Connected/Autonomous Vehicles, xEV & Electronics - P19382153

2019 I SSUE 3 JULY – DECEMBER

CONNECTED/ AUTONOMOUS VEHICLES, xEV & ELECTRONICS EDUCATION AND TRAINING

NEW Advanced Power Electronics in Automotive Applications Page 8

NEW A Primer on Regulations and Liability Considerations for HAV’s Page 10

FEATURED Emissions- Related OBD Systems: A Design Overview Page 3

NEW Fuel Cells for Transportation Page 6

WHAT OUR CUSTOMERS ARE SAYING “Great course with in-depth

learning of CAN protocol and the different SAE/ISO standards for automotive applications. Also a peek into CAN cybersecurity and possible ways to avoid that.” — Arslan Qaiser, Motor Controls Engineer, Mobis North America “Detailed overview of the Automated vehicles and provides amazing insight into the current status of the industry and government. I would recommend to anyone that needs information on this broad and booming topic.” — Dominique Charlebois, Researcher, Transport Canada

FEATURED LEARNING OPPORTUNITIES Advanced Power Electronics in Automotive Applications NEW ............................................................................. 8 A Primer on Regulations and Liability Considerations for HAV’s NEW .................................................................................. 10 Emissions-Related OBD Systems: A Design Overview .......... 3 Fuel Cells for Transportation NEW ............................................... 6 Hybrid and Electric Vehicle Engineering Academy ................ 1 Introduction to Automated Vehicle Safety: Multi-Agent, Functional Safety, and SOTIF NEW .................. 15 Introduction to Autonomous Trucking and Platooning Technology NEW ............................................................................. 14 Introduction to Highly Automated Vehicles .............................. 5 Introduction to Hybrid and Electric Vehicle Battery Systems ................................................................................. 2 Introduction to NVH Aspects of Hybrid and Electric Vehicles ........................................................................ 4 Introduction to Power Electronics in Automotive Applications NEW ............................................................................. 7 Introduction to the Secure Microkernel, seL4 NEW ................ 9 LIDAR and Infrared Cameras for ADAS and Autonomous Sensing NEW ........................................................... 11 The Role of Connected and Autonomous Vehicles in Smart Cities NEW ........................................................................ 13 Validating Requirements and Improving Specifications with Telematics Data NEW ............................... 12

Classroom Seminars ADAS Application: Automatic Emergency Braking .............20 Automotive Lighting: Design and Technology ....................... 16 Automotive Lighting: LED Applications ................................... 17 Automotive Lighting: Testing and Requirements .................. 17 Controller Area Network (CAN) for Vehicle Applications ....................................................................................... 16 Control Systems Simplified ........................................................... 16 Cybersecurity: An Introduction for the Automotive Sector .......................................................................... 19 Design Considerations for Secure Embedded Systems ...... 19 Designing On-Board Diagnostics for Light and Medium Duty Emissions Control Systems ....................... 17 Fundamentals of Shielding Design for EMC Compliance ........................................................................................ 18 High Voltage Vehicle Safety Systems and PPE .....................20 Hybrid and Electric Vehicle Systems ......................................... 18 Introduction to Radar for Automotive Applications ............. 19 Safe Handling of High Voltage Battery Systems ............................................................................................... 18 Web Seminars Keys to Creating a Cybersecurity Process from the J3061 Process Framework .................................................... 22 Performing a Cybersecurity Threat Analysis and Risk Assessment ..................................................................... 22 On Demand Courses High Voltage Safety and PPE ......................................................20 High Voltage Vehicle Safety Systems ........................................ 21 Introduction to Hybrid Electric Vehicle Systems ................... 21 Lithium Ion Family Battery Systems .......................................... 21 Nickel Metal Hydride (NiMH) Hybrid Battery Systems ........ 22

SAE International® Professional Development FEATURED LEARNING OPPORTUNITIES

LEARNING OBJECTIVES Upon completion of the academy, participants will be able to: • Define & analyze electrochemistry of battery operation & performance requirements for xEV applications & EV applications • Estimate cell size to meet requirements • Create a cradle-to-grave, or cradle-to-use list of materials used in battery • Compute temperature response of battery cell/pack assemblies for a model • Describe functions performed by a BMS • Explain ways to estimate of brushless dc & induction motors • Define torque speed curves for motors & application to xEV’s • Compare/contrast relevant industry/regulatory standards state of charge, state of health, power & energy • Apply the operation

FEATURED

Hybrid and Electric Vehicle Engineering Academy ACAD06 5 Days | Classroom Seminar OVERVIEW SAE Engineering Academies provide comprehensive and immersive training experiences, helping new and re-assigned engineers become proficient and productive in a short period of time. The Hybrid and Electric Vehicle Engineering Academy covers hybrid and electric vehicle engineering concepts, theory, and applications relevant to HEV, PHEV, EREV, and BEV for the passenger car industry. While the theory and concepts readily apply to the commercial vehicle industry as well, the examples and applications used will apply primarily to the passenger car industry COURSE DETAILS Instructor S. Siavoshani Location Troy, MI Date Dec 02–06

Fees CEUs

$3,550.00 SAE Members: $3,195.00

3.8

Groups of 5 or more, learn about SAE Corporate Learning Solutions by contacting corplearn@sae.org or call +1.724.772.8529.

