OMG-OCSMP-MBI300 SysML Model Builder Intermediate Exam Questions

  Edina  12-06-2023

The OMG-OCSMP-MBI300 OMG-Certified Systems Modeling Professional - Model Builder - Intermediate exam is highly recommended for individuals, whether they are beginners or experienced professionals, who seek to validate their expertise and knowledge in systems modeling. PassQuestion OMG-OCSMP-MBI300 SysML Model Builder Intermediate Exam Questions are the best way to get yourself prepared for the OMG-OCSMP-MBI300 exam confidently. By taking the PassQuestion OMG-OCSMP-MBI300 SysML Model Builder Intermediate Exam Questions, you can effectively and confidently prepare yourself for the OMG-OCSMP-MBI300 exam, ensuring that you are fully equipped to succeed in this field.

SysML Model Builder Intermediate Certification

The SysML Model Builder Intermediate (prerequisite to the SysML MBA exam) certification exam tests an individual's knowledge and skills used to develop system models using the full SysML feature set enabling more detailed and precise modeling of requirements, structure, behavior, and parametric constraints as well as those needed to define inter-relationships among model elements and diagrams, and assess aspects of model quality including conformance to language and method constraints. With a SysML Model Builder Intermediate certification, an individual is fit to be a system modeling lead on a project or a top-ranked team member (e.g., lead systems engineer) who contributes independently to the model or system.

SysML Model Builder Intermediate Exam Overview

Exam Series Code: OMG-OCSMP-MBI300
Exam Duration: 105 minutes in English-speaking countries and 135 minutes in all others.
Exam Fee: US$250 (or local equivalent) in English-speaking countries and US$260 (or local equivalent) in all others.
Exam Type: Multiple choice (text and SysMLdiagrams)
Exam Pass Score: >=55 of 90 questions answered correctly (>=61%)
Exam Prerequisite(s): Passing scores on the OCSMP Model User and Model Builder Fundamental Exams.
Exam Languages: English

General Areas Tested in the SysML Model Builder Intermediate Exam

MODEL CONCEPTS   6%

Modeling guidelines and Practices
Application of modeling guidelines and practices

ORGANIZING A SYSTEM MODEL USING THE FULL SET OF SYSML CONSTRUCTS      6%

Building A Package Diagram Using the Full Set of SysML Constructs
Package and element import, defining and using view and viewpoint, building and using model libraries, as well as awareness of assessment criteria (e.g., structured queries) and activities.

BUILDING A REQUIREMENTS MODEL USING THE FULL SET OF SYSML CONSTRUCTS    10%

Building A Requirements Diagram Using the Full Set of SysML Constructs
Specialized requirements (SysML Annex C: functional, interface, performance, physical anddesign constraints), establishing requirements traceability (derive, verify, satisfy, refine, trace and containment), tracing requirements in tables and matrixes, representing verification and testing, test context as well astest case.

Building A Use Case Model Using the Full Set of SysML Constructs
Relating use cases to behavioral models - activity diagrams and state machines, and relating use cases to requirements.

BUILDING A STRUCTURAL MODEL USING THE FULL SET OF SYSML CONSTRUCTS      29%

Building the Block Definition Diagram
Adding Block Features: Receptions, ordered and unique collections, read only properties, property redefinition, constraint (referenceto parametrics below), distributed properties. Block Relationships: Shared vs composite aggregation (white vs black diamond), association blocks and generalization sets. Value Types: Enumerations, structured value types ("position vector" with XYZ structure). Blocks and Behavior: Classifier behavior (See Friedenthal), owned behaviors, activity hierarchies on bdds. Defining instances

Building the Internal Block Diagram 
Block Properties:Creating a property specific type and notation for part multiplicities on ibd's. Ports: Flow Ports: Flow specifications and properties, conjugated ports, and compatibility rules including item flows and ports.  Standard Ports: Defining required and provided interfaces, typing a port with required and provided interfaces (i.e., with a provided interface and with a classifier with use/realize relationship). Port delegation (for both flow ports and standard ports). Connectors: Nested connector ends, item flows/item properties, conveyed classifiers, typing item properties, ownership of item properties, and connector properties.

BUILDING A PARAMETRIC MODEL USING THE FULL SET OF SYSML CONSTRUCTS    11%

How To Use Constraints in SysML to Model System Analyses

Defining Constraints on A Block Definition Diagram Using the Full SysML Feature Set
Nesting of constraints, trade study support (Annex E.4), measures of effectiveness, objective functions, alternatives, and constraining flows.

BUILDING A BEHAVIORAL MODEL USING THE FULL SET OF SYSML CONSTRUCTS      33%

How To Use SysML to Model System Behavior
Building An Activity Diagram Using the Full Set of SysML Constructs
I/O Flow: Optional vs. required,streaming,rates(continuous and discrete), no buffer, overwrite,token ordering (FIFO, LIFO, etc.), data store/central buffer, object node state, parameter set, and probabilities. Control Flow: Control Operators: Flow final, and advanced control operations (decision input/ join specification). Control pins and interruptible regions. Actions: Primitive actions. Constraints: Pre/post conditions and defining properties on activities.

Building A Sequence Diagram Using the Full Set of SysML Constructs
Messages, Lifelines: Selectors, lifeline decomposition and activations (including nested). Interaction Operators: Advanced interaction operators, combining interaction operators and nesting interaction operators. Interaction Decomposition: Interaction use or references and gates. Constraints: Observations and timing constraints and state invariants.

Building A State Machine Diagram Using the Full Set of SysML Constructs
Understanding that a SM represents the states of a block (Friedenthal). Transitions: Graphical transition notation, internal transitions anddeferred events. State Hierarchy: Composite statesand orthogonal composite states. Pseudo States: Junction state, choice, history states -shallow, deep, fork and join, entry and exit points, and terminate nodes. Nested State Machines: Submachine states. Connection points.

DEFINING STEREOTYPES, PROPERTIES, AND CONSTRAINTS (EXTENSION, SUBCLASS)     6%

View Online SysML Model Builder Intermediate OMG-OCSMP-MBI300 Free Questions

1. What is an efficient way to represent highly reused patterns of interaction on sequence diagrams?
A. an Interaction use referencing an interaction defined on a separate sequence diagram
B. an interaction template construct that is instantiated from the referring sequence diagram
C. the call interaction operator with an operand referring to the reusable Interaction defined elsewhere
D. an activation on the referring sequence diagram allocated to another activation on the referenced diagram
Answer: B

2. Which statement is true about the read only keyword when it appears next to a property?
A. It states that the corresponding property is provided for reading purposes only
B. It specifies that the corresponding property cannot be redefined
C. It specifies that the value of the corresponding property cannot change during the lifetime of its owner.
D. It specifies that the value of the corresponding property can be changed by its owner, but can only be read by other blocks
Answer: A

3. What are the possible values of the enumeration Control Value?
A. suspend and resume
B. enable and disable
C. suspend, resume, enable and disable
D. It has no values, but is intended for a modeler to extend with their own control values.
Answer: C

4. What is one key advantage of using SysML parametrics versus traditional derived properties?
A. A derived property requires