GPS World

Tag: high definition

  • BlackBerry and Baidu partner on connected car technology

    BlackBerry Limited and Baidu Inc. are collaborating to accelerate the deployment of connected and autonomous vehicle technology for automotive OEMs and suppliers worldwide.

    The companies have signed a statement of intent to make BlackBerry QNX‘s ISO26262 ASIL-D certified safety operating system (OS) the foundation for Baidu’s Apollo autonomous driving open platform.

    Also, BlackBerry and Baidu will work together to integrate Baidu’s CarLife, the leading smartphone integration software for connected cars in China, as well as its conversational artificial intelligence system DuerOS, and high-definition maps to run on the BlackBerry QNX Car (Infotainment) Platform.

    Blackberry QNX will host demonstrations of its foundational software for autonomous and connected vehicles at the Consumer Electronics Show (CES) 2018, at North Hall Booth 7523. The show takes place Jan. 9-12 in Las Vegas.

    “BlackBerry QNX has established itself as the OS platform for safety-certified production-based systems,” said Li Zhenyu, general manager of Intelligent Driving Group, Baidu. “We aim to provide automakers with a clear and fast path to fully autonomous vehicle production, with safety and security as top priorities. By integrating the BlackBerry QNX OS with the Apollo platform, we will enable carmakers to leap from prototype to production systems. Together, we will work toward a technological and commercial ecosystem for autonomous driving, intelligent connectivity and intelligent traffic systems.”

    “Joining forces with Baidu will enable us to explore integration opportunities for multiple vehicle subsystems including ADAS, infotainment, gateways and cloud services,” said John Wall, senior vice president and GM of BlackBerry QNX. “Baidu has made tremendous strides in artificial intelligence and deep learning. These advancements paired with their high-definition maps and BlackBerry’s safety-critical embedded software and expertise in security will be crucial ingredients for autonomous vehicles.”

    Announced by Baidu in April 2017, Apollo is an open platform that provides a comprehensive, secure, and reliable solution that consists of cloud services, an open software stack and reference hardware and vehicle platforms. It supports all major features and functions of an autonomous vehicle.

    More than 70 global partners are involved with Apollo, including OEMs, Tier 1 suppliers, developer platforms and technology start-ups. The project was named after the historic lunar landing program to illustrate its scale and complexity. BlackBerry provides OEMs with cybersecurity technology to protect and mitigate, including hardware, software, applications and end-to-end systems from cyberattacks.

    BlackBerry’s pedigree in security and continued innovation has led to recent automotive design wins with Delphi, Denso, Qualcomm, Visteon and others.

  • Qualcomm platform powers TomTom’s plans to crowdsource mapping data for autonomous driving

    Qualcomm Technologies Inc., a subsidiary of Qualcomm Incorporated, is working with TomTom on using the Qualcomm Drive Data Platform for high-definition (HD) map crowdsourcing for autonomous driving.

    Qualcomm Drive Data Platform collects and analyzes data from different vehicle sensors, supporting smarter vehicles to determine their location, monitor and learn driving patterns, perceive their surroundings, and share this perception with the rest of the world reliably and accurately.

    TomTom’s HD Map, including RoadDNA, is a highly accurate, digital map-based product that assists automated vehicles to precisely locate themselves on the road and help determine which way to maneuver, even when traveling at high speeds.

    Traditional development of maps requires deploying dedicated fleets of vehicles equipped with professional-grade sensors to collect location, raw imagery, lidar and other data, which is then transferred, stored and processed in data centers. Now that cars are increasingly connected and equipped with a range of sensors, new and complimentary approaches become possible.

    Using the precise positioning, on-device machine learning, heterogeneous compute and connectivity capabilities of the Qualcomm Drive Data Platform, which features the Qualcomm Snapdragon 820Am automotive processor, TomTom and Qualcomm Technologies aim to facilitate adding an improved, scalable and cost-efficient crowdsourcing approach to the mix of sources for HD mapmaking.

    The new concept is designed to allow massive numbers of connected cars to see and understand their environment, traffic and road conditions, and support real-time input for map and road condition updates.

    “Feature-rich, highly accurate and frequently updated HD maps are critical to support some of the most advanced applications envisioned in the automotive industry, especially for autonomous driving,” said Willem Strijbosch, head of autonomous driving, TomTom. “We are building the cloud-based platform to make and maintain HD maps using a range of input sources, including crowdsourced data from swarms of intelligent connected vehicles. We’re excited to explore the connectivity and compute capabilities of the Qualcomm Drive Data Platform to help map the world for the future of driving.”

    “Qualcomm Technologies is demonstrating today that an affordable and easy-to-integrate mapping solution for autonomous vehicles is realizable,” said Nakul Duggal, vice president, product management, Qualcomm Technologies, Inc. “The Qualcomm Drive Data Platform is designed to integrate key technologies into a cost-effective edge compute solution required to support safer, highly connected and smarter transportation, and we are pleased to offer this technology for HD Map providers such as TomTom as well as automakers, shared mobility service providers and automotive industry at large.”

    For more information about the Qualcomm Drive Data Platform, visit the Qualcomm booth at Mobile World Congress in Barcelona, Feb. 27March 2, Hall 3, Stand 3E10, or go to www.qualcomm.com/automotive.