Issue 3 | July–December, 2019  1

SAE International® Professional Development FEATURED LEARNING OPPORTUNITIES

LEARNING OBJECTIVES By attending this seminar, you will be able to: • Capture customer wants and expectations of the battery system • Identify factors that drive power and energy requirements • Determine test program structure • Compare and contrast the newest relevant battery technologies • Calculate estimates of electric range and quantify the assumptions • Critically assess media claims of new battery discoveries

FEATURED

Introduction to Hybrid and Electric Vehicle Battery Systems C0626 2 Days | Classroom Seminar OVERVIEW Intro 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. Students will perform a battery pack analysis exercise using a real world application. COURSE DETAILS Instructor E. Spek Location Troy, MI Date Nov 05–06

Groups of 5 or more, learn about SAE Corporate Learning Solutions by contacting corplearn@sae.org or call +1.724.772.8529.

Fees CEUs

$1,415.00 SAE Members: $1,273.50

1.3

2 SAE Professional Development | sae.org/learn

SAE International® Professional Development FEATURED LEARNING OPPORTUNITIES

LEARNING OBJECTIVES By attending this seminar, you will be able to: • Articulate the underlying design objectives of on-board diagnostic systems • Apply the design features that all diagnostics need for successful implementation • Apply basic design techniques to deal with variation • Use a diagnostic design template in the development of an on-board diagnostic

FEATURED

Emissions-Related OBD Systems: A Design Overview C0708 1 Day | Classroom Seminar OVERVIEW This seminar is designed to provide an overview of the fundamental design objectives and the features needed to achieve those objectives for generic on-board diagnostics. The basic structure of an on-board diagnostic will be described along with the system definitions needed for successful implementation. COURSE DETAILS Instructor J. Van Gilder Location Garden Grove, CA Date Sep 20

Groups of 5 or more, learn about SAE Corporate Learning Solutions by contacting corplearn@sae.org or call +1.724.772.8529.

Fees CEUs

$960.00 SAE Members: $864.00

0.7

Issue 3 | July–December, 2019  3

SAE International® Professional Development FEATURED LEARNING OPPORTUNITIES

LEARNING OBJECTIVES Upon completion of this seminar, you will be able to: • Articulate the basic principles of NVH • Describe the relative importance of powertrain noise, wind noise, and road noise in the vehicle’s interior • Identify the key sub-components of powertrain noise and means to control them • Explain the key NVH issues specific to electrified vehicles and means to develop appropriate countermeasures • Identify key metrics available to assess the NVH performance of electrified vehicles • Develop an awareness of advanced NVH methodologies available to design the sound character of electrified vehicle

FEATURED

Introduction to NVH Aspects of Hybrid and Electric Vehicles C1128 1 Day | Classroom Seminar OVERVIEW The influx of different hybrid and electric vehicle configurations has brought about unique NVH challenges from a variety of sources. NVH refinement is an important aspect of powertrain development and the vehicle integration process. While developing the NVH behavior of the vehicle is critical to satisfy customer expectations, it is also important to consider the influence of reduced exterior noise levels on pedestrian safety. This seminar introduces participants to basic NVH principles and unique NVH challenges encountered in the development of HEV, ReEV, and EV including engine start/ stop behavior, electric motor whine, driveline NVH, body structure, influence of noise from accessories, and sound quality development, as well as potential countermeasures. COURSE DETAILS Instructor K. Govindswamy Location Troy, MI Date Nov 04

Groups of 5 or more, learn about SAE Corporate Learning Solutions by contacting corplearn@sae.org or call +1.724.772.8529.

Fees CEUs

$835.00 SAE Members: $751.50

0.7

4 SAE Professional Development | sae.org/learn

SAE International® Professional Development FEATURED LEARNING OPPORTUNITIES

LEARNING OBJECTIVES By attending this seminar, you will be able to: • Explain the SAE Levels of Automation and where different ADAS functions fit in the hierarchy • Explain the ADAS functions and articulate their limitations • Identify different sensors used in advanced driver assistance systems, how they operate, and their limitations • Analyze how different sensors can be combined to improve overall system performance • Describe the current and future methodologies used in developing ADAS algorithms • Articulate how ROC curves, DOE and Monte Carlo techniques can be used to measure and improve algorithm performance • Critically examine the proposed federal rules and validation methods for advanced driver assistance systems • Analyze how active safety systems may affect the performance of existing passive occupant safety systems and how integration of the systems might be accomplished • Describe liability and policy considerations for OEM’s and Tier suppliers

FEATURED

Introduction to Highly Automated Vehicles C1603 2 Days | Classroom Seminar OVERVIEW Advanced driver assistance systems (ADAS) offer the potential to significantly reduce or eliminate most vehicle crashes by perceiving a dangerous situation before the crash has occurred and taking action to avoid or mitigate the crash. 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, 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. COURSE DETAILS Instructor J. Blackburn J. Blackburn Location Glendale, CA Troy, MI Date Jul 22–23 Nov 12–13

Fees CEUs

$1,415.00 SAE Members: $1,273.50

1.3

Groups of 5 or more, learn about SAE Corporate Learning Solutions by contacting corplearn@sae.org or call +1.724.772.8529.

