Subaru Corporation is using tools developed by Pittsburgh-based ANSYS, Inc. to create control systems that deliver unrivaled safety and reliability for their next-generation hybrid electric vehicles (HEVs). The automotive OEM is using ANSYS SCADE to automate and expedite the precise design and validation of embedded software in the electronic control units (ECUs) for the company’s new e-Boxer system.
The Center for Automotive Research (CAR) and Velodyne Lidar, Inc. have joined the International Alliance for Mobility Testing & Standardization (IAMTS). Alongside SAE International, the two organizations will serve as as core members of IAMT’s Technical Leadership Committee.
Kodiak Robotics, Inc. has begun making commercial truck deliveries in Texas using its new self-driving long-haul truck platform with safety drivers behind the wheel. The Mountain View, California-based self-driving technology startup is just 16 months old.
Capital software provides Mazda with extensive simulation and verification functionalities which can reduce error and cost when integrating systems across multiple, increasingly complex vehicle platforms.
Bye Aerospace is looking at OXIS Energy Ltd.’s lithium-sulfur (Li-S) battery cell technology to power its future aircraft and air-taxi or “urban air mobility” (UAM) designs. The companies are launching the initial phase of an advanced, high-voltage, lightweight Li-S battery pack development program for aerospace applications.
The United State Marine Corps first infantry battalion (the 3rd Battalion, 8th Marines, and 2nd Marine Division) is the first to receive the Joint Light Tactical Vehicle, or JLTV – a light tactical vehicle developed as the Light Combat Tactical All-Terrain Vehicle (L-ATV) by Oshkosh Corporation.
Rolls-Royce in London is unveiling a concept electric vertical take-off and landing (EVTOL) vehicle, including civil and military variants, that could take to the skies as soon as the early 2020s. The flexible design – able to be adapted for a variety of applications, including personal transport, public transport, logistics, and defense – is based upon technologies currently in use and under development.
Counterfeit parts prevention is integral to an effective obsolescence management plan, and the focus of anti-counterfeit standards – including Counterfeit Avoidance Standard (AS5553) and Counterfeit Detection Standard (AS6081) – from SAE International in Warrendale, Pa. SAE International officials are bringing the anti-counterfeit discussion and sharing best practices, which include adherence to critical standards, to the Future of Obsolescence Management (FOM) event on October 10 and 11 in Washington.
In reviewing Obama-era vehicle-emissions standards dictated aggressive fuel-economy standards for the years 2022-2025, the U.S. EPA said that in light of current market conditions and consumer preferences, the regulations should be revised.
Established on July 1, the ECLAIR consortium will focus on reducing greenhouse gas emissions and other negative environmental impacts of the aerospace industry by developing innovative electric technologies.
Equipment developers are moving quickly to ensure that military users will have long-term access to boards and modules that provide higher performance, easy replacement, and reduced costs. Board and system designers adopting new technologies are standardizing interconnection layouts to ensure that boards designed by various suppliers can be used to upgrade systems as technology advances.
Just down the road from SAE International’s headquarters in Warrendale, Pennsylvania, Mark Sokalski has been quietly working out how to maximize piston-driven engine efficiency – with an internal combustion engine mechanism that doesn’t follow the norm.