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Systems Engineering

The Systems Engineering - Essentials training course, provides a comprehensive overview of the activities that comprise software requirements engineering including software requirements elicitation, analysis, and specification. These activities are introduced as they occur in the context of Systems Engineering Essentials and various software development life-cycle models.

The Advanced Systems Engineering training course introduces to a proven and advanced system engineering process and methodology that can be applied to any complex project. This course will assist with the organization of requirements, the identification and management of risks, the establishment of real system boundaries for development activity, reliability and quality assurance.

By attending Systems Engineering - Essentials workshop, delegates will learn to:

  • Understand Systems Engineering Essentials requirements analysis and design
  • Explore system engineering management
  • Utilize tools and techniques essential for development of complex systems
  • Explore applied practical problems to aid understanding systems engineering reliability and performance issues
  • Work with customers to better translate user needs into outstanding delivered products
  • Define optimal verification and validation programs tailored to the organization and its customers
  • Manage risk in a cost constrained environment
  • Explore software requirements engineering
  • Understand software life-cycle models
  • Explore product technical quality assurance

By attending Advanced Systems Engineering workshop, delegates will learn to:

  • Describe System Engineering Planning and Management
  • Acquire System Engineering Project Management
  • Understand Advanced Systems Engineering processes
  • Utilize advanced engineering disciplines and program/project management
  • Demonstrate its role and value in the development of products, processes, and services
  • Understand advanced concepts in the development cycle, generating requirements, selecting alternative solutions, QA, testing and measuring of solution development relative to requirements
  • Produce designs and cost estimates of complex products faster and cheaper
  • Work with customers to better translate user needs into outstanding delivered products
  • Define optimal verification and validation programs tailored to your company and your customer’s risk threshold
  • Manage risk in a cost constrained environment
  • Trade systems resources including technical, cost, and schedule
  • Explore case studies including templates, and checklists that support the Advanced Systems Engineering approach

  • Product managers
  • Project managers
  • R & D managers
  • Engineering managers
  • Systems engineers
  • Business analysts
  • Systems analysts
  • System architects
  • Solution architects
  • Enterprise architects
  • Software systems engineers
  • Software engineers
  • Design engineers
  • Hardware engineers
  • Project engineers
  • Industrial engineers

Any individual interested in Systems Engineering principles, Systems Engineering processes/methodologies, integration of the necessary technical disciplines and Systems Engineering management.

COURSE AGENDA

Systems Engineering - Essentials
(Duration : 5 Days)

1

Overview of System Engineering Process

  • Concept Exploration
  • Concept Definition
  • Requirements Analysis
  • System Synthesis
  • Design Tradeoffs
  • Risk Assessment
  • Engineering Design
  • Verification and Validation
  • System Integration
  • Operations and Maintenance
2

Business/Mission Needs and Objectives

  • Introduction of System Engineering (SE) Process and Templates
  • Project Mission Objectives
  • Cost, Schedule, Resources and Tasks
  • Proposal Development (RFPs)
  • Information for Bid (IFB)
  • Resource Allocation
  • Task Definitions
  • Statement of Work (SOW)
  • Work Breakdown Structure (WBS)
3

Apply standards (ISO, EIA, and IEEE), the SEI Capability Maturity Models – Integration (CMM – I)

  • Working with advanced systems engineering process
  • Working with V-Diagram
  • Advanced engineering disciplines and program management
  • Overview of advanced concepts in the development cycle
  • Using Agile processes
4

Leading and Managing SE Activities

  • Planning for Design and Development (SEMP/TEMP)
  • Program/Project Management vs. Systems Engineering
  • Bridging the gap between Program Management and System Engineering
  • Plans, Processes, and Documentation
  • The Context of the System in its Environment
  • Engineering Complex Systems
  • Understanding the System Environment
  • Needs Analysis
  • Statement of Objectives
  • Defining the Operational Requirements
  • Measures of Effectiveness and Performance
  • Concept of Operations (CONOPS)
  • Describing System Requirements
  • Requirements Engineering
5

