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Siemens

Strengthen your knowledge of Model-Based Systems Engineering, and discover an approach that organizations, companies, and governments are using to manage ever-changing demands. In this course, you will learn more about systems thinking, architecture, and models. You will examine the key benefits of MBSE. Through an in-depth look at MBSE as a solution, you will examine SysML methodologies and languages. No degree is required. This course is primarily for professionals, college students, and advanced high school students who are interested in gaining introductory knowledge of Model-Based Systems Engineering (MBSE) software and principles.

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Strengthen your knowledge of Model-Based Systems Engineering, and discover an approach that organizations, companies, and governments are using to manage ever-changing demands. In this course, you will learn more about systems thinking, architecture, and models. You will examine the key benefits of MBSE. Through an in-depth look at MBSE as a solution, you will examine SysML methodologies and languages. No degree is required. This course is primarily for professionals, college students, and advanced high school students who are interested in gaining introductory knowledge of Model-Based Systems Engineering (MBSE) software and principles.

This course represents a foundational introduction to MBSE, appropriate for learners with a basic knowledge of general engineering concepts and an interest in digital manufacturing and design. To succeed in this course, learners should bring their curiosity about how new developments in technology are shaping the way businesses and entire industries operate. This course has no formal prerequisites.

Upon completion of this course, you will be able to:

• Differentiate between systems and systems of systems.

• Use the MBSE approach.

• Compare MBD, MBE, and MBSE.

• Evaluate system modeling tools and languages.

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What's inside

Syllabus

An Introduction to Model-Based Systems Engineering
Welcome to Model-Based Systems Engineering! By enrolling in this course, you are joining the many students and professionals who wanted to advance their skillset as they develop a stronger understanding of Model-Based Systems Engineering concepts. In the first week of the course, we'll introduce you to the overview and layout of the course. We will also review some foundational concepts related to MBSE. By the end of this module, you will know more about Model-Based Systems. Let's get started!
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Systems Engineering and MBSE
Now that you have explored key concepts relating to systems architecture, you are ready to expand your knowledge of Systems Engineering and Model-Based Systems Engineering. In the second week of the course, we will examine various types of Systems Engineering such as MBD and MBE and compare them with Model-Based Systems Engineering.
iMBSE, Methodology, and an Introduction to System Modeling Languages
Now that you have examined MBSE, you are prepared to learn more about Integrated Model-Based System Engineering (iMBSE). In the third week of the course, we will investigate iMBSE, define some related terminology, and introduce you to System Modeling Language.
System Modeling Language (SysML)
Since you have been introduced to modeling languages, in Week 4 we will focus on SysML. You will learn about SysML versions and diagrams. You will examine the four pillars of SysML and its design workflow process. Finally we will compare SysML to OPM. Throughout our exploration we will apply these concepts to examples.
System Modeling Language and Tools and the MBSE Solution
In the final week of the course, you will be introduced to ARCADIA and Capella. You will learn more about system modeling tools. You will examine the MBSE solution ROI. To conclude this course, you will take a comprehensive exam on the key concepts that you have learned in the past five weeks.

Good to know

Know what's good
, what to watch for
, and possible dealbreakers
Taught by Siemens experts, who are renowned for their contributions in the field of automation and Model-Based Systems Engineering (MBSE)
Provides a foundational understanding of Model-Based Systems Engineering (MBSE), suitable for individuals with a basic grasp of engineering principles
Specifically designed for professionals, undergraduates, and advanced high school students who want to enhance their knowledge of MBSE
Covers key concepts such as systems thinking, architecture, modeling, and benefits of MBSE, equipping learners with a comprehensive understanding of the field
Emphasizes the practical application of MBSE through industry use cases and real-world examples, making the course highly relevant to industry professionals
Involves a comprehensive assessment process at the end to gauge learners' understanding of the key concepts covered in the course

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Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Introduction to Model-Based Systems Engineering with these activities:
Review Systems Engineering: Principles and Practice
Reinforce your foundational systems engineering concepts through this relevant textbook.
Show steps
  • Read Chapter 1: Introduction to Systems Engineering
  • Read Chapter 2: Systems Engineering Process
  • Read Chapter 3: Systems Architecture and Design
Join a Study Group for MBSE
Connect with peers who share similar interests to discuss MBSE concepts and reinforce your understanding.
Browse courses on MBSE
Show steps
  • Ask classmates or colleagues if they would like to form a study group
  • Meet regularly to discuss course material
  • Work together on assignments and projects
Create a Mind Map of MBSE Concepts
Develop a deeper understanding of MBSE concepts by visualizing the relationships between them in a mind map.
Browse courses on MBSE
Show steps
  • Review key concepts from the course
  • Identify the main topics and subtopics
  • Connect the topics with lines or branches
Five other activities
Expand to see all activities and additional details
Show all eight activities
Practice SysML Modeling Exercises
Sharpen your SysML skills by working through practice exercises.
Browse courses on SysML
Show steps
  • Download SysML modeling tools
  • Create a new project and model
  • Draw different types of SysML diagrams
Watch Tutorials on ARCADIA and Capella Tools
Enhance your proficiency in using ARCADIA and Capella by watching guided tutorials.
Show steps
  • Search for tutorials on ARCADIA and Capella
  • Watch videos and follow along with the instructions
  • Practice using the tools on your own projects
Develop a Model-Based System for a Smart Home
Apply your MBSE knowledge to design and develop a model-based system for a smart home, demonstrating your comprehension and proficiency.
Browse courses on MBSE
Show steps
  • Define the system requirements
  • Create a system model
  • Develop software and hardware components
  • Integrate and test the system
Volunteer at a Local Tech Company
Gain practical experience in the field by volunteering at a local tech company.
Show steps
  • Research local tech companies
  • Contact the companies to inquire about volunteer opportunities
  • Attend volunteer orientation
  • Assist with projects related to MBSE
Start a Project on Implementing MBSE in a Small Business
Delve deeper into the practical applications of MBSE by initiating a project that involves implementing it in a small business, solidifying your understanding and showcasing its real-world impact.
Browse courses on MBSE
Show steps
  • Identify a small business to collaborate with
  • Assess their current engineering processes
  • Develop a plan for implementing MBSE
  • Implement the plan and evaluate the results