Issue 3 | July–December, 2019  5

SAE International® Professional Development FEATURED LEARNING OPPORTUNITIES

LEARNING OBJECTIVES By attending this seminar, you will be able to: • Identify the concepts and terminology of fuel cells in automotive applications • Describe the key components of fuel cells stacks • Explain the key design requirements that affect cost and reliability. • Explain the major failure modes limiting performance and reliability. • Design and develop fuel cells in systems specifically intended for transportations • Follow the development of this subject in the open literature with ample references and examples

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Fuel Cells for Transportation C1868 3 Days | Classroom Seminar OVERVIEW This is a three-day course provides a review of fuel cells in automotive engineering applications, how they work, integrate and add value, how hydrogen is produced, stored and distributed. The course will provide the status of the technology from fundamentals through practical implementation. Day 1-An introduction and fundamentals of fuel cells, the thermodynamic principles, kinetics of electrode reactions, principles of electrocatalysis, and electrochemical methods of characterization. Day 2-Fuel cells stacks incorporating polymer electrolyte membranes, key design requirements affecting performance, cost and reliability, methods and costs of manufacturing. Day 3-Focus on the use of fuel cells in transportation systems, typical system architectures, performance requirements, critical parameters, specifications, and system controls. COURSE DETAILS Instructor J. Elter Location Troy, MI Date Oct 08–10

Groups of 5 or more, learn about SAE Corporate Learning Solutions by contacting corplearn@sae.org or call +1.724.772.8529.

Fees CEUs

$1,840.00 SAE Members: $1,656.00

2

6 SAE Professional Development | sae.org/learn

SAE International® Professional Development FEATURED LEARNING OPPORTUNITIES

LEARNING OBJECTIVES Upon completion of this seminar, participants will be able to: • Identify the components of PE & describe their key characteristics • Use various methods to analyze PE circuits • Discuss the basic operation, losses and efficiency of PE converter • Describe PE circuits used in various applications • Relate the practical issues in PE circuit design • Explain the application requirements of converters in a given system • Identify the subsystems of the power PE in different xEV platforms • Identify the passive & active technology requirements to manage the PE system thermally • Describe the future PE technologies for the upcoming xEV applications

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Introduction to Power Electronics in Automotive Applications C1871 1 Day | Classroom Seminar OVERVIEW Modern power electronics (PE) devices and circuits are now in widespread use in automotive and non-automotive applications. The purpose of this course is to give an overall introduction to the key aspects of PE circuits, components and design in automotive applications. Topics covered include power semiconductor devices, their characteristics and operation, and their use in PE circuits. Techniques for analyzing and designing switch-mode power supplies, DC-DC converters, power rectifiers, static power inverters and universal power supplies are examined, along with electric machines, motors and transformers, and their associated PE drive requirements. The course also gives an overview of the electrical power system and power systems analysis, in the context of PE applications in automotive platforms. COURSE DETAILS Instructor C. Wang C. Wang Location Troy, MI Troy, MI Date Aug 05 Nov 04

Groups of 5 or more, learn about SAE Corporate Learning Solutions by contacting corplearn@sae.org or call +1.724.772.8529.

Fees CEUs

$835.00 SAE Members: $751.50

0.7

Issue 3 | July–December, 2019  7

SAE International® Professional Development FEATURED LEARNING OPPORTUNITIES

LEARNING OBJECTIVES Upon completion of this seminar, participants will be able to: • Analyze the detailed operation, losses & efficiency of the PE converters Analyze different PE topologies according to their applications • Describe practical issues in design of PE circuit • Explain & demonstrate operational issues & limitations of practical converters • Design test requirements & fixtures for different PE system blocks based on their application requirement • Identify the standards required for PE systems in different applications Design the most optimum PE subsystem/system for the HEV/EV platforms Describe the future PE technologies

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Advanced Power Electronics in Automotive Applications C1872 2 Days | Classroom Seminar OVERVIEW Power electronics (PE) is one of the most important areas of the automotive subsystem. This course will help bridge a knowledge gap with non-electrical engineers by delving deeper into key aspects of PE circuits, components and design requirements in automotive applications. Topics covered include power semiconductor devices, high-frequency magnetics & capacitors. Advanced methods for design, analysis, modeling, & verification of applied PE & related control systems for switch-mode power supplies, DC-DC converters, power rectifiers, static power inverters & universal power supplies are examined, along with electric machines, motors & transformers, & their associated PE drive requirements. The course provides an overview of the electrical power system and power systems analysis in the context of PE applications in automotive platforms. COURSE DETAILS Instructor C. Wang C. Wang Location Troy, MI Troy, MI Date Aug 06–07 Nov 05–06

for the upcoming xEV applications

Groups of 5 or more, learn about SAE Corporate Learning Solutions by contacting corplearn@sae.org or call +1.724.772.8529.

Fees CEUs

$1,415.00 SAE Members: $1,273.50

1.3

8 SAE Professional Development | sae.org/learn

SAE International® Professional Development FEATURED LEARNING OPPORTUNITIES

LEARNING OBJECTIVES • By attending this seminar, you will be able to: • Determine if seL4 is a good choice for your security solutions • Develop and build basic seL4 applications • Describe what the formal proof implies about seL4 • Identify capability- based systems

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Introduction to the Secure Microkernel, seL4 C1874 2 Days | Classroom Seminar OVERVIEW

Groups of 5 or more, learn about SAE Corporate Learning Solutions by contacting corplearn@sae.org or call +1.724.772.8529.

