TRAINING ON
SYSTEMS ENGINEERING
(SE)
[ PRODUCT LIFECYCLE MANAGEMENT, PLCM]

Two and a half days of ONLINE or ONSITE training.

Why Choose “Us”, QVISE & GDS, for your Systems Engineering (SE) Training?

  • We offer comprehensive Systems Engineering training to equip professionals with the skills and knowledge necessary to excel in complex project development and management.
  • Our expert instructors combine in-depth industry experience with academic rigor to deliver engaging and practical training programs.
  • Benefit from our hands-on approach, real-world case studies, and tailored curriculum designed to meet your specific needs.
  • By choosing our training, you gain the competitive edge to optimize system design and processes, improve project efficiency, and drive successful outcomes.

Pre-Requisites

  • Minimum 3 years of industry experience (Preferably Maintenance Oriented)
  • Management Experience of at least 2 years (Preferred)
  • Bachelor’s degree in electrical / Electronics / Mechanical / Mechatronics Engineering
  • Integrated Logistics Support Basics
  • Understanding of electronic equipment and components – for Electronics Engineers
  • Knowledge of common mechanical equipment & components – for Mechanical Engineers
  • Possess strong analytical skills
  • Good understanding of mathematics

Testimonials

“For our recent project being carried out this course / training will be very beneficial.”
– SE Team Member (Module – 3)
“The course will influence my future work and the real case studies were the best part, where I could relate my past experiences and learn from the slight errors we had been making.” – SE Team lead (Module – 4)
“The Workshops have helped greatly in understanding the flow of real activities specially the technical processes to put into some practical use” – SE Team Member (Module – 4)

CM Course Program Details

  • We offer a comprehensive SE training program designed to equip professionals with the essential skills and knowledge to master complex systems development and integration.
  • This course covers the complete lifecycle of systems and products, from concept to delivery, ensuring participants gain a deep understanding of both technical processes and management practices.
  • Our experienced instructors, deliver a dynamic learning experience through real-world case studies, hands-on exercises
  • By choosing our training, you will gain the expertise needed to streamline your systems engineering processes, enhance project outcomes, and drive innovation within your organization.

SE Training Course Modules

  • Module 1: Introduction To Systems Engineering
  • Module 2: The System/ Product Life cycle
  • Module 3: Technical Processes
  • Module 4: Technical Management Processes
  • Module 5: Technical Reviews
  • Module 6: Practical Systems Engineering and Tailoring

CONTENTS OF SYSTEMS ENGINEERING (SE) TRAINING

1) INTRODUCTION TO SYSTEMS ENGINEERING (SE)

Objectives:

  • Define Systems Engineering and its role in product development.
  • Explain the key principles and concepts of Systems Engineering.
  • Identify the core processes and activities involved in Systems Engineering.
  • Understand the relationship between Systems Engineering and other engineering disciplines.
  • Recognize the benefits of applying Systems Engineering principles to project success.

Course Outline:

  • Defining what is a System
  • Understanding types of Systems and related concepts
  • Purpose of Systems Engineering and its importance
  • Identifying stakeholders & users of a system
  • General activities of a system
  • Documentation in Systems Engineering
  • Impact of systems engineering on an organization
  • History of Systems Engineering & its evolution over the years
  • Understanding roles & responsibilities of a Systems Engineer

2) THE SYSTEM / PRODUCT LIFE CYCLE

Objectives:

  • Understand the different types of system/ product life cycles for military and commercial use.
  • Describe the stages of the system/product life cycle and their interdependencies.
  • Explain the key activities and deliverables associated with each life cycle stage.
  • Understand the role of Systems Engineering in supporting the life cycle process.
  • Identify potential risks and challenges at different stages of the life cycle.

