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Training / Education

Vehicle Dynamics for Passenger Cars and Light Trucks

2024-05-07

This course will present an introduction to vehicle dynamics from a vehicle system perspective. The theory and applications are associated with the interaction and performance balance between the powertrain, brakes, steering, suspensions and wheel and tire vehicle subsystems.  The role that vehicle dynamics can and should play in effective automotive chassis development and the information and technology flow from vehicle system to subsystem to piece-part is integrated into the presentation. Governing equations of motion are developed and solved for both steady and transient conditions.

Training / Education

Vehicle Architecture for Hybrid, Electric, Automated, and Shared Vehicle Design

2024-09-10

Electric and hybrid vehicle engineers and designers are faced with the important issue of how to adequately configure required powertrain system components to achieve needed performance, occupant accommodation, and operational objectives. This course enables participants to fully comprehend vehicle architectural/configurational design requirements to enable efficient structural design, effective packaging of required components, and efficient vehicle performance for shared and autonomous operation. The importance of integrating these design requirements with specific vehicle user needs and expectations will be emphasized.

Training / Education

Understanding Energy Storage: The Battery Revolution

Anytime

This course discusses energy storage technologies, such as batteries, and how they affect the future of the transportation and power sectors. Specifically, it will explore why energy storage is important and how the battery revolution is already underway. The course will also examine the benefits of using battery energy storage for industrial products – underground mining – and mobility. The course mostly focuses on lithium-ion batteries.

Training / Education

Tire and Wheel Safety Issues

One of the most important safety critical components on cars, trucks, and aircraft is the pneumatic tire. Vehicle tires primarily control stopping distances on wet and dry roads or runways and strongly influence over-steer/under-steer behavior in handling maneuvers of cars and trucks. The inflated tire-wheel assembly also acts as a pressure vessel that releases a large amount of energy when catastrophically deflated. The tire can also serve as a fulcrum, both directly and indirectly, in contributing to vehicle rollover. This course covers these facets of tire safety phenomena.

Training / Education

Theories and Methods of Future HMI Design for Automobiles

This course is offered in China only and presented in Mandarin Chinese. HMI design is an Interdisciplinary, which is based on human cognitive psychology and combines humanities, sociology, aesthetics, information science and other disciplines. While automotive technologies can be applied regardless of regions, HMI must be localized, as it is closely related to regional culture, people's living habits and characteristics. At the same time, HMI design has its own complete theoretical system, research and design methods and testing methods, instead of relying on experience.

Training / Education

The Principles and Applications of Powertrain Controls for the New Energy Vehicles

课程概述 Powertrain controls for NEVs are one of the most complex and highly confidential areas of NEV research and development.  This two-day course takes the seemingly complicated field of NEV powertrain controls and summarizes it into a few basic principles.  The latest and most popular NEV powertrains are also reviewed to illustrate these principles and the controls strategies used.  对于新能源汽车来说，动力总成控制一直以来都是最复杂的和高度机密的领域之一。在这两天的课程中，我们将把看似复杂的动力总成控制系统总结出几条基本规则，同时，通过对当今其他车型动力控制系统的案例分析，来把这些规则和原理进行融会贯通。

Training / Education

The Nature of Automated Vehicle Safety Will SAE Level 5 Ever Be Achieved?

The automated vehicle industry has been busy designing, developing, and deploying several self driving vehicles and services in the last few years. However, much of the outcomes and the overall outlook of the vehicle and services, such as robotaxis, are not great. Customers and stakeholders complain that the level of automation is low, mostly SAE Levels 1, 2, and very little of Level 3. It appears that Level 4 is far out in the horizon and many wonder if Level 5 is actually achievable.

Training / Education

The Fundamentals of Vehicle Dynamics

Anytime

This eLearning course featuring vehicle dynamics expert and best-selling author, Thomas D. Gillespie, provides a broad overview of vehicle performance, including engineering analyses and formulas that will allow participants to calculate useful performance metrics. The goal of this course is to provide participants with the tools to predict the performance of a car or truck in accelerating/braking, ride, and handling/rollover. In the process, participants come to understand the basic mechanisms and engineering principles that govern steering and suspension system design, as well as develop familiarity with the terminology.

Training / Education

Smart Mobility in Smart Cities

This course enables transportation professionals to optimize smart mobility for maximum return within smart cities. It offers a structured introduction to the subjects and makes use of real-life examples, local government, technology solution providers, and consulting. The course integrates insights and understandings related to the best use of technology, best practices, lessons learned, challenges, and opportunities. 

Training / Education

Product Development for AV and EV Reliability

According to NHTSA, there were 932 vehicle recalls in the United States in 2022, affecting approximately 31 million vehicles; 39 electric vehicle recalls affecting more than 1.3 million vehicles, and 56 ADAS recalls affecting more than 4.7 million vehicles. Furthermore, Warranty Week reports that Worldwide Auto Manufacturers allocated a total of $54.7 billion for future warranty repairs or $670 per vehicle sold in 2022. 2023 Consumer Report indicates that Electrical Vehicles have 79% more reliability issues than ICE vehicles.