Security continues to be an ever-growing concern in more and more design spaces. Higher security is needed through the entire system stack, testing only exposes so many vulnerabilities. Formal methods is a solution that ensures specific behaviors will not occur. seL4 is the first, formally-proven microkernel and is open-source. This makes it a great solution for systems needing strong security. The highest profile, successful application of the seL4 Microkernel was the DARPA High-Assurance Cyber Military Systems (HACMS) project. where it was demonstrated that formal verification can scale to real-life systems to protect a wide range of cyber-physical systems from attacks. COURSE DETAILS Instructor N. Studer N. Studer N. Studer Location Herndon, VA Herndon, VA San Jose, CA Date Jul 16–17 Jul 16–17 Jul 16–17

Fees CEUs

$1,460.00 SAE Members: $1,314.00

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Issue 3 | July–December, 2019  9

SAE International® Professional Development FEATURED LEARNING OPPORTUNITIES

LEARNING OBJECTIVES After attending this seminar, you will be able to: • Explain state action regarding HAV regulation and how these actions are influenced by NHTSA’s model state policy • Discuss NHTSA’s guidance

NEW

documents on HAV’s and explain how this guidance has evolved over the last several years

• Describe the current Federal regulations that may need to change to accommodate HAV’s • Assess the current state of Federal regulatory action, including the current NPRM for V2V Communications • Explain the current Federal legislative actions, where they stand, and when they might be implemented • Discuss voluntary industry actions related to the implementation of autonomous emergency braking into vehicles • Describe changes to the NCAP and IIHS rating systems relative to driver assistance technologies • Explain the LDW, FCW and AEB test development projects underway at NHTSA and IIHS

A Primer on Regulations and Liability Considerations for HAV’s C1893 1 Day | Classroom Seminar OVERVIEW

Potential regulations surrounding the development, testing and commercial launch of highlyautomated vehicles (HAVs) and possible liability exposure for the manufacturing and operation of HAVs are fluid and changing areas that will continue to evolve over the next several years. The first half of this course reviews where regulations are at the state and federal levels, what actions are currently under consideration, how current regulations will need to change to accommodate HAV’s, and how and when new regulations might be implemented. The second half covers both common law and strict liability and how it may apply to HAV’s. It discusses the question of “Who is the driver?”, and how common law negligence, no fault liability and strict liability will impact human owner/operators, and manufacturers of HAV’s. COURSE DETAILS Instructor J. Blackburn J. Blackburn J. Blackburn Location Glendale, CA Novi, MI Troy, MI Date Jul 24 Oct 28 Oct 28

• Describe common law tort liability and explain the elements

Fees CEUs

$835.00 SAE Members: $751.50

0.7

Groups of 5 or more, learn about SAE Corporate Learning Solutions by contacting corplearn@sae.org or call +1.724.772.8529.

10 SAE Professional Development | sae.org/learn

SAE International® Professional Development FEATURED LEARNING OPPORTUNITIES

LEARNING OBJECTIVES Upon completion of this course the participants will be able to: • Comprehend electromagnetic spectrum, spectral irradiance, night vision and eye safety • Describe various LIDAR architectures based on key requirements based on an understanding of system edge use cases • Prescribe Infrared camera requirements with a comprehension of key variables • Calculate IRED and Laser power requirements to meet system needs • Gain an overview of challenges and opportunities for sensing trends in ADAS and AV design parameters • Formulate LIDAR

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LIDAR and Infrared Cameras for ADAS and Autonomous Sensing C1896 2 Days | Classroom Seminar OVERVIEW

This seminar examines ADAS and AV technologies that have disrupted the traditional auto industry with their challenges and potential to increase safety while attempting to optimize the cost of car ownership. LIDAR 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. This course provides the foundation to build on for these two technologies in auto applications, ending with a demonstration model for LIDAR and Infrared camera. It begins with a review of Infrared basics, followed by a dive into LIDAR. Then it covers Infrared camera topics, followed by a brief review of iris recognition, cabin monitoring, face recognition, ending with a short discussion on trends and challenges facing optical sensing in autonomous vehicles. COURSE DETAILS Instructor R. Thakur Location Troy, MI Date Aug 06–07

Groups of 5 or more, learn about SAE Corporate Learning Solutions by contacting corplearn@sae.org or call +1.724.772.8529.

Fees CEUs

$1,415.00 

1.3

Issue 3 | July–December, 2019  11

SAE International® Professional Development FEATURED LEARNING OPPORTUNITIES

LEARNING OBJECTIVES By attending this seminar, you will be able to: • Define different types of data in Telematics. • Determine the need and ways to standardize data metrics • Determine the best probability distributions to describe counting or continuous data for a group of vehicles • Apply cumulative distributions to determine population percentiles and project data metrics to design life targets. Examples: Engine start/stop events and vehicle speeds • Analyze state transitions for product that operate in a finite number of states. • Analyze two-dimensional multivariate data. (Engine Speed vs. Engine Torque) • Make comparisons of different

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Validating Requirements and Improving Specifications with Telematics Data C1897 2 Days | Classroom Seminar OVERVIEW Field failures cause high warranty expenses, perhaps the highest quality cost. Failures occur when new designs are introduced, existing products are sold in new markets, and product specifications don’t reflect actual product usage. Any mistake in product specifications affects the entire product development process and cascades through the supply chain. This seminar teaches the student how to analyze development and field usage data with a focus on projecting to design life targets. Data needs to be collected from the customer. Today’s availability of wireless services makes this relatively easy and tomorrow’s internet of things (IOT) can provide the raw data for analysis. This seminar uses selected automotive telematics data collected by special modules installed in development, fleet, and retail vehicles. COURSE DETAILS Instructor D. Craggs Location Troy, MI Date Sep 19–20

vehicle categories. (Police vehicles vs. retail vehicles)

Groups of 5 or more, learn about SAE Corporate Learning Solutions by contacting corplearn@sae.org or call +1.724.772.8529.

