Using a notional space system SysML architecture as an example, Jeremy Ross, Model-Based Systems Engineer, Ford and Adjunct Instructor, University of Detroit - Mercy, will show how a state-based failure mode analysis, where existing model content and state machine architecture diagrams guide system failure mode identification. Attendees will see how the model-based outputs of this analysis can be linked using the #Ansys #ModelCenter tool to simulate the system-level impacts of the failure modes and generate the failure’s severity rating and risk priority number. This coupled shared systems simulation approach and the guided state-based failure mode assessment process improve FMA repeatability and automation while leveraging #MBSE content pre-existing in most organizations’ descriptive architecture models. Attendees can evaluate if this approach can enhance cross-organization FMA consistency and assist in design resource prioritization earlier in their system architecting activities. #FMA #systemsengineering Register for the webinar on July 10th here to join: https://ansys.me/3LhIPqO
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Using a notional space system SysML architecture as an example, Jeremy Ross, Model-Based Systems Engineer, Ford and Adjunct Instructor, University of Detroit - Mercy, will show how a state-based failure mode analysis, where existing model content and state machine architecture diagrams guide system failure mode identification. Attendees will see how the model-based outputs of this analysis can be linked using the #Ansys #ModelCenter tool to simulate the system-level impacts of the failure modes and generate the failure’s severity rating and risk priority number. This coupled shared systems simulation approach and the guided state-based failure mode assessment process improve FMA repeatability and automation while leveraging #MBSE content pre-existing in most organizations’ descriptive architecture models. Attendees can evaluate if this approach can enhance cross-organization FMA consistency and assist in design resource prioritization earlier in their system architecting activities. #FMA #systemsengineering Register for the webinar on July 10th here to join: https://ansys.me/3RCq7xy
A Model-Based Approach to Failure Analysis using ModelCenter
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Embracing Complexity with Model-Based Systems Engineering (MBSE) In the ever-evolving landscape of system design, the introduction of new technologies demands innovative approaches. At Critical Frequency Design, we leverage model-based systems engineering (MBSE) to master complex system requirements and ensure seamless integration of new technologies. Why MBSE? MBSE is more than just a methodology; it's a strategic approach that uses models to support lifecycle activities from concept through to development, production, and operation. This approach allows us to: --Visualize complex systems: Enhance understanding and communication among stakeholders. --Analyze and simulate systems: Predict outcomes and optimize performance before physical models and systems are built. --Manage changes efficiently: Integrate new technologies without disturbing existing systems. Real-World Impact: The potential of MBSE to transform tactical data link systems and other critical defense applications is immense. To understand more about how MBSE is revolutionizing these areas, check out the Tech Talk by CFD’s own Dave Wood for NAVWAR, discussing the specific applications and benefits of MBSE in tactical data link systems. Watch the Video Here: https://lnkd.in/eMmYf-Jn Want to learn more about CFD’s MBSE capabilities? Visit our website at www.criticalfrequency.com. We would love to discuss how we can address your strategic needs through innovative engineering solutions. #MBSE #DefenseInnovation #SolutionsAtTheSpeedofLight
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Hearing this word often but not sure what this means? In this page from the #Arcadia-#Capella , this concept is explained in a clear and concise way. In short #MBSE is a systems engineering discipline focusing on models to design analyze and document systems. It serves as a single source of truth , thereby greatly resolving the ambiguity in communicating across stake-holders. It does so by maintaining the consistency of the whole product definition, using a formal digital language, eventually enabling a digital thread. As can be seen from the image, the MBSE approach stays at the heart of engineering process, ensuring consistent and correct model, proper integration. Also, it enables to user to analyze the model from a specific view point such as requirements traceability, safety etc.. Moreover, enables the architecture to be validated by adopting certain perspectives such as the ARCADIA method and re-used for evaluating other design choices. Furthermore, it still enables us to connect with other downstream engineering activities, to further validate our architecture such as simulation / property proving. With MBSE now enabling analysis on a digital model, automation of several engineering activities is possible, thereby greatly reducing engineering efforts such as trade space analysis, product line engineering activities, consistency validation etc…Obeo #SystemsEngineering Explore this page to see how Capella MBSE Tool fits into this narrative https://lnkd.in/d8G-fUeC
