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This course is offered in China only and presented in Mandarin Chinese. The course materials are bilingual (English and Chinese). Currently in the industry, especially within China, product requirement development is more of an experience-based process rather than a scientific methodology. This course addresses this issue and provides a more process-driven method for better requirement development through the Quality Function Deployment (QFD) methodology.  Real industrial examples are used to demonstrate how to systematically convert the voice of the customer data to engineering specifications using QFD.

Most complex systems are moving toward a “smart” solution, with automated methods for identifying and diagnosing problems. This course will explore how efficient system scan be designed in an effective manner to ensure that they meet performance requirements. Because predictive maintenance is important to the aerospace industry, this course will address systems engineering (SE), review prognostic health management (PHM), and explain how you can utilize them to obtain a better system. Additionally, it will address requirements management; model-based design; and verification and validation.

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.

Model-based software development has become state of the art for automotive embedded applications. Toolchains have been established, and methods and procedures have been defined to address the strong requirements of functional safety standards. Best practices within general software development, however, propose to overcome strict waterfall process models and promote agile methods in order to address real-world challenges, such as late changes or vague requirements. These real-world scenarios exist in automotive software development, and agile methods will also be beneficial here.

This training class will introduce you to fundamental aspects of working with modeling guidelines and to the static model analysis of MATLAB Simulink/Stateflow, TargetLink, and Embedded Coder models. Furthermore, you will learn how to create MISRA- and ISO 26262-compliant models using proven modeling standards and best practices. The spotlight will be placed on how you can best integrate the MES Model Examiner (MXAM) into your process. Via several hands-on sessions, you will have the chance to practice reliably deploying guidelines with MXAM and ensure guideline compliance.

ISO 26262 provides an internationally recognized reference for the development of safety-related automotive E/E systems. Developers of such systems need to understand and implement the standard’s requirements pertaining to system, hardware, and software development. This training class provides a systematic introduction to key concepts of ISO 26262 and their practical application, covering the concept phase including hazard analysis and risk assessment (HARA) as well as the subsequent system, hardware, and software development phases.

This course is offered in China only. The course starts from the core concept of MBSE and primarily introduces the commercial setting of MBSE in industry practices. It covers a range of topics from conceptual clarity and mindset shifts to modeling strategies, aiming to build comprehensive end-to-end MBSE capabilities. I will present the specific industry practice of MBSE in fields such as aerospace and automotive, share insights on processes, methodologies, and toolchain strategies, among others. MBSE transforms the fragmented representation into traceable digital models by using a single data source model.

This training class provides a comprehensive overview of the principles, processes, and objectives of model testing – from requirements to model tests. We offer step-by-step guidance from creating requirements-based test specifications, through testing TargetLink and/or Embedded Coder models, to automated test evaluation based on test assessments and back-to-back/regression tests. In particular, we will emphasize ISO 26262-compliant test management and explain the test process for MiL and SiL, as well as tracing requirements to test specifications and test assessments.

This training class provides a practical overview of developing and safeguarding embedded software on the basis of Simulink and code generators like Embedded Coder and TargetLink within the framework of serial projects. The training class takes participants through all process steps from designing and creating the simulation model in Simulink and Stateflow to generating production code. Model quality assurance consists of verifying the model and software architecture, safeguarding the modeling guidelines, as well as checking for functional compliance with requirements in the model test.

As part of the release of ISO 26262 in 2011, requirements to establish confidence in the correct functioning of software tools used to develop safety-related automotive E/E systems came into effect. A decade later, there are plenty of experiences and lessons learned from applying these requirements in day-to-day engineering. However, implementing ISO 26262 tool classification and qualification remains a challenge for many automotive organizations and remains resource intensive.

A key design objective in the development of modern motor vehicles is ensuring functional safety. The safety standard ISO 26262 "Road vehicles - Functional safety" describes a lifecycle model for the development of safety-relevant electrical or electronic (E/E) systems in automobiles. This training class will provide you with the necessary knowledge for the practical application of ISO 26262 and shed light on how to implement the standard in your daily work projects. The duration and thematic focus will be tailored to your specific needs.

The importance of weight reduction in vehicle design is well known. In recent years, OEMs have been working on vehicle lightweight research and application, particularly for new energy vehicles. Currently, many Chinese OEMs establish a lightweight target and expect that weight savings will be distributed among the vehicle’s various systems.  This tends to keep the weight reduction effort at the level of parts or partial weight loss design development and application.

This course is offered in China only and presented in Mandarin Chinese. The course materials are bilingual (English and Chinese). As the complexity of products increases, traditional text-based systems engineering can no longer meet the needs. To solve the problem, Model-based Systems Engineering offers a unified communication platform among relevant staff by carrying out diagram-based unambiguous description, analysis and design for the demand, and structure and behavior of complex systems in the form of a model.

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.

As the electrification of automobiles is on the rise, it is imperative that the capabilities and limits of the associated devices and systems be understood at a higher level than previously considered adequate. For example, the Tesla Model S has 62 electric motors while the Model X has 70! They propel the vehicle and provide comfort too. Their design must reflect the worst case operating scenarios, duty cycles, environment, country of use and its standards, etc.

This course is offered in China only and presented in Mandarin Chinese. Static perceptual quality is the term applied to the customer’s first impression of a car at the beginning of the buying process including how it looks, feels, and smells. This “first feeling” largely determines whether the customer continues through the purchase process. At present, OEMs have no systematic method for static perceptual quality in the whole vehicle design and development process, especially for the static perceptual quality review in the early stage of design and development before data freezing.

This course, designed for EV motor engineers and graduate participants, systematically introduces EV motor design analysis and test verification. Combined with engineering practice, it discusses typical EV motor design cases and practical issues related to EV motor technology, aiming to broaden the horizon of EV motor design engineers and improve their problem-solving skills.

This course is offered in China only and presented in Mandarin Chinese. The course materials are bilingual (English and Chinese). This course is offered in Mandarin Chinese. The course materials are in English and Chinese. RTCA DO-178C is the accepted standard for civil aviation software development and certification, and Chinese civil aviation companies must comply with this standard to meet airworthiness requirements. Participants will attain a basic understanding of the concepts of DO-178C and how it is properly utilized.

Potential regulations surrounding the development, testing and commercial launch of Highly Automated Vehicles and possible liability exposure for the manufacturing and operation of Highly Automated Vehicles 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.

This course is offered in China only and presented in Mandarin Chinese. Developing environmentally cleaner and more fuel efficient vehicles is transforming the automotive industry worldwide. 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.