Fees CEUs

$1,465.00 SAE Members: $1,318.50

1.3

12 SAE Professional Development | sae.org/learn

SAE International® Professional Development FEATURED LEARNING OPPORTUNITIES

LEARNING OBJECTIVES By attending this seminar, you will be able to: • Define the essential elements of smart cities from a transportation perspective • Describe smart city transportation services • Explore how multi-modal systems will shape future cities • Define the role of CAVs in a smart city • Explain the optimum operation of CAVs interact with urban infrastructure • Recognize the value of big data and analytics in urban transportation data transportation • Describe a list of smart city transportation applications that are enabled by interaction between the vehicle and infrastructure • Explain the overall benefits and costs of smart city transportation services • Distinguish the policy objectives and challenges associated with CAVs within a smart city • Associate possible CAV partnership arrangements with a smart city

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The Role of Connected and Autonomous Vehicles in Smart Cities C1912 2 Days | Classroom Seminar OVERVIEW There is growing interest in the concept of a smart city and how these advanced technologies will improve the quality of living and make a city more attractive to visitors, commerce and industry. This course helps to define and explain the relationship between connected and autonomous vehicles (CAVs) and smart city transportation by addressing integration from technology, organizational, policy and business model perspectives. It seeks to explain CAVs to vehicle designers, manufacturers, and associated OEMs, how CAVs will play a central role in urban transportation systems and how to address three common challenges associated with CAV technology to smart cities: the use of big data and analytics techniques, establishing and maintaining suitable public-private partnerships, and aligning policy objectives with technology capabilities. COURSE DETAILS Instructor R. McQueen Location Troy, MI Date Aug 15–16

Fees CEUs

$1,415.00 SAE Members: $1,273.50

1.3

Groups of 5 or more, learn about SAE Corporate Learning Solutions by contacting corplearn@sae.org or call +1.724.772.8529.

Issue 3 | July–December, 2019  13

SAE International® Professional Development FEATURED LEARNING OPPORTUNITIES

LEARNING OBJECTIVES By attending this seminar, you will be able to: • Review SAE and NHTSA levels of automation • Connectivity review DSRC, Wi-Fi, and 5G • Benefits on automated driving • Review of commercial active safety systems • Lower level of truck platooning automation • Types and the physics behind platooning • Platooning efforts around the world • Review of the energy savings from truck platooning • Self-driving trucks • Recent field trials and deployments-review automotive OEMs and startups developing L4/ L5 technology • Opportunities and challenges in the heavy-duty sector • Enhanced productivity, perceived safety benefits

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Introduction to Autonomous Trucking and Platooning Technology C1913 1 Day | Classroom Seminar OVERVIEW

Vehicle automation and intelligent transportation systems will be the cornerstone smart cities. Most of the focus has been on unmanned passenger operation and not on highways. However, highways are relatively simpler to handle from an engineering standpoint. Most truck maneuvering is straightforward (maintaining a slower highway lane with limited lane changes) and how automating buses (with fixed routes) or construction equipment (confided areas) make sense from a safety and economics point- of-view. This leads to the “heavy metal first” hypothesis, where automation in the heavy-duty sector and industrial machines may happen sooner. This course is intended to cover truck automation with special focus on platooning, technology developments, field trials, opportunities, and challenges facing the wide scale deployment of such systems. COURSE DETAILS Instructor A. Kailas Location Anaheim, CA Date Sep 24

• Review of policy and regulatory landscapes

Groups of 5 or more, learn about SAE Corporate Learning Solutions by contacting corplearn@sae.org or call +1.724.772.8529.

Fees CEUs

$835.00 SAE Members: $751.50

0.7

14 SAE Professional Development | sae.org/learn

SAE International® Professional Development FEATURED LEARNING OPPORTUNITIES

LEARNING OBJECTIVES By participating in this web seminar, you will be able to: • Articulate the concepts of hazard, risk, risk assessment, and risk reduction • List and describe the most fundamental ideas and techniques of Functional Safety, SOTIF, and Multi- agent safety • Describe the salient features and application of the ISO 26262 standard • Develop a Functional Safety Concept for a specific subsystem of an AV • Summarize the main NHTSA safety guidelines for autonomous vehicles and the main elements to be addressed while writing

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Introduction to Automated Vehicle Safety: Multi-Agent, Functional Safety, and SOTIF WB1890 12 Hours | Web Seminar OVERVIEW This live, online course will characterize the nature of safety and the fundamental technology needed by those involved in the design, development, testing, operation, and deployment of automated vehicles. You’ll learn the main attributes of safety as applied to automated vehicles, including the three types of safety: Functional Safety, Safety of the Intended Functionality (SOTIF), and Multi-agent Safety. The discussion will enable you to conceive of the various applicable design aspects of safety, clarify the role of SOTIF and multi-agent safety for automated vehicles, and address the development of multi-agent safety using a probabilistic and stochastic framework. Five practice exercises are incorporated into the course requirements to ensure application and retention. COURSE DETAILS Instructor J. Pimentel Location Live Online Date Sep 09–20

a safety report for an autonomous vehicle

• Identify safety hazards involved when a vehicle shares the road with other vehicles and pedestrians

Groups of 5 or more, learn about SAE Corporate Learning Solutions by contacting corplearn@sae.org or call +1.724.772.8529.

