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Training / Education

Role of DER-AR and Airworthiness Certification Process

This four-hour short course will provide an overview of the airworthiness certification process and the role of the FAA Designated Engineering Representative (DER) and Authorized Representative (AR) with insight into the type design, minor/ major Changes, FAA conformity process, and test witnessing. It also provides familiarity with FAA forms.

Training / Education

Filtration and Contamination Control for Aerospace Hydraulic Systems

This four-hour short course provides an introduction to contamination control principles in aircraft hydraulic systems. Topics covered include an introduction to the types of contamination in aircraft hydraulic systems, contaminant measurement, and reporting methods. In addition, the impact of contamination on hydraulic components is discussed in detail. Along with an introduction to filtration mechanisms, information on testing, rating, and specifying filters will be provided.

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

Understanding and Supporting Aircraft Accident Investigation and Reconstruction

Aircraft accident and incident investigations should be supported by all engineering disciplines and departments involved with design, manufacturing, certification, and field operations. For individuals called upon to serve as advisors or technical representatives to official aircraft accident investigation (AAI) teams, an understanding of accident and wreckage reconstruction methodologies and processes is critical to success in this supportive role. This two-day course will begin with basic investigative philosophies and procedures.

Training / Education

Infrared Camera 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. Among the challenges are those of sensing the environment in and around the vehicle. Infrared camera sensing is seeing a rapid growth and adoption in the industry. The applications and illumination architecture options continue to evolve. This course will provide the foundation on which to build near infrared camera technologies for automotive applications.

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

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

A Primer on Regulations and Liability Considerations for HAV’s

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.

Training / Education

Navigating Requirements for International Certification of Aviation Products

This course describes the basic elements of the process for achieving a successful aircraft certification globally once certification by the State of Design has been accomplished. The regulatory framework established under ICAO is presented with discussion of how major countries around the world comply with the ICAO Standards and Recommended Practices (SARPs). The uncertainty of how each country performs validation is a challenge. This course identifies common validation practices and key bilateral agreements which facilitate acceptance of aviation products from one country to another.

Training / Education

Creating and Managing a Product Compliance Program

This two-day course presents a process development methodology that can be used repeatedly as new compliance requirements emerge.  You will learn best practices in creating a compliance program for your products and markets, and how to use this program at all stages of product development and production.  Sample spreadsheets will be used to demonstrate tailoring the program to your product, your markets, and your organization.  A properly managed compliance program simplifies the certification or approval of your product, and ensures that you regularly apply and document good engineering practices for product safety and reliability.

Training / Education

Systems Engineering for Prognostics and Health Management (PHM) Systems

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.

Training / Education

Aviation Safety Engineer Job Functions

This course content provides the Civil Aviation Safety Engineers (Systems - Electrical) with the knowledge and skills to conduct oversight of aviation safety, aircraft certification and Continued Operational Safety. These areas of responsibility include, but are not limited to, Type Certification, Amended Type Certification, Supplemental Type Certification, Parts Manufacturing Approval (PMA), Technical Standard Order (TSO) Continued Operational Safety, Flight manuals, and Operational Approvals.

Training / Education

FAA/EASA Certification, Methods of Compliance for 29.865 External Loads

Certifying an aircraft, part or appliance can be challenge. The FAA/EASA procedures can be frustrating and a maze of rules, policy and guidance. Understanding the process and procedures can provide you with a competitive edge and reduce your time obtaining a Certification approval. This course provides an overview of the Federal Aviation Administration (FAA) and European Aviation Safety Agency (EASA) policies, guidelines and requirements leading to Type and Supplemental Type airworthiness approvals. This course has a focus on 29.865 External loads to include hoists, belly-mounted external structure and cargo hook loads.

Training / Education

Guidance for Model-Based Development and Verification (DO-331)

This course is offered in China only and presented in Mandarin Chinese. The course materials are bilingual (English and Chinese). Model-Based Development and Verification (MBDV) technology has been widely accepted in software production. When this technology is used in airborne software, key issues should be considered to ensure airworthiness and safety goals are met. To facilitate the use the MBDV technology, RTCA DO-331 is published as a supplement and guidance support to DO-178C. Because MBDV is regularly used in critical software applications, guidance is needed to apply it to airborne software.

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

FAA/EASA Certification, Methods of Compliance for 29.801 Ditching

Certifying an aircraft, part or appliance can be a challenge.  The FAA/EASA procedures can be frustrating and a maze of rules, policy and guidance. Understanding the process and procedures can provide you with a competitive edge and reduce your time obtaining a Certification approval. This course provides an overview of the Federal Aviation Administration (FAA) and European Aviation Safety Agency (EASA) policies, guidelines and requirements leading to Type and Supplemental Type airworthiness approvals. This course has a focus on 29.801 Ditching and EASA 29.802 Emergency Flotation.

Training / Education

Safety of the Intended Functionality (SOTIF) for Automotive Professionals

Ensuring the safety of a driving automation system encompasses two aspects, namely (1) the avoidance of unreasonable risk caused by malfunctioning behavior of the system as well as (2) the avoidance of unreasonable risk caused by hazards associated with the intended functionality and its implementation, e.g. due to performance limitations. The first aspect - known as functional safety - has been addressed by the industry for quite some time already and is described by the established ISO 26262 standard.

Training / Education

Safety Analyses in the Context of ISO 26262

Inductive and deductive safety analyses play an essential role within the ISO 26262 safety life cycle. Qualitative analysis methods are used to identify failures whereas quantitative methods are utilized to predict the frequency of failures. This one-day training class introduces the fundamentals of common safety analysis methods such as FMEA, FMEDA, and FTA and discusses the role of these methods in the development of safety-related E/E systems as per ISO 26262.

Training / Education

Functional Safety à la Carte

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.

Training / Education

ISO 26262 Tool Classification and Qualifications

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.