2018 Self-driving safety report by General Motors
Imagine a world with no car crashes. Our self-driving vehicles aim to eliminate human driver error — the primary cause of 94 percent of...
Read MoreAutomated driving at Toyota: Vision, strategy and development
Toyota approaches automotive safety through three distinct pillars: people, vehicles, and the traffic environment. Under this framework,...
Read MoreAutonomous driving in Germany – how to convince customers
Deloitte, January 1, 2018 Technologically, the path towards autonomous driving seems to be largely mapped out. But will customers accept...
Read More2018 Self-driving safety report
General Motors, January 1, 2018 Our Cruise AV has the potential to provide a level of safety far beyond the capabilities of humans. As our...
Read MoreHow autonomous vehicles could relieve or worsen traffic congestion
With the number of cars on the road globally forecast to double from 1.1 billion to 2 billion in the next 15 years, traffic congestion...
Read MoreAutomotive ethernet
NXP Semiconductor, January 1, 2018 Automotive Ethernet does more than support mobile connectivity and complex, high-bandwidth automotive...
Read MoreAutomotive gateway: a key component to securing the connected car
NXP Semiconductors, January 1, 2018 Building vehicles with gateways – electronic devices that enable secure and reliable communications...
Read MoreC-ITS: Three observations on LTE-V2X and ETSI ITS-G5—A comparison
NXP Semiconductors, January 1, 2018 In this document, we detail three observations on LTE-V2X, a proposed vehicle-to-vehicle communication...
Read MoreReinventing the wheel: The future of automotive
DBS Business Class, January 1, 2018 Whether it is the emergence of driverless cars or taxi hailing apps, there is a sense that the future...
Read MoreAnalyzing the dynamic ride-sharing potential for shared autonomous vehicle fleets using cellpohne data from Orlando, Florida
University of Texas, January 1, 2018 Transportation network companies (TNCs) are regularly demonstrating the economic and operational...
Read MoreRemoving regulatory barriers for vehicles with automated driving systems
USDOT, January 1, 2018 NHTSA seeks public comments to identify any regulatory barriers in the existing Federal Motor Vehicle Safety...
Read MoreThe impact of an in-vehicle display on glance distribution in partially automated driving in an on-road experiment
One of the major challenges of designing an HMI for partially automated vehicles is the trade-off between a sufficient level of system...
Read MoreTowards a quantitative method to analyze the long-term innovation diffusion of automated vehicles technology using system dynamics
This paper presents a novel simulation model that shows the dynamic and complex nature of the innovation system of vehicle automation in a...
Read MorePreparing Australia for automated vehicles
Department of Infrastructure and Regional Development, Australia, January 1, 2018 Vehicle automation means that driving tasks like...
Read MoreAutomated vehicle domestic developments: A snapshot
Senate Fiscal Agency, December 31, 2017 On November 21, 2016, Governor Rick Snyder, U.S. Senators Gary Peters and Debbie Stabenow, and...
Read MoreAutonomous cars: Radar, lidar, stereo cameras
Role of cameras, radars and Lidar in autonomous cars....
Read MoreUK lacks infrastructure for self-driving electric cars, says Axa
A shortage of charging points and strain on energy supplies are now the main stumbling blocks to the rise of driverless electric cars,...
Read MoreDeep learning for self-driving car
Presentation by Chenyi Chen, Princeton Autonomous Vehicle Engineering....
Read MoreForget the sci-fi and embrace the engineering
BearingPoint Institute, December 31, 2017 Many auto-manufacturers have already made extensive use of AI and invested in machine learning...
Read MoreSociety in the loop artificial intelligence: Autonomous vehicles and beyond
Deloitte, December 31, 2017 Deloitte recently hosted a webinar about the societal implications of artificial intelligence (AI), featuring...
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