Fees CEUs

$835.00 SAE Members: $751.50

1.5

Issue 3 | July–December, 2019  15

SAE International® Professional Development CONNECTED/AUTONOMOUS VEHICLES, xEV & ELECTRONICS

Controller Area Network (CAN) for Vehicle Applications C0120 Course covers the theory & use of the CAN protocol, CAN application layers; J1939, J2284, J2411, & IDB standards, regulations, implementation requirements; and device hardware & software interfaces. Development tool demos. J1939 included.

Instructor

Duration Delivery

Location

Dates

Fees

CEUs

Nov 11–12 $1,495.00 SAE Members: $1,345.50 1.3

M. Zachos

2 Days Classroom Seminar Troy, MI

Groups of 5 or more, learn about SAE Corporate Learning Solutions by contacting corplearn@sae.org or call +1.724.772.8529.

Automotive Lighting: Design and Technology C0202

Gain sufficient knowledge of exterior automotive lighting systems vital to passenger safety, comfort and vehicle styling. With an emphasis on function, effectiveness, and technology throughout ground vehicle design and product development.

Instructor

Duration Delivery

Location

Dates

Fees

CEUs

Sep 17–18 $1,415.00 SAE Members: $1,273.50 1.3

J. Jiao

2 Days Classroom Seminar Troy, MI

Groups of 5 or more, learn about SAE Corporate Learning Solutions by contacting corplearn@sae.org or call +1.724.772.8529.

Control Systems Simplified C0525 Intro to field of control system tools and how to apply to automotive systems such as dynamic systems, stability margins, time/frequency responses, PID, lead-lag compensators, and basics of embedded controls. Hands-on using Matlab and Simulink.

Instructor

Duration Delivery

Location

Dates

Fees

CEUs

Sep 11–12 $1,415.00 SAE Members: $1,273.50 1.3

F. Bolourchi

2 Days Classroom Seminar Troy, MI

Groups of 5 or more, learn about SAE Corporate Learning Solutions by contacting corplearn@sae.org or call +1.724.772.8529.

16 SAE Professional Development | sae.org/learn

SAE International® Professional Development CONNECTED/AUTONOMOUS VEHICLES, xEV & ELECTRONICS

Automotive Lighting: Testing and Requirements C0618

Understand the safety importance of automotive lighting devices and lighting. Includes an analysis of the functionality, requirements, testing and evaluations based on govermental regulations and safety standards. This course is approved by ACTAR.

Instructor

Duration Delivery

Location

Dates

Fees

CEUs

Classroom Seminar Troy, MI

Sep 19

$835.00 SAE Members: $751.50

0.7

J. Jiao

1 Day

Groups of 5 or more, learn about SAE Corporate Learning Solutions by contacting corplearn@sae.org or call +1.724.772.8529.

Designing On-Board Diagnostics for Light and Medium Duty Emissions Control Systems C0707 This course will provide a fundamental understanding of how and why OBD systems function and the technical features that a diagnostic should have in order to ensure compliant and successful implemen- tation. Review of CARB OBD II regs included.

Instructor

Duration Delivery

Location

Dates

Fees

CEUs

Nov 11–13 $1,950.00 SAE Members: $1,755.00 2

J. Van Gilder

3 Days Classroom Seminar Troy, MI

Groups of 5 or more, learn about SAE Corporate Learning Solutions by contacting corplearn@sae.org or call +1.724.772.8529.

Automotive Lighting: LED Applications C0727 This seminar is designed to provide the attendee with an overview of LEDs and their applications in automotive lighting and illumination including night vision, occupancy detection, etc. This course is ACTAR approved.

Instructor

Duration Delivery

Location

Dates

Fees

CEUs

Classroom Seminar Troy, MI

Sep 20

$835.00 SAE Members: $751.50

0.7

J. Jiao

1 Day

Groups of 5 or more, learn about SAE Corporate Learning Solutions by contacting corplearn@sae.org or call +1.724.772.8529.

Issue 3 | July–December, 2019  17

SAE International® Professional Development CONNECTED/AUTONOMOUS VEHICLES, xEV & ELECTRONICS

Fundamentals of Shielding Design for EMC Compliance C0835

An intro to practical shielding theory, design fundamentals, and configurations, including shielding products, common/differential modes, electromagnetic fields, enclosure shielding, enclosure testing, honeycomb vent panels, plating attenuation, etc.

Instructor

Duration Delivery

Location

Dates

Fees

CEUs

Classroom Seminar Livonia, MI

Sep 05

$835.00 SAE Members: $751.50

0.7

M. Oliver

1 Day

Groups of 5 or more, learn about SAE Corporate Learning Solutions by contacting corplearn@sae.org or call +1.724.772.8529.