Concept of Operations (CONOPS)

  • Operational Scenarios
  • Working with Use Cases
6

Requirements analysis and design with Use Cases

  • System Engineering Management
  • Tools and techniques essential for development of complex systems
  • Definition of the Problem
  • Measures of Effectiveness/Measures of Performance
  • Needs and Objectives Analysis
  • Concept and Engineering Development
  • Design and Development
  • Systems Engineering Method
  • Requirements Engineering
7

Reliability Engineering

  • Reliability engineering principles
  • How operations can improve reliability of their processes
  • How to influence improvements in availability
  • How someone can assist in reducing process failures
  • Root Cause Failure Analysis
  • Error Control Coding (ECC) Fundamentals
  • Related Case Studies and Projects
8

System Design, Development, and Integration

  • Prototype Development
  • Sub-system and component design
  • Integrating, Testing, and Evaluating the System
  • Planning for Design, Integration, and Testing
9

Design Reviews

  • SRR (System Requirements Review)
  • PDR (Preliminary Design Review)
  • SFR (System Functional Review)
  • CDR (Critical Design Review)
  • DDR (Detailed Design Review)
  • PRR (Production Readiness Review)
  • TRR (Test Readiness Review)
  • SVR (System Demonstration and Validation)
10

System Deployment and Operations

  • Production and Deployment
  • Transition to support
  • Systems fielding
  • Operations and maintenance of deployed systems
  • System modifications and upgrades
  • Modernization, the Big Upgrade
  • Retirement and replacement of systems
  • Training
11

Leading and Managing SE Activities

  • Planning for Deployment, Operations, and the Transfer of Systems and Technologies
  • Managing System Projects
  • Managing Risks
  • Integrated Logistics support
  • Collaborating with Teams and Technical Specialties
  • Presenting the Team Project
Systems Engineering - Advanced
(Duration : 3 Days)

1

Introduction to Advanced Systems Engineering

  • Extracting and organizing requirements
  • Defining project boundaries
  • Establishing the system-level functional and physical contexts
  • Introduction to behavior modeling
  • Deriving the detailed system functionality
  • Allocating functional behavior to the physical architecture
  • Interfaces and physical links
  • Test planning and requirements verification
2

Managing System Deployment and Operations Scenarios

  • From Production to Deployment
  • Transition to support
  • Systems fielding
  • Operations and maintenance of deployed systems
  • Sustainment of existing systems
  • System modifications and upgrades
  • Modernization, the Big Upgrade
  • Retirement and replacement of systems in the operations environment
  • Training of end users and systems administrators
3

Building SE Competencies

  • Concept Definition
  • Requirements Engineering
  • System Architecture
  • System Design and Development
  • Systems Integration
  • Test and Evaluation
  • Systems Implementation, O&M, and Transition
  • SE Planning and Management
  • Collaborating with Technical Specialties
  • Building Successful Teams
  • Communicating with Impact
  • Results Orientation
  • Adaptability
4

Project Management skills

  • Project Management skills applied to Advanced Systems Engineering
  • Integration Management
  • Scope Management
  • Quality Management
  • Time Management
  • Cost Management
  • Risk Management
  • Human Resource Management
  • Procurement Management
  • Communications Management
  • Advanced Systems Engineering Project Management
  • Personal Time Management
  • Formal Scheduling and Resource Allocation
  • Planning, tasking, and controlling complex task structures
  • Managing life cycle implementations
5

Plans, Processes, and Documentation

  • Configuration Management Plan
  • Operations and Maintenance Plans/Documentation
  • Project Plan
  • Quality Assurance Plan
  • Risk Management Plan
  • Risk Mitigation Plan
  • Strategic Plans (Acquisition Strategy)
  • Advanced Systems Engineering Plan
  • Advanced Systems Engineering Management Plan
  • Systems Integration Plan
  • Tailored Systems/Software Engineering Processes
  • Test and Evaluation Master Plan
  • Training Plans and Documentation
6

