ARP-4761 Training | Safety Assessment Guidelines

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ARP-4761 Training | Safety Assessment Guidelines Course Hands-on

ARP-4761 training provides you with the strategies and techniques to execute safety analysis. Such strategy is relevant with demonstrating compliance with certification criteria (14CFR/CS Parts 23 and 25, section 1309) and helping an organization to fulfill their own unique safety guidelines. The safety procedures explained are mainly relevant with civil avionic gear but the procedures and techniques might be used in several cases.

ARP-4761 Training covers the standard data to perform the industry approved safety analysis including Functional Hazard Assessment (FHA), Preliminary System Safety Assessment (PSSA), and System Safety Assessment (SSA). We will discuss different safety evaluation techniques required to implement and perform the safety analysis. We also will teach you various safety evaluation techniques consisting of Fault Tree Analysis (FTA), Dependence Diagram (DD), Markov Analysis (MA), Failure Modes and Effect Analysis (FMEA) and Common Cause Analysis (CCA). CCA is comprised of Zonal Safety Analysis (ZSA), Particular Risks Analysis (PRA), and Common Mode Analysis (CMA).

ARP-4761 Training teaches you the Safety Assessment Process in avionic systems, as well as incorporating it with other execution procedures. We will discuss the essence of the Reliability Theory and its relevance to airborne systems, equipment specifications and that how they are applied during both the initial and final system safety assessment process.

ARP-4761 training course also considers each of the tools and techniques for performing the Safety Assessment Process, containing real-world scenarios for each of the fundamental methods. We will elaborate precisely how the regulatory structure works and how ARP-4761 fits in. We also explain how ARP-4761 corresponds to other standards for civil airborne systems and equipment, in particular with ARP-4754A.

ARP-4761 training course is mostly dedicated to the practical activities including labs, individual/group activities, and hands-on workshops.

Duration: 2 days

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Customize It!

● We can adapt this ARP-4761 Training | Safety Assessment Guidelines course to your group’s background and work requirements at little to no added cost.
● If you are familiar with some aspects of this ARP-4761 Training | Safety Assessment Guidelines course, we can omit or shorten their discussion.
● We can adjust the emphasis placed on the various topics or build the ARP-4761 Training | Safety Assessment Guidelines course around the mix of technologies of interest to you (including technologies other than those included in this outline).
● If your background is nontechnical, we can exclude the more technical topics, include the topics that may be of special interest to you (e.g., as a manager or policy-maker), and present the ARP-4761 Training | Safety Assessment Guidelines course in manner understandable to lay audiences.

Audience / Target Group

ARP-4761 training is a 2-day course designed for:

Engineers and professionals
Safety officers and managers
Quality managers
Project engineers
Safety engineers
Software/hardware engineers
Quality assurance or certification personnel

ARP-4761 Training - Objectives:

Upon the completion of ARP-4761 training, the attendees are able to:

● Recognize several safety analysis techniques
● Relate the main participants of ARP-4761 FHA, PSSA, SSA, FTA, DD, MA, CCA
● Recognize the use of safety methods
● Determine the communication among the safety procedures and the development procedures
● Use several safety tools in implementation of a PSSA or SSA
● Analyze potential methods for presence in ARP-4761
● Comprehend the procedures necessary for the development of civil aerial systems and technology
● Deliver comprehensive goals that must be fulfilled by the systems development procedure
● Explain the overall rules and that how they are used to identify DALs
● Employ the verification and validation methods as part of the system development procedure
● Employ the new standard material inside their own organizational framework
● Describe the avionic systems development procedure and its association with the safety analysis procedure
● Determine the main avionic systems development procedures and their interrelationships

ARP-4761 Training - Course Content:

Overview of ARP-4761

ARP-4761 description
History and background
Methods and tools
Best practices
Life cycle
System Safety Assessment Process
Faults, Errors, and Failures
Basic definitions
Development & certification process

Model-Based Safety Analysis Process

Model-based development
Model-based safety assessment
Nominal system modeling
Validating consequent safety criteria
Fault modeling
Model extension
Safety assessment simulation
Proofs of safety specifications
Fault trees

ARP-4761 Methods

Functional Hazard Assessment (FHA)
Preliminary System Safety Analysis (PSSA)
Fault Tree Analysis (FTA)
Dependency Diagram (DD)
Markov Analysis (MA)
Failure Modes & Effects Analysis (FMEA)
Common Cause Analysis (CCA)
Particular Risks Analysis (PRA)
Zonal Safety Analysis (ZSA)
Common Mode Analysis (CMA)
System Safety Analysis (SSA)

Safety Life Cycle

Executing the aircraft level FHA while developing the aircraft level criteria
Implementing the system level FHA along with with distribution of aircraft operations to system operations, and begin the CCA
Conducting the PSSA align with system structure development, and renew the CCA
Repeating the CCA and PSSA as the system is apportioned into hardware and software elements
Conducting the SSA in line with system execution, and completing the CCA
Supplying the outcomes of the previous steps into the certification process

Development Assurance Levels

Level A
Extremely Improbable
Level B
Extremely Remote
Level C
Level D
Reasonably Probable, frequent

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Time Frame: 0-3 Months4-12 Months

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