Course Outline:

  • An overview of the System/ Product Life cycle
  • Life cycle Concepts & Approach
  • Understanding the background of System/ Product Life cycles
  • Exploring the different types of System/ Product Life cycles
  • Planning of a System/ Product Life cycle
  • The Concept Stage in a System/ Product Life cycle
  • The Development Stage in a System/ Product Life cycle
  • The Production Stage in a System/ Product Life cycle
  • The Utilization/ Fielding Stage in a System/ Product Life cycle
  • The Support Stage in a System/ Product Life cycle
  • The Retirement/ Disposal Stage in a System/ Product Life cycle

3) SE TECHNICAL PROCESSES

Objectives:

  • Explore the various technical processes involved in Systems Engineering.
  • Identify the key stakeholders of technical processes.
  • Understand the purpose and objectives of each technical process.
  • Identify the key inputs, outputs, and activities associated with each process.
  • Address common challenges and best practices for effective technical process implementation.

Course Outline:

  • Overview of the Technical Processes in a System/ Product Life cycle
  • Technical Processes in different standards/ guidebooks
  • Business & Mission Analysis Process
  • Requirements Analysis Process
  • Stakeholder Needs & Requirements Definition Process
  • System Architecture Design Process and System Analysis Process
  • Implementation Process
  • Integration Process
  • Transition Process
  • Verification Process
  • Validation Process
  • Operation, Maintenance & Disposal Process

4) SE TECHNICAL MANAGEMENT PROCESSES

Objectives:

  • Explore the technical management processes involved in Systems Engineering.
  • Identify the key stakeholders of technical management processes.
  • Understand the purpose and objectives of each technical management process.
  • Identify the key inputs, outputs, and activities associated with each process.
  • Address common challenges and best practices for effective technical management.

Course Outline:

  • Overview of the Technical Management Processes in a System/ Product Life cycle
  • Technical Management Processes in different standards/ guidebooks
  • Technical Planning Process
  • Project Assessment & Control Process
  • Decision Analysis Process
  • Technical Assessment Process
  • Requirements Management Process
  • Risk Management Process
  • Configuration Management Process
  • Technical Data/ Information Management Process
  • Interface Management Process
  • Quality Assurance Process

5) SYSTEMS ENGINEERING TECHNICAL REVIEWS (SETR)

Objectives:

  • Explain the purpose and types of technical reviews in Systems Engineering.
  • Discover technical review timelines and the importance of milestones in a System/ Product life cycle.Understand the criteria and processes for conducting effective technical reviews.
  • Develop strategies for addressing issues and recommendations identified during reviews.
  • Integrate technical reviews into the overall Systems Engineering process.

Course Outline:

  • Overview of Milestones and Technical Reviews in a System/ Product Life cycle
  • Timeline of Technical Reviews in a System/ Product Life cycle
  • Different types of Technical Reviews and their importance
  • Alternative Systems Review (ASR)
  • System Requirements Review (SRR)
  • System Functional review (SFR)
  • Preliminary Design Review (PDR)
  • Critical Design Review (CDR)
  • System Verification Review (SVR)/ Functional Configuration Audit (FCA)
  • Technology Readiness Review (TRR)
  • Production Readiness Review (PRR)
  • Physical Configuration Audit (PCA)

5) PRACTICAL SYSTEMS ENGINEERING AND TAILORING

Objectives:

  • Tailor Systems Engineering processes to project requirements and constraints.
  • Analyze real-world case studies to identify successful practices and lessons learned.
  • Develop strategies for overcoming common challenges in Systems Engineering projects.
  • Evaluate the effectiveness of tailoring in achieving project objectives.
  • Conduct test exercises to reinforce learning and develop problem-solving skills.

Course Outline:

  • Considerations for Tailoring
  • Systems Engineering Methodologies & Considerations
  • Types of Systems to consider
  • Tailoring processes for Systems Engineering
  • Application of Systems Engineering in Practical Field
  • Specialty Engineering Principles
  • Competency of a System Engineer
  • Discovering Real-World scenarios where Systems Engineering failed
  • Future of Systems Engineering