Systems Engineering: Principles And Practice
Published 6/2026
Created by Alberto Leon Alonso, Metranos ltd
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz, 2 Ch
Level: All Levels | Genre: eLearning | Language: English + subtitle | Duration: 13 Lectures ( 3h 33m ) | Size: 4.1 GB
Master the complete SE lifecycle - requirements, architecture, V&V, and technical risk management.
What you'll learn
Apply the Systems Engineering process across the full project lifecycle. Build and manage key SE work products used on real programs Execute structured verification, validation, and technical risk management Navigate modern SE methods including MB SE, Agile SE, and specialty engineering disciplinesRequirements
Required An engineering or technical background - You should be comfortable with technical documents, engineering drawings, or project specifications. The course assumes you understand what it means to design, build, or test something, even if not in a formal SE role. Basic project familiarity - You should know what a project schedule, a requirement, and a deliverable are. No formal project management training is needed, but the concepts should not be foreign. Helpful but not required Exposure to any engineering discipline - aerospace, software, mechanical, electrical, civil. Systems Engineering is multi-disciplinary by design; your specialty is an asset, not a limitation. Familiarity with one or both reference handbooks (NASA SP-2016-6105 or the INCOSE Systems Engineering Handbook v4) will let you go deeper, but the course is self-contained and does not assume you have read either document. Not required No prior Systems Engineering training or certification is expected. The course starts from first principles. No specific software tools are required. All diagrams and frameworks are explained conceptually. No mathematics beyond basic engineering literacy is needed.Description
Systems Engineering: Principles and PracticeAligned with NASA SP-2016-6105 Rev2 and INCOSE Systems Engineering Handbook v4
Master systems engineering from first principles to modern practice - using the same frameworks that NASA engineers apply on space flight programs and that INCOSE professionals use across the world's most complex defence, aerospace, and infrastructure projects. By the end of this course, you will be able to write traceable requirements, build system architectures, plan and execute verification and validation campaigns, manage technical risk, and navigate the full SE lifecycle with confidence.
Is This Course for You?
This course is ideal for
Aerospace and defence engineers who want a structured, end-to-end SE framework to apply on real programsSystems architects looking to formalise their approach with NASA and INCOSE best practicesProject managers and technical leads transitioning into a systems engineering roleGraduate engineers entering complex programs who need a fast, rigorous foundationEngineers preparing for INCOSE CSEP certification who want a structured study resourceSoftware, hardware, and specialty engineers - reliability, safety, human factors - who need to understand how SE integrates their discipline into the whole systemThe Problem This Course Solves
Systems engineering is one of the most valuable disciplines in engineering - and one of the hardest to learn on the job. Most engineers encounter it through fragments: a requirements review here, an interface document there, a design review they were not fully prepared for. The connections between those fragments - why requirements flow down to architecture, why architecture drives integration, why integration informs verification - are rarely taught explicitly.
At the same time, the two most authoritative references in the field - NASA SP-2016-6105 Rev2 and the INCOSE Systems Engineering Handbook version 4 - are dense, lengthy technical documents that take years to absorb in practice. Finding a single structured learning path that bridges both frameworks is nearly impossible.
This course solves that problem. It distils both handbooks into twelve focused lessons that build on each other, from foundations to modern methods, so you finish with a complete mental model of how systems engineering works - not just isolated facts.
What You Will Be Able to Do
By the end of this course, you will be able to
✓ Define a system, establish its boundary, and identify emergent behaviors that arise from element interactions
✓ Navigate the NASA project lifecycle (Pre-Phase A through Phase F) and map it to the INCOSE stage-gate model
✓ Develop a Concept of Operations and translate stakeholder needs into a traceable requirements baseline
✓ Write verifiable, unambiguous requirements using INCOSE quality attributes and NASA's "shall" statement discipline
✓ Decompose mission objectives into a logical architecture using functional analysis, N² interface matrices, and requirements flowdown trees
✓ Structure a trade study, apply weighted figures of merit, and make defensible design decisions using Decision Analysis
✓ Plan and execute product integration using bottom-up and incremental strategies across the assembly hierarchy
✓ Distinguish verification from validation, select the correct verification method (test, analysis, inspection, or demonstration), and build a Requirements Verification Traceability Matrix
✓ Manage technical risk using NASA's RIDM and CRM frameworks - from risk identification through the 5x5 probability-consequence matrix to risk response strategies
✓ Develop a Systems Engineering Management Plan (SEMP), track Technical Performance Measures (TPMs), and lead major milestone reviews including MCR, PDR, and CDR
✓ Apply configuration management across the three project baselines and manage change through a Configuration Control Board
✓ Understand Model-Based Systems Engineering (MBSE), SysML, Lean SE, Agile SE, and specialty disciplines including reliability, safety, and Human Systems Integration
What Makes This Course Different
Most SE training either covers NASA or INCOSE - rarely both, and rarely in a way that shows you how they connect. This course was built with both handbooks open on the same desk. Every lesson explicitly compares how NASA and INCOSE approach the same process, so you can operate fluently in both government and commercial environments.
