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OCSMP Accelerator™ SysML Training Course Video
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Free Download OCSMP Accelerator™ SysML Training Course Video
Released 12/2024
By Lenny Delligatti
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz, 2 Ch
Genre: eLearning | Language: English | Duration: 48h 23m | Size: 12.5 GB

48 hours of comprehensive, in-depth SysML training to enable participants to become model-based systems engineering (MBSE) practitioners and prepare them for the OMG Certified Systems Modeling Professional (OCSMP) Level 1 and Level 2 certification exams.
Overview
SysML, or Systems Modeling Language, is a standardized general-purpose modeling language designed specifically for systems engineering. It is an extension of the Unified Modeling Language (UML) tailored to address the needs of systems engineering. SysML provides a robust framework for specifying, analyzing, designing, verifying, and validating complex systems that may include hardware, software, information, processes, personnel, and facilities.
This course takes a comprehensive approach to teaching SysML and Model-Based Systems Engineering (MBSE). Here are some key aspects of the course
Comprehensive Coverage: The course covers all nine types of SysML diagrams, helping participants visualize and communicate system designs effectively.
Model Organization Techniques: It teaches model organization techniques using a commercial-grade modeling tool.
Certification Preparation: The course prepares participants for the OMG Certified Systems Modeling Professional (OCSMP) certification exams, specifically the Model User (Level 1) and Model Builder: Fundamental (Level 2) exams.
Interactive Learning: It includes 95 sample questions interspersed throughout the course content to help assess learning and prepare for certification exams.
Expert Instruction: The course is taught by the author of SysML Distilled, ensuring high-quality instruction from an experienced educator.
This course is designed to fit into busy schedules, allowing participants to learn at their own pace over a period of 12 months.
About the Instructor
Lenny Delligatti is the COO and system architect of the Delligatti Associates system, designing the company's organizational structure and processes. He is also the creator of the company's training courses and serves as a trainer and principal consultant on client engagements. Prior to founding Delligatti Associates, Lenny was a U.S. Navy officer and later a senior systems and software engineer with Lockheed Martin, serving as the MBSE lead for NASA's Mission Control Center: 21st Century (MCC-21) project at Johnson Space Center in Houston, Texas.e holds the INCOSE Certified Systems Engineering Professional (CSEP) certification, the OMG Certified Systems Modeling Professional (OCSMP) Model Builder: Advanced certification, and the OMG Certified UML Professional (OCUP): Advanced certification. He has created and delivered hundreds of hours of classroom instruction to thousands of systems and software engineers on the topics of UML, SysML, MBSE methodology, and design principles and heuristics, enabling many to earn OMG certifications and lead MBSE efforts on their projects. Lenny is the author of the book SysML Distilled: A Brief Guide to the Systems Modeling Language, Published: by Addison-Wesley in 2013.
Learn How To
Prepare participants for OCSMP certification exams, focusing on Model User (Level 1) and Model Builder: Fundamental (Level 2)
Assess understanding and exam readiness with 95 sample questions
Have a deep system modeling understanding through nine types of SysML diagrams
By recognized SysML expert and author of SysML Distilled: A Brief Guide to the Systems Modelling Language(Addison-Wesley, 2013)
Who Should Take This Course
System engineer, model-based systems engineer, systems architect, software developer, software engineer, hardware designer, test engineers, reliability engineer. These roles are crucial in industries such as aerospace, defense, automotive, and many others where complex systems are developed and maintained.
Course Recommendations
A copy of the course book, SysML Distilled: A Brief Guide to the Systems Modeling Language.
Though a modeling tool is not required for this course, learners who would like to open and view the example system model may request a 30-day complimentary license for Cameo Systems Modeler from Dassault Systèmes. (The link to request a complimentary license will be provided after purchase.)
Lesson Descriptions
Module 1: Block Definition Diagrams (Part 1)
This module covers the purpose of a BDD, frame of a BDD, elements of definition versus elements of usage, blocks, part properties, reference properties, value properties, constraint properties, standard ports, interfaces, nonatomic flow ports, flow specifications, flow properties, atomic flow ports, operations, receptions, and signals.
Module 2: Block Definition Diagrams (Part 2)
This module covers reference associations, composite associations, generalizations, dependencies, actors, primitive value types, structured value types, enumerations, constraints, constraint blocks, comments, and designing to abstractions.
Module 3: Internal Block Diagrams
This module covers the purpose of an IBD, frame of an IBD, part properties, reference properties, connectors, flow ports, standard ports, port compatibility, item flows, nested properties, dot notation, and encapsulation.
Module 4: Use Case Diagrams
This module covers the purpose of a use case diagram, use cases, use case specifications, use cases versus scenarios, frame of a use case diagram, system boundary, actors, associations, base use cases, included use cases, and extending use cases.
Module 5: Activity Diagrams (Part 1)
This module covers the purpose of an activity diagram, frame of an activity diagram, activities, object tokens, control tokens, basic actions, opaque expressions, object nodes, pins, activity parameters, streaming versus nonstreaming, object flows, control flows, and criteria for initiating an action.
Module 6: Activity Diagrams (Part 2)
This module covers call behavior actions, send signal actions, accept event actions, wait time actions, absolute time events, relative time events, initial nodes, activity final nodes, flow final nodes, decision nodes, merge nodes, fork nodes, join nodes, and activity partitions.
Module 7: Sequence Diagrams (Part 1)
This module covers the purpose of a sequence diagram, frame of a sequence diagram, interactions, lifelines, selector expressions, event occurrences, messages, message send occurrences, message receive occurrences, asynchronous messages, synchronous messages, reply messages, create messages, creation occurrences, delete messages, destruction occurrences, execution specifications, execution start occurrences, execution termination occurrences, and valid traces versus invalid traces.
Module 8: Sequence Diagrams (Part 2)
This module covers time constraints, duration constraints, state invariants, combined fragments, operands, opt interaction operator, alt interaction operator, loop interaction operator, par interaction operator, interaction uses, actual gates, and formal gates.
Module 9: State Machine Diagrams (Part 1)
This module covers the purpose of a state machine diagram, frame of a state machine diagram, state machines, simple states, entry behavior, do behavior, exit behavior, composite states, substates, final states, transitions, triggers, guards, effects, self-transitions, run-to-completion step semantics, and external transitions versus internal transitions.
Module 10: State Machine Diagrams (Part 2)
This module covers signal events, receptions, call events, operations, absolute time events, relative time events, change events, initial pseudostates, junction pseudostates, and regions.
Module 11: Constraints and Parametric Diagrams
This module covers blocks and constraint blocks (on BDDs), purpose of a parametric diagram, frame of a parametric diagram, constraint properties, constraint parameters, value properties, nesting notation versus dot notation, binding connectors, and noncausal nature of constraints.
Module 12: Package Diagrams
This module covers purpose of a package diagram, frame of a package diagram, packages, namespaces, namespace containment, crosshair notation, nesting notation, fully qualified name strings, relative qualified name strings, dependencies, package import relationships, models, model libraries, profiles, stereotypes, views, viewpoints, and conform relationships.
Module 13: Requirements Diagrams
This module covers the purpose of a Requirements diagram, frame of a Requirements diagram, Requirements, containment relationships, trace relationships, derive requirement relationships, refine relationships, satisfy relationships, verify relationships, direct notation, compartment notation, callout notation, matrices, tables, and rationale.
Module 14: Allocation Relationships
This module covers the purposes of allocation relationships, behavioral allocations, structural allocations, Requirements allocations, direct notation, compartment notation, callout notation, matrices, tables, allocation activity partitions, and allocation of definition versus allocation of usage.a

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