Safe Handling of High Voltage Battery Systems C1019

This course is an intro to risks faced in handling high voltage battery systems & their component parts, how to raise risk awareness & methods of dealing with risks to avoid personal injury, liability, loss, etc. Actual battery handling case study.

Instructor

Duration Delivery

Location

Dates

Fees

CEUs

Classroom Seminar Troy, MI

Nov 07

$835.00 SAE Members: $751.50

0.7

E. Spek

1 Day

Groups of 5 or more, learn about SAE Corporate Learning Solutions by contacting corplearn@sae.org or call +1.724.772.8529.

Hybrid and Electric Vehicle Systems C1504 Covers practical HEV/BEV architectures, operation, functions, & design considerations of power electronics, energy systems, & failure modes. Students come away with a solid systems and integration foundation to apply to vehicle/systems design.

Instructor

Duration Delivery

Location

Dates

Fees

CEUs

Sep 23–25 $1,800.00 SAE Members: $,1620.00 2

M. Quarto

3 Days Classroom Seminar Troy, MI

Groups of 5 or more, learn about SAE Corporate Learning Solutions by contacting corplearn@sae.org or call +1.724.772.8529.

18 SAE Professional Development | sae.org/learn

SAE International® Professional Development CONNECTED/AUTONOMOUS VEHICLES, xEV & ELECTRONICS

Design Considerations for Secure Embedded Systems C1524 Combining lecture & hands-on exercises, students will use reverse engineering techniques to attempt to reverse engineer both a vulnerable & secured embedded device to identify susceptible areas. Tools provided in course are available to take home.

Instructor

Duration Delivery

Location

Dates

Fees

CEUs

Oct 14–15 $1,595.00 SAE Members: $1,435.50 1.3

G. Roberts

2 Days Classroom Seminar Troy, MI

Groups of 5 or more, learn about SAE Corporate Learning Solutions by contacting corplearn@sae.org or call +1.724.772.8529.

Cybersecurity: An Introduction for the Automotive Sector C1619

What does “secure” look like? This interactive seminar introduces critical cybersecurity concepts & puts them in an automotive context. It cuts through to the “so what” basics that enable understanding and provides ideas to implement in your company.

Instructor

Duration Delivery

Location

Dates

Fees

CEUs

Classroom Seminar Troy, MI

Jul 15

$835.00 SAE Members: $751.50

0.7

R. Dekelbaum 1 Day

Groups of 5 or more, learn about SAE Corporate Learning Solutions by contacting corplearn@sae.org or call +1.724.772.8529.

Introduction to Radar for Automotive Applications C1627 This introduction to radar focuses on understanding how radars work and the trade offs that must be made to achieve its specified performance, focusing on applications to automotive safety and autonomy.

Instructor

Duration Delivery

Location

Dates

Fees

CEUs

Jul 22–23 $1,415.00 SAE Members: $,1273.50

1.3

W. Buller

2 Days Classroom Seminar Troy, MI

Nov 04–05 $1,415.00 SAE Members: $1,273.50 1.3

W. Buller

2 Days Classroom Seminar Troy, MI

Groups of 5 or more, learn about SAE Corporate Learning Solutions by contacting corplearn@sae.org or call +1.724.772.8529.

Issue 3 | July–December, 2019  19

SAE International® Professional Development CONNECTED/AUTONOMOUS VEHICLES, xEV & ELECTRONICS

ADAS Application: Automatic Emergency Braking C1704 This course provides an overview of an ADAS AEB system, the development cycle processes, system level requirements, design architecture and considerations for a functional safety (ISO_26262) perspective, and a general overview of algorithm concepts.

Instructor

Duration Delivery

Location

Dates

Fees

CEUs

Classroom Seminar Orlando, FL

Sep 26

$835.00 SAE Members: $751.50

0.7

E. Leaphart

1 Day

Classroom Seminar Jacksonville, FL Oct 01

$835.00 SAE Members: $751.50

0.7

E. Leaphart

1 Day

Groups of 5 or more, learn about SAE Corporate Learning Solutions by contacting corplearn@sae.org or call +1.724.772.8529.

High Voltage Vehicle Safety Systems and PPE C1732

Course teaches fundamental technical & safety information on high voltage PPE; when, where & how to test high voltage gloves, & how to safely use test equipment to measure high voltage components in live and disabled high voltage systems.

Instructor

Duration Delivery

Location

Dates

Fees

CEUs

Classroom Seminar Troy, MI

Sep 26

$835.00 SAE Members: $751.50

0.7

M. Quarto

1 Day

Groups of 5 or more, learn about SAE Corporate Learning Solutions by contacting corplearn@sae.org or call +1.724.772.8529.

High Voltage Safety and PPE PD291807 How to test high voltage gloves, when and where to send them for periodic testing, and how to safely use the proper test equipment for measuring and how to measure high voltage components in live and disabled high voltage systems.

Instructor

Duration Delivery

Location

Dates

Fees

CEUs

M. Quarto

2 Hours On Demand Course Online

Anytime

$135.00 SAE Members: $121.50

0.2

Groups of 5 or more, learn about SAE Corporate Learning Solutions by contacting corplearn@sae.org or call +1.724.772.8529.

