Price: $2,450.00

Length: 3 Days
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ARP-4754A Training, Guidelines for Development of Civil Aircraft and Systems

ARP-4754A Training Course Description, arp4754a training

ARP-4754A Training covers systems and software engineering for airplane systems. ARP-4754A Training explains the governing structure that matches with ARP-4754A, how it associates with other standards for civilian avionic systems and equipment. ARP-4754A Training discusses the features of the systems planning, execution, verification and validation protocols together with the particular goals used in each Design Assurance Level (DAL).

ARP-4754 training also teaches you the strategies for the development of civilian and commercial airplanes and systems and demonstrates how the safety analysis procedure incorporates with the system development and, specifically, how the methods of architectural extenuation can be applied to fulfill the expected safety objectives to recognize the DALs.

ARP-4754A Training Civil Aircraft and Systems

Learn About:

  • The ARP-4754A’s correlation to ARP-4761, the system safety guideline
  • How DO-178C, DO-254, DO-297, DO-160, TSO’s, PMA’s and TC’s are related
  • The application of ARP-4754A in military systems and commercial avionics
  • Common ARP-4754A errors and the strategies to avoid such errors
  • Taking advantage of the already existing systems engineering protocols and artifacts
  • The best practices to incorporate software and hardware development and verification
  • ARP-4754A best practices

TONEX ARP-4754A training is mainly dedicated to practical exercises including several labs, individual/group activities, and hands-on seminar and workshops. Participants will experience what they are taught in real-world projects and case studies.


ARP-4754A training is a 3-day course designed for:

  • Systems engineers
  • Software engineers
  • Designing and planning engineers
  • Aerospace engineers
  • Project and product managers
  • Safety/Reliability engineers
  • Certification engineers
  • Model inspection control office

Training Objectives

Upon the completion of ARP-4754A training, the attendees are able to:

  • Comprehend the concepts and logics behind APR-4754A
  • Discuss the tools and methods associated with ARP-4754A
  • Discuss the goals for the system development process for civilian and commercial airplanes
  • Understand and articulate the correlation between the systems development processes, safety evaluation, and component development processes
  • Understand the fundamental rules of ARP-4754A
  • Apply the principals of ARP-4754A in various frameworks
  • Understand FDALs and IDALs requirements
  • Explain particular actions for validation and verification
  • Understand the necessary protocol for the development of civil avionic systems
  • Deliver thorough goals that must be fulfilled by the systems development protocol
  • Explain the general rules and how they are used to recognize DALs
  • Allow them to use the verification and validation methods and criteria as part of the system development protocol
  • Employ the new standard material inside their own corporate structure
  • Recognize the modifications between the legacy ARP4754 and ARP4754A
  • Describe the airplane/systems development protocol and its communication with the safety analysis process
  • Recognize the main aircraft/systems development protocols and their interrelationships
  • Determine several safety analysis techniques and tools
  • Communicate the key qualities of ARP4761: FHA, PSSA, SSA, FTA, DD, MA, CCA
  • Recognize the applications in safety techniques
  • Recognize the communication between the safety protocols and the development procedures
  • Use several safety techniques in implementation a PSSA or SSA

Course Outline

Overview of ARP-4754A

  • Definition of ARP-4754A
  • History of ARP-4754A
  • ARP-4754A applications
  • ARP-4754A documentation
  • ARP-4754A limitations and interferences
  • ARP-4754A life cycle process
  • ARP-4754A relationship with other standards
Relationship to safety analysis procedures
Systems engineering protocols & documentation
Architectural deliberations
Requirements validation & system verification

Civil Aircraft Certification and the FAA/EASA

  • Certification specialists
  • FAA and EASA
  • DOAs, ODAs, designations and approval
  • CFR their corresponding EASA standards
  • Strategies and policies
  • Civilian and military guideline

Approval Certificates Classification

  • The class of certificate
  • Approval certificate for goods and parts
  • Technical standard instructions
  • Part producer authorization
  • Complementary certificates
  • Manufacture certificate

Compliance Tools and the FAA Guideline

  • Compliances potential tools
  • Industry guidelines as MOC
  • DO-178C
  • DO-254
  • Other SW/HW relevant certification
  • DO-160G
  • ARP 4754A

ARP-4754A Standards Associated with Civil Aircraft Systems Development

  • Associated documentation
  • Overview of the document
  • Overview of the procedures
  • Development planning and processes

ARP-4754A Safety Protocol Planning and Safety Analysis

  • Hazards and their impacts
  • Failure rates
  • Preliminary system safety assessment
    • Risk mitigation strategies
    • Fault Tree Analysis (FTA)
  • Functional hazard analysis
    • Aircraft functional hazard assessment
    • System functional hazard assessment
  • Common cause assessment
  • Aircraft/system safety evaluation
  • Determination safety / reliability
  • Aircraft functional hazard analysis
  • System functional hazard analysis
  • System safety evaluation
    • Failure modes and effects analysis (FMEA)
    • Quantitative/Qualitative verification
  • Common cause assessment
    • Aircraft zonal safety analysis (ZSA)
    • Particular risks analysis (PRA)
    • Common mode analysis (CMA)

ARP-4754A Main Features

  • ARP-4754A relationship with ARP-4761A, DO-178C, and DO-254
  • ARP-4754 vs ARP-4754A
  • ARP-4754A planning
  • ARP-4754A required safety
  • Handling Derived and Safety Requirements per ARP-4754A
  • System requirements
  • System planning, development, and traceability
  • ARP-4754A documentation
  • ARP-4754A verification & validation
  • ARP-4754A best practices
  • ARP-4754A common errors and how to avoid them

Incorporated Procedures

  • Requirement management
  • Execution verification
  • Configuration management
  • Assurance planning protocol
  • Regulatory authority coordination
  • Safety analysis
  • Assurance development

Aircraft / Systems Development Process

  • Process review
  • Relationships with safety processes
  • Interactions with hardware and software development processes

TONEX Group Activities Sample

Assume that you have a tier-1 aerospace supplier client. The task is to perform ARP-4754A compliance verification for Primary Flight Control Computer (PFCC) necessary before experience on flight control components to facilitate the system verification protocol. Also you are assigned to conduct a thorough testing and verification in a time course of 25 weeks with limited access time to the test bench.

ARP-4754A Training

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