Aerospace Systems Engineering Training

Aerospace Systems Engineering Training

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Introduction:

Aerospace Systems Engineering Training Course Hands-on

Aerospace systems engineering training covers the fundamentals of systems engineering and their applications in aerospace systems, emphasizing on commercial and military systems We will provide you with a practical knowledge of all components, technical and managerial, included in systems engineering as used in aerospace systems of variable complexity.

This hands-on Aerospace Systems Engineering Training will focus on the challenging parts in systems development including requirements definition, integration, distribution of requirements, risk management, verification and validation. We also will discuss the techniques and methods used on commercial systems, DoD, NATO and NASA programs.

Duration: 3-4 days

Aerospace Systems Engineering Training
 
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Customize It:

• If you are familiar with some aspects of Aerospace Systems Engineering Training, we can omit or shorten their discussion.
• We can adjust the emphasis placed on the various topics or build the Aerospace Systems Engineering Training 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 Aerospace Systems Engineering Training course in manner understandable to lay audiences.

Audience / Target Group:
◾ Design engineers
◾ Aerospace engineers
◾ Support engineers
◾ Space program managers
◾ Systems engineers
◾ Military avionic program managers
◾ Space, military, and commercial product managers

Objectives:

After completing this Aerospace Systems Engineering Training course, attendees will be able to:

◾ Understand the fundamentals of systems engineering
◾ Describe avionic and aircraft systems
◾ Define aerospace systems engineering processes
◾ Describe the aerospace-associated programs life-cycle process
◾ Identify aerospace systems components
◾ Identify and provide systems requirements and management
◾ Design the aerospace system
◾ Integrate their aerospace specialty into systems engineering
◾ Model aerospace system architecture
◾ Apply verification and validation techniques
◾ Apply the models and methods fit aerospace systems
◾ Manage technical data
◾ Manage and mitigate technical risks
◾ Conducting crosscutting techniques
◾ Manage and support required logistics
◾ Understand data acquisition and control systems

Aerospace Systems Engineering Training – Course Content:

Overview of Aerospace Systems Engineering

◾Systems engineering
◾Systems engineering components
◾System of systems engineering
◾Systems engineering objectives
◾Systems engineering discipline
◾Aerospace systems
◾NASA space systems
◾DoD System of Systems (SoS)

System Lifecycle Process

◾Researching
◾The V diagram
◾The project lifecycle process flow
◾Preliminary analysis
◾Definition
◾Development
◾Operations and maintenance
◾The budget cycle

Aerospace Systems Engineering Management Concerns

◾Coordinating balanced goals, work products, and organizations
◾The aerospace Systems Engineering Management Plan (SEMP)
◾The aerospace SEMP impact
◾The aerospace SEMP content
◾The aerospace SEMP development
◾The Work Breakdown Structure (WBS) vs. Product Breakdown Structure (PWBS)
◾WBS and PBS roles
◾WBS and PBS development tools
◾Common mistakes of WBS and PBS
◾Scheduling and scheduling impact
◾System schedule info and visual styles
◾Setting up a system schedule
◾Reporting methods
◾Resource leveling
◾Budgeting and resource management
◾Risk management
◾Various types of risks
◾Risk determination methods
◾Risk assessment methods
◾Risk reduction methods
◾Configuration Management
◾Baseline development
◾Configuration management strategies
◾Managing information
◾Reviews, audits, and control
◾Objectives
◾Overall rules
◾Main control accesses
◾Temporary review
◾Reporting the state and evaluation
◾Cost and schedule control measurement indices
◾Engineering performance evaluation
◾Aerospace systems engineering process metrics

Systems Assessment and Modeling Concerns in Aerospace

◾The trade study development
◾Regulating the trade study
◾Models and tools
◾Selecting the selection rule
◾Defining and modeling the budget
◾Life-Cycle expenses and other expenses evaluation
◾Monitoring life-cycle costs
◾Cost approximation
◾Defining and modeling the effectiveness
◾Measuring the system effectiveness methods
◾NASA system effectiveness evaluation
◾Accessibility and logistics supportability modeling
◾Probabilistic management of cost and effectiveness
◾Origins of uncertainty in models
◾Modeling methods for managing uncertainty

Integrating Aerospace Engineering Into the Systems Engineering Process

◾Aerospace engineering role
◾Reliability
◾Role of the reliability
◾Building consistent space-based systems
◾Reliability assessment tools and methods
◾Quality assurance
◾Role of the quality assurance engineer
◾Quality assurance tools and methods
◾Maintainability
◾Responsibility of the maintainability engineer
◾The system maintenance notion and maintenance plan
◾Designing maintainable space-based systems
◾Maintainability evaluation tools and methods
◾The avionic Integrated Logistics Support (ILS)
◾ILS components
◾Planning for ILS
◾ILS tools and methods
◾Continuous attainment and life-cycle support
◾Verification
◾Verification process
◾Verification planning
◾Qualification verification
◾Acceptance verification
◾Deployment verification
◾Functional and disposal verification
◾Production
◾Production engineer responsibilities
◾Tools and methods
◾Publicly accepted
◾Environmental impacts
◾Nuclear safety launch authorization
◾Planetary protection

Functional Assessment Methods

◾Functional methods
◾N2 diagrams
◾Timeline analysis

Functional Analysis

◾Boeing B-777: fly-by-wire flight control systems
◾Electrical flight control systems
◾Navigation and tracking Systems
◾Flight management systems
◾Synthetic vision
◾Communication systems
◾Satellite systems
◾Sensors systems

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