Training / Education

Powertrain Product Development for Electrified Vehicles

This course is offered in China only and presented in Mandarin Chinese. The course materials are bilingual (English and Chinese). Transmission and driveline products for new energy vehicles are different in many aspects from their counterparts in traditional vehicles. Participants will have a chance to develop in-depth, practical, and hands-on knowledge regarding system configuration, key subsystems and components design, system control, testing, design verification, and so forth. Common problems such as reliability, durability, NVH as well as related technology trends will be addressed from an engineer's viewpoint.

Training / Education

Powertrain Architecture, Controls, and Energy Management Systems of EV and HEV

This course is offered in China only and presented in Mandarin Chinese. The course materials are bilingual (English and Chinese). Developing environmentally cleaner and more fuel efficient vehicles is transforming the automotive industry worldwide, particularly in China with its emphasis on new energy vehicles. There are many engineering challenges that must be addressed in designing effective new energy vehicles. The technical knowledge required to understand and make the right decisions with regard to powertrain architecture, powertrain controls, and energy management strategies is critical to success in this market.

Training / Education

Overview of the Role of Connected and Autonomous Vehicles in Smart Cities

There is been tremendous progress in the application of technology and artificial intelligence to connected and autonomous vehicles. At the same time, there have been considerable advances in data science and data analysis that allows large data sets to be managed for results. This course introduces big data and analytics, focusing on how these will be applied to data generated by autonomous and connected vehicles. These technologies will be explained within the context of a smart city.

Training / Education

Nickel Metal Hydride (NiMH) Hybrid Battery Systems

Anytime

This course from SAE International training partner, FutureTech*, is a MUST for everyone servicing hybrid vehicles. Nickel metal hydride (NiMH) battery systems continue primary battery technology in hybrid vehicles and have been since the 2000 model year.  If a technical professional doesn't know the fundamentals of NiMH operation it is impossible for them to perform a solid diagnosis or repair.  This course will concentrate on the NiMH technology, how it performs as it ages, how it can effect vehicle performance and fuel economy, and how to test it by using a scan tool.

Training / Education

Lithium Ion Family Battery Systems

Anytime

The lithium Ion family of technologies are the primary technology for plug-in and electric vehicles but, it is also being found in hybrid products. Each family can have a different discharging voltage characteristic which effects vehicle and Scan Tool diagnostics.  This five-part series will provide the necessary information on all of the lithium technologies, cell balancing systems, failure modes, diagnostics, and how these battery packs can be repaired instead of replaced.

Training / Education

LIDAR for ADAS and Autonomous Sensing

Advanced Driver Assist System (ADAS) and autonomous vehicle technologies have disrupted the traditional automotive industry with potential to increase safety and optimize the cost of car ownership. Light detection and ranging (LIDAR) sensing, a sensing method that detects objects and maps their distances, is seeing rapid growth and adoption in the industry. However, the sensor requirements and system architecture options continue to evolve. This course will provide the foundation to build LIDAR technologies in automotive applications.

Training / Education

LIDAR and Infrared Cameras for ADAS and Autonomous Sensing

This course examines ADAS and autonomous vehicle technologies that offer the potential to increase safety while attempting to optimize the cost of car ownership. LIDAR (light detection ranging) and Infrared camera sensing are seeing a rapid growth and adoption in the industry. However, the sensor requirements and system architecture options continue to evolve almost every six months. This course will provide the foundation to build on for these two technologies in automotive applications. It will include a demonstration model for LIDAR and Infrared camera.

Training / Education

Introduction to Hybrid and Electric Vehicle Battery Systems

2024-06-04

This course provides an introduction to the concepts of hybrid vehicles, their missions and role of batteries to meet requirements. Battery topics including limitations, trends in hybrid development, customer wants and needs, battery system development timelines, comparison of electrochemistries and safety will be examined. Current offerings, cost factors, pack design considerations and testing will also be reviewed. Participants will perform a battery pack analysis exercise using a real world application.

Training / Education

Introduction to Hybrid Electric Vehicle Systems

Anytime

Hybrid Electric Vehicle (HEV) models currently populating the vehicle electrification landscape indicate their dominance in the market. Although electric, plug-in, and fuel cell vehicles are making inroads in the market, the HEV stands as the market leader in adoption, and manufacturers have no plans on diminishing HEV production. HEV powertrain operation is totally different from the traditional vehicle. It is essential to understand the various operating modes and how failure modes in the hybrid system affect its operation.

Training / Education

Introduction to Highly Automated Vehicles

2024-06-10

This course highlights the technologies enabling ADAS and how they integrate with existing passive occupant crash protection systems, how ADAS functions perceive the world, make decisions, and either warn drivers or actively intervene in controlling the vehicle to avoid or mitigate crashes. Examples of current and future ADAS functions, and various sensors utilized in ADAS, including their operation and limitations, and sample algorithms, will be discussed and demonstrated. The course utilizes a combination of hands-on activities, including computer simulations, discussion and lecture.