20 SAE Professional Development | sae.org/learn

SAE International® Professional Development CONNECTED/AUTONOMOUS VEHICLES, xEV & ELECTRONICS

High Voltage Vehicle Safety Systems PD291808 Most beneficial to mitigate electrical shock if done before servicing hybrid/plug-in/electric vehicles with high voltage DC/AC safety systems. System operation, no-start condition, & how to test with special tools to identify isolation fault areas.

Instructor

Duration Delivery

Location

Dates

Fees

CEUs

M. Quarto

4 Hours On Demand Course Online

Anytime

$275.00 SAE Members: $247.50

0.4

Groups of 5 or more, learn about SAE Corporate Learning Solutions by contacting corplearn@sae.org or call +1.724.772.8529.

Introduction to Hybrid Electric Vehicle Systems PD291809

In HEV powertrains, it’s essential to grasp operating modes/how failure modes affect operation. Gain knowledge of HEV system operation based on different powertrain configurations & how scan tool data/ diagnostics differ from traditional vehicles.

Instructor

Duration Delivery

Location

Dates

Fees

CEUs

M. Quarto

2 Hours On Demand Course Online

Anytime

$135.00 SAE Members: $121.50

0.2

Groups of 5 or more, learn about SAE Corporate Learning Solutions by contacting corplearn@sae.org or call +1.724.772.8529.

Lithium Ion Family Battery Systems PD291810 Five-part series on Lithium technologies, cell balancing systems, failure modes, and diagnostics. Identify Lithium formats, aspects of cell aging, rebuilding concepts, and use of scan tool PIDs to analyze, diagnose, repair battery packs.

Instructor

Duration Delivery

Location

Dates

Fees

CEUs

10 Hours On Demand Course Online

Anytime

$345.00 SAE Members: $310.50

1.1

M. Quarto

Groups of 5 or more, learn about SAE Corporate Learning Solutions by contacting corplearn@sae.org or call +1.724.772.8529.

Issue 3 | July–December, 2019  21

SAE International® Professional Development CONNECTED/AUTONOMOUS VEHICLES, xEV & ELECTRONICS

Nickel Metal Hydride (NiMH) Hybrid Battery Systems PD291811 NiMH battery cell operation, cell/module failure modes, diagnostic testing methods, battery hardware components, battery stress testing techniques, conditions of a battery pack, how some of these areas differ from Lithium systems.

Instructor

Duration Delivery

Location

Dates

Fees

CEUs

10 Hours On Demand Course Online

Anytime

$345.00 SAE Members: $310.50

1.1

M. Quarto

Groups of 5 or more, learn about SAE Corporate Learning Solutions by contacting corplearn@sae.org or call +1.724.772.8529.

Keys to Creating a Cybersecurity Process from the J3061 Process Framework WB1604 Connected vehicles are a target for cybersecurity attacks. This course will provide a foundation to begin tailoring the cybersecurity process framework for applicaition within participants’ own organizations.

Instructor

Duration Delivery

Location

Dates

Fees

CEUs

B. Czerny, D. Ward 7 Hours Web Seminar

Live Online

Jul 15–19 $610.00 SAE Members: $549.00

0.7

Groups of 5 or more, learn about SAE Corporate Learning Solutions by contacting corplearn@sae.org or call +1.724.772.8529.

Performing a Cybersecurity Threat Analysis and Risk Assessment WB1742 SAE J3061 reccommends performing a threat analysis & risk assessment early in product development. Participants will gain knowledge of appropriate methods to carry out threat analysis & risk assessment for development of a typical vehicle feature.

Instructor

Duration Delivery

Location

Dates

Fees

CEUs

D. Ward, P. Wooderson 6 Hours Web Seminar

Live Online

Dec 09–13 $550.00 SAE Members: $495.00 0.6

Groups of 5 or more, learn about SAE Corporate Learning Solutions by contacting corplearn@sae.org or call +1.724.772.8529.

22 SAE Professional Development | sae.org/learn

SAE IS YOUR TRUSTED PROFESSIONAL LEARNING PARTNER

WE OFFER: –– Over 110 years training engineers

EARN A CERTIFICATE OF MASTERY FROM SAE SAE multi-course certificates provide an outline of courses designed to extend your understanding in a specific technology area. When reviewing SAE education and training material, watch for the certificate icon. It indicates which courses are part of an SAE multi-course certificate program.

–– Formats to fit your needs: Classroom and Online –– Engineering-focused training for many industries: Aerospace, Automotive, Medical and more –– Expertise from the top engineers in their field THIS GUIDE INCLUDES COURSES THAT EXPLORE THE FOLLOWING TOPICS –– Autonomous Vehicle Technology –– Hybrid and Electric Vehicles –– Cybersecurity –– OBD –– Automotive Lighting

For a list of programs,

.

WHAT IS YOUR LEARNING NEED? As the world’s leader in offering access to the most extensive, multi-sector source of knowledge and expertise, SAE International provides the mobility engineering training and education needed to turn your challenges into solutions. A DELIVERY FORMAT TO FIT EVERY NEED SAE International offers a variety of learning formats to accommodate diverse learning styles. Explore classroom, live and online, and on-demand courses. Many courses are offered in multiple formats to fit your exact need.

Receive valuable SAE email communications in just 3 steps: 1. Log in to my.sae.org 2. Edit communication preferences 3. Select “Agree” to e-mail communications

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