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Complexity Simplified: The Future is Bright with Model-Based Systems Engineering Even as humans grapple with intricate challenges, model-based systems engineering is proving to be our ally, simplifying complexities through its holistic, top-down approach and high-level abstraction models. Leading the charge is #Atego, now part of #PTC, which champions a modular, collaborative approach for constructing complex systems. With the US Department of Defense procurement employing a hefty 30% of systems engineers in its workforce of 150,000, systemic thinking coupled with model-based systems engineering is paramount for fabricating large weaponry. However, the complexity involved often slows down the process. The industry is now aligning itself with the Model-Based Definition (MBD) approach, pioneered by #Boeing, which is quickly gaining acceptance. While we stride towards this model-based era, there are certain bumps on the road, especially for some manufacturers grappling with the new MBD standards, which pose concerns for future data migration and the growing stronghold of large-scale software. Can companies navigate these challenges to step into the future of systems engineering? We'll have to wait and see #modelbasedsystemsengineering #industrialsoftware #offshoresoftwaredevelopment
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I am curious now that SysML v2 is nearly upon us and Ansys brought to market its first GP System Architecture Modeler (SAM) built on SysML v2 this past January, how this 2022 MBSE study & respective article authored in 2023 would change. I hypothesize that today, for many SME organizations, the Ansys SAM would be a logical inception point to realizing the benefits of MBSE. Discover how some of the world's most innovative companies are utilizing model-based systems engineering to address some of their most complex design problems. #MBSE #MBE #SysMLv2
Systems Engineering Improves Organizational Process
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Helping clients to lever Sustainability-, Asset-, SupplyChain- and Engineering Lifecycle-Management Solutions which are enriched by AI, IoT and Weather Data 🚀
Do you want to know the benefits of Model Based Systems Engineering or explain them to others: Here you get a neat and crisp explanation: https://lnkd.in/gJwTgkN8 #engineering #systemsdesign #elm
What Is Model-Based Systems Engineering (MBSE)? | IBM
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✨ Ever wondered how engineers predict outcomes under uncertain conditions? Discover the power of conditional probability in making informed decisions based on known factors! 🚀 Boost your engineering creativity! Check out these innovative ideas and solutions that push the boundaries of what's possible. #engineeringideas #ConditionalProbability #ersopc
✨ Ever wondered how engineers predict outcomes under uncertain conditions? Discover the power of conditional probability in making informed decisions based on known factors! 🚀 Boost your engineering creativity! Check out these innovative ideas and solutions that push the boundaries of what's possible. #engineeringideas #ConditionalProbability #ersopc
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Here is a nice thesis, that adopts an #MBSE approach to enhance the specification process for Flight Control Computers (FCC), driven by the need for shorter lead times and addressing complexity. By utilizing #Arcadia-#Capella, it addresses the diverse architectures of FCC test means, influenced by factors like aircraft design and customer requirements, mitigating challenges in configuration identification. It also highlights operational processes within the test means system, emphasizing the flexibility in meeting various mission objectives. In System Analysis, diverse diagrams like Mission and Capabilities, System Architecture, Dataflow, and Functional Breakdown are utilized to elucidate the tasks and interactions of FCC systems, facilitating comprehensive understanding. The Logical Analysis (LA) further dissects FCC systems, detailing components and functions at a logical level, enhancing clarity in system behavior. For variant management, Pure::Variants within Capella MBSE Tool is employed to handle configurations effectively, ensuring adaptability and reusability across different variants. Additionally, requirements are linked to the Capella model, enhancing traceability, and #M2Doc is used to streamline documentation generation, ensuring accurate specification capture throughout the Physical Architecture (PA) phase. In conclusion, this thesis effectively leverages MBSE methodologies to streamline FCC specification, addressing complexity and lead time challenges. Utilizing Arcadia-Capella, Pure::Variants, and M2Doc, it ensures adaptability, traceability, and comprehensive documentation, promising efficient development and advancements in aerospace engineering. #Requirements #AerospaceEngineering Obeo Please check the thesis out here: https://lnkd.in/dEatdqFY
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Model-Based Systems Engineering Revolutionizing the Way We Design Complex Systems https://lnkd.in/erFe-SNu #systemsengineering #engineering #informationtechnology #emergingtechnology #technology
Model-Based Systems Engineering
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Why is #MBSE pioneering for #engineering? Model-Based Systems Engineering provides the ability to detect failures earlier in the process. Detecting them in the early stages saves costs and improves overall quality. 🔗 In an environment that is increasingly increasing in complexity, the MBSE discipline, thanks to its integrated systems architecture, provides a single source of truth. 📈 With #SysML tools and advanced data distribution, graphical and functionally unambiguous diagrams are generated. 🤝 With System Modeling tools such as #CATIA Magic, you enable closer collaborations between different stakeholders and drastically reduce the error rate in the entire design process. 🎯 The new development approach requires more time in the initial phase, however, leads to significant savings in project resources and time. It also results in a more robust solution. Find out more about MBSE in our blog >> https://hubs.la/Q02s0JMd0 #MBSE #Engineering #ProductDevelopment #SystemsEngineering #TECHNIA
What is Model-Based Systems Engineering (MBSE)? | TECHNIA (Sweden)
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