Career center

Learners who complete Introduction to Model-Based Systems Engineering will develop knowledge and skills that may be useful to these careers:
Systems Engineer
Systems Engineers design, develop, and test complex systems across various industries. With the training in Model-Based Systems Engineering (MBSE) you receive in this course, you'll learn how to use MBSE to define, analyze, and manage complex systems throughout their life cycle. This course is an excellent foundation for anyone looking to enter the field of Systems Engineering or advance their career in this field.
Model-Based Systems Engineer
Model-Based Systems Engineers use models to analyze and design complex systems, focusing on optimizing a system's functionality and performance. Throughout this five-week course, you'll learn the key benefits, methodologies, and languages of MBSE, which can help you excel in this career. By taking this course, you'll be able to apply MBSE to real-world engineering challenges.
Systems Analyst
Systems Analysts study an organization's current system to determine if it meets its goals and objectives and how it can be improved. The knowledge you gain in this course about modeling and analyzing systems will be very applicable to this career, and it may also help you identify areas for improvement within an organization's systems.
Software Engineer
Software engineers design, develop, test, and maintain software systems. The focus on modeling languages in this course may be particularly beneficial to your career, as modeling is a common practice for planning, designing, and building software applications. By enrolling in this course, you will gain a solid foundation in MBSE principles and methodologies, which may enhance your problem-solving skills and make you a more desirable candidate for Software Engineer roles.
Project Manager
Project Managers plan, organize, and execute projects, ensuring they are completed within budget and on time. This course teaches the methodologies and languages of MBSE, which can help you effectively manage complex projects and ensure project success.
Business Analyst
Business Analysts work with stakeholders to understand their business needs and translate those needs into technical requirements. This course covers the use of models to efficiently and effectively define and analyze system requirements. Taking this course can help you gain a competitive edge in the job market and equip you with the skills needed to succeed in this role.
Systems Architect
Systems Architects design and develop the overall architecture of a system, ensuring that it meets the needs of the stakeholders. The emphasis on systems engineering and architecture in this course will be directly applicable to this career, and it may help you develop a well-rounded understanding of complex systems.
IT Architect
IT Architects design, develop, and maintain the IT infrastructure of an organization. This course provides an in-depth look at MBSE, which can help you understand the complexities of IT systems and how to effectively manage and optimize them.
Data Scientist
Data Scientists analyze and interpret data to extract meaningful insights. The focus on modeling and analysis in this course may be beneficial for those looking to enter this field, as data modeling is a key aspect of data science.
Industrial Engineer
Industrial Engineers improve the efficiency of production systems. The focus on systems thinking and modeling in this course can provide you with a solid foundation for this career, as these concepts are essential for optimizing production systems.
Quality Assurance Analyst
Quality Assurance Analysts ensure that products and services meet quality standards. The emphasis on system modeling and analysis in this course can help you develop the skills needed to identify and mitigate risks and ensure the quality of complex systems.
Technical Writer
Technical Writers create user manuals, technical reports, and other documentation to explain complex technical concepts. This course provides an introduction to MBSE, which can help you understand the systems you are writing about and communicate complex technical information clearly and effectively.
Product Manager
Product Managers are responsible for the development and launch of new products. This course provides an overview of MBSE, which can help you understand the process of developing and launching new products and how to manage the complexities of product development.
Computer Programmer
Computer Programmers write and maintain computer programs. The focus on modeling languages in this course may be beneficial for those looking to enter this field, as modeling is often used to design and develop software programs.
Systems Administrator
Systems Administrators maintain and troubleshoot computer systems and networks. This course provides an introduction to MBSE, which can help you understand the complexities of computer systems and networks and how to effectively manage and maintain them.

Reading list

We've selected ten books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in Introduction to Model-Based Systems Engineering.
Comprehensive introduction to systems engineering, covering the fundamental principles and practices of the discipline. It is an excellent resource for learners who want to gain a deeper understanding of the concepts and methodologies discussed in the course.
Provides a comprehensive overview of software systems architecture, including its principles, methodologies, and tools. It valuable resource for learners who want to gain a deeper understanding of software systems architecture and how it can be applied in real-world projects.
Provides a comprehensive overview of object-oriented analysis and design, including the principles, methodologies, and tools. It valuable resource for learners who want to gain a deeper understanding of object-oriented analysis and design and how it can be applied in real-world projects.
Provides a practical guide to using SysML, including step-by-step instructions and examples. It valuable resource for learners who want to learn how to use SysML to model systems.
Provides a comprehensive overview of requirements engineering, including the principles, methodologies, and tools. It valuable resource for learners who want to gain a deeper understanding of requirements engineering and how it can be applied in real-world projects.
Provides a comprehensive overview of software quality assurance, including the principles, methodologies, and tools. It valuable resource for learners who want to gain a deeper understanding of software quality assurance and how it can be applied in real-world projects.
Provides a comprehensive overview of software design, including the principles, methodologies, and tools. It valuable resource for learners who want to gain a deeper understanding of software design and how it can be applied in real-world projects.
Provides a comprehensive overview of software testing, including the principles, methodologies, and tools. It valuable resource for learners who want to gain a deeper understanding of software testing and how it can be applied in real-world projects.
Provides a simplified introduction to systems engineering, making it an excellent choice for learners who are new to the field.

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