems with pedestrian detection.

Cybersecurity, reliability, and shared cars are the top public concerns regarding Autonomous Vehicles in Austria.
Vienna University of Economics and Business researchers conducted a large-scale online survey.

Survey data show that vehicle performance data displayed to passengers on board automated shuttles can ease their sense of safety.
A survey was conducted to assess rider perception of safety onboard automated shuttles in Berlin, Germany.

Current generation adaptive cruise control systems do not prevent phantom traffic jams.
University researchers tested adaptive cruise control (ACC) systems on a rural roadway in Arizona.

Cat's eye retro-reflectors extend the range of lane detection when using automated vehicle camera technology at night, especially in inclement weather.
A presentation on automated vehicle camera technology and performance considerations for Advanced Driver Assist Systems (ADAS) applications.

The project team of an Automated Shuttle Bus piloted in Minnesota learned that the bus required additional infrastructure at MnROAD and snow and ice removal for future operations.
A demonstration project in Minnesota provided a good first step in understanding the impacts of winter climate on automated technology.

USDOT Identifies Effective Ownership and Governance Model Areas of Interest for a Full-Scale SCMS deployment for Connected Vehicles.
USDOT-sponsored Security Credential Management System (SCMS) Deployment Governance and Ownership Workshop analyzes what it will take to establish a full-scale SCMS and governance entity to enable widespread connected vehicle deployment.

AV testing on Boston’s streets revealed five key success factors relevant to other cities looking to pilot AVs as they prepare for the mobility system of the future.
Study offers insight and guidance to help both policy-makers and mobility providers reshape urban mobility systems into new versions that are safer, cleaner and more inclusive.

Center for Automotive Research offers municipalities long-term recommendations for creating on-road connected and automated vehicle test environments.
Report discusses potential approaches to attract CAV testing activities as well as potential solutions to regional mobility challenges and funding opportunities to pursue.

Center for Automotive Research offers municipalities short-term recommendations for indicating their openness to the testing and validation of connected and automated vehicles.
Report discusses potential approaches to attract CAV testing activities to your region as well as potential solutions to regional mobility challenges and funding opportunities to pursue.

Best practices to support the arrival of smart mobility for non-urban communities.
Ohio's 33 Smart Mobility Corridor demonstrates how smaller cities can leverage intelligent transportation technology to improve congestion, safety, and employment access.

Truck Platooning Study Finds that there are limited federal policy barriers to implementation, though state level barriers remain.
New York State Department of Transportation commissioned truck platooning state of practice in January of 2018.

RSU triangulation techniques and inertial GPS solutions can improve geolocation accuracy for connected vehicles operating in dense urban environments.
New York City CV Pilot considered location correction solutions to address GPS positioning challenges associated with the cities "urban canyons"

Perform early real-world testing of connected vehicle technology with actual infrastructure in place to verify end-to-end system/application performance
U.S. Department of Transportation Free Public Webinar Series on the Connected Vehicle Pilot Sites System Design Process

NCHRP report presents and evaluates 18 different strategies for agencies to encourage CAV adoption.
The report sorts strategies into four different categories and discusses the strengths, weaknesses, and likely outcomes of each.

Industry Experts Offer Recommendations for Enterprise-wide Security Controls for the Connected Vehicle Environment.
Report provides a series of lessons learned for developing security systems around Connected Vehicles.

Validate the performance of dedicated short-range communication (DSRC) radios for cooperative adaptive cruise control (CACC) applications by testing receiver signal strength, signal delay, and packet error rates.
USDOT developed an evaluation framework to validate the performance of vehicle-to-vehicle communications for cooperative adaptive cruise control (CACC) systems.

Integrate stop and caution warning signage into heads-up displays to help older drivers brake sooner for potential hazards.
Older drivers are over-represented in urban crashes, a German study found that in-vehicle driver warning systems could help with this problem.

Include pedestrian collision warnings on in-vehicle heads-up displays to reduce reaction time, maximum deceleration, and, in some cases, stopping distance and braking time.
Study performed with sixteen drivers with actual pedestrians in a parking lot environment evaluated a display showing the word “BRAKE” and a virtual shadow that changes size as the vehicle gets closers to the pedestrian.

Maintain active communications regardless of system states, faults, or emergency kill switches to ensure the safety and function of cooperative adaptive cruise control truck platoons.
Developing an operational concept to manage truck cooperative adaptive cruise control (CACC) systems on I-710 in California.

Design blind spot warning systems to minimize false alarms.
Promising technologies for commercial motor vehicles (CMVs) in North Carolina.

Understand the Impacts on Public Sector Infrastructure due to Connected Vehicle Deployments
A survey of lessons learned through deployment of V2I test beds

Deploy side object detection systems for transit buses that have proven effectiveness in transit operating environments and been accepted by transit operators.
Experiences from the installation of Side Object Detection Systems on transit buses in Ohio, Utah and Washington, D.C.

Keep technical solutions open-ended in the early stages of an ITS research project, and follow a research oriented contract vehicle.
Experience from the New York Advanced Traveler Information System (ATIS) Implementation and Integration Project

Evaluate the safety potential of the of Adaptive Driver Assistance (ADA) systems and assess driver behavior associated with these technologies
Dutch researchers evaluated Advanced Driver Assistance (ADA) technologies to improve driver behavior and the safety of vehicles on through-roads and at intersections

Incorporate proven technologies and false alarm reduction strategies in the design of future Automotive Collision Avoidance Systems (ACAS).
Experience from a Field Operational Test (FOT) in Michigan to evaluate an Automotive Rear-End Collision Avoidance System.

Include driver age, time of day, and intersection characteristics in the design of red light violation algorithms and warning systems, and their field operational tests.
Knowledge gained from an analysis of four years of red light violation data gathered from 11 signalized intersections in Sacramento, California

Ensure that ITS field operations tests use technologies and applications that are proven to be deployment ready.
Experience with a Field Operational Test for the Intelligent Vehicle Initiative in Minnesota

Maximize Field Operational Test (FOT) success by creating a sound experimental design and data acquisition plan.
Experience from a Field Operational Test (FOT) in Michigan to evaluate a Roll Advisor and Control (RA&C) system for commercial vehicles.