Every lesson includes
Professional slide decks with Apple-inspired visual design - clean, legible, and ready for referenceSE-specific diagrams built natively in PowerPoint - Vee Model, IPO process diagrams, N² interface matrices, risk matrices, lifecycle timelines, requirements trees, FMEA tables, and process flowsExcalidraw interactive companion diagrams - system context diagrams, stakeholder maps, architecture canvases, TRL scales, MB SE workflows, and value stream maps that you can open and edit at excalidraw dot comTwo 48-question Udemy practice tests - evenly distributed across all twelve lessons, covering both factual recall and applied SE reasoning, with full answer explanations referencing the source handbooks133 SE concepts tracked across the course - each lesson builds on the last without redundancy, so your learning compoundsThe Instructor
Alberto Leon is a systems engineering professional with hands-on experience across the full project lifecycle-from mission analysis and requirements definition through launch, operations, and disposal-on complex programmes. His work has spanned functional decomposition, interface management, verification campaigns, and technical risk management on programmes where the consequences of failure are significant.
He developed this course because the structured, end-to-end foundation he needed early in his career did not exist in a single place. The course reflects practical experience gained on real-world programmes and focuses on approaches that work in practice-not just those described in textbooks.
Reduce Your Risk
The course follows a deliberate progression - each lesson builds on the last - so whether you are completely new to systems engineering or an experienced engineer filling gaps in your knowledge, the structure meets you where you are. You do not need to be an aerospace professional to benefit: the frameworks apply to any complex system, from medical devices to rail infrastructure to defence programs.
Udemy's 30-day money-back guarantee means there is no risk in trying.
Enrol Today
If you want a structured, practical, and authoritative foundation in systems engineering - one that bridges NASA and INCOSE, covers the complete lifecycle, and gives you tools you can apply on real programs from day one -enrol now and start with Lesson 1.
Keywords: systems engineering, systems engineering fundamentals, INCOSE, NASA systems engineering, NASA SP-2016-6105, INCOSE SEH v4, CSEP certification, requirements engineering, system architecture, verification and validation, technical risk management, configuration management, MB SE, model-based systems engineering, SysML, Vee model, N2 diagram, aerospace engineering, defence engineering, complex systems, SE lifecycle, human systems integration, reliability engineering, Agile systems engineering, Lean systems engineering
Who this course is for
This course is for you if: You are an engineer from any discipline - aerospace, mechanical, software, electrical, or systems - who has been asked to "do systems engineering" on a project but has never had formal training in the discipline. You know your technical domain well; this course gives you the SE framework to apply it at the system level. You are a recent graduate or early-career engineer entering a defense, aerospace, or complex systems organization where NASA NPR 7123.1 or INCOSE processes are the standard. You need to speak the language of your team from day one. You are a specialty engineer - a software lead, a structures analyst, a test engineer, or a reliability engineer - who regularly interfaces with systems engineers and wants to understand how your work fits into the broader SE lifecycle. You are tired of feeling like you are working in a silo. You are an engineering manager or project manager on a technically complex program who needs to understand what your systems engineers are doing, why reviews like PDR and CDR matter, and how to hold your team accountable to a rigorous SE process. You are preparing for the INCOSE Certified Systems Engineering Professional (CSEP) examination and want structured coverage of the INCOSE SEH v4 domains alongside the NASA perspective, with clear definitions and examples to anchor your study. You work in industry, government, or academia and want a single, coherent reference that bridges the two most widely cited SE frameworks - NASA SP-2016-6105 Rev2 and the INCOSE Systems Engineering Handbook 4th Edition - without having to read both 500-page documents yourself.Homepage
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