Cost, Schedule, Resources and Tasks

  • Cost and Schedule
  • Cost/benefit Analysis
  • Critical Path Method Analysis
  • Market Research Analysis
  • Proposal Development (RFPs)
  • Information for Bid (IFB)
  • Resource Allocation
  • Task Definitions
  • Statement of Work (SOW)
  • Work Breakdown Structure (WBS)
7

Alternative learning concepts

  • Operation research analysis approach
  • Incremental evolutionary approach
  • Revolutionary strategies
8

Attributes of engineering complex systems

  • Creating a High-Performing team for Advanced Systems Engineering
  • Constructing Advanced Systems Engineering Requirements
  • Performing a Functional Analysis
  • Developing a Systems Architecture
  • Performing System Design and Development
  • Conducting Technical Reviews and Audits
  • Using Configuration Management
  • Verification and Validation Testing
  • Managing Risk
  • Managing System Cost and Schedule Estimation
  • Producing the System
  • Advanced Systems Engineering Management and Planning
  • Review of needed attributes
  • Hypothesis for improving design attributes
  • Alternative hypothesis
9

Communication skills

  • Writing, speaking, listening and computer literacy
  • Data base design capture
  • Simulation based design capture
  • Optimizing design capture
10

Synthesis and creativity skills

  • Separating real and preconceived constraints
  • Synthesis and abstraction skills
  • Creativity can be learned
  • Creative problem solving
11

Team building

  • Resources
  • Building small teams
  • Leadership and formal team building
  • Creating hierarchies of product teams
  • Managing complex team structures
12

Process skills

  • Work breakdown structures/risk management
  • Life cycle models
  • Planning the life cycle
  • Planning product architecture
  • Control of the life cycle
  • Task controls
  • Complex program control systems
  • Maturity and capability of a given process
  • Integrated product and process team approaches
  • Design model verification
  • Capability assessment of education efforts to enhance
13

System maintainability and maintenance, system supportability and logistics

  • Engineering Economics and Cost Analysis Simulation-Based Costing and Acquisition Tools and models
  • Trade-offs between system performance and life-cycle cost
  • Historical overview of the management accounting process
  • Statistical cost estimation
  • Cost allocation
  • Modeling and Simulation
  • Problem formulation
  • Model building
  • Data analysis
  • Elements of Operations Research
  • Strong modeling orientation
  • Decision-oriented models
  • Linear programming
  • Inventory control
  • Forecasting
14

Systems Operational Effectiveness and Life-Cycle Analysis

  • Process for designing effective reliable system operational effectiveness
  • Design decisions and system operation
  • Maintenance and logistics
  • Advanced Data Analysis and Forecasting
  • Data analysis and presentation
  • Linear and nonlinear regression
  • Neural networks
  • Factor analysis
  • Analysis of variance
  • Time series analysis
  • Other regression techniques will be presented
  • MATLAB software packages
  • Industry standard data analysis and mining tools: SPSS, SAS, and BrainMaker
15

System Engineering of Complex Systems

  • Effective Advanced Systems Engineering
  • Engineering management
  • Project definition
  • Work breakdown
  • Estimating
  • Resource planning
  • Critical path development
  • Scheduling
  • Project monitoring and control
  • Scope management

Encarta Labs Advantage

  • One Stop Corporate Training Solution Providers for over 6,000 various courses on a variety of subjects
  • All courses are delivered by Industry Veterans
  • Get jumpstarted from newbie to production ready in a matter of few days
  • Trained more than 50,000 Corporate executives across the Globe
  • All our trainings are conducted in workshop mode with more focus on hands-on sessions

View our other course offerings by visiting https://www.encartalabs.com/course-catalogue-all.php

Contact us for delivering this course as a public/open-house workshop/online training for a group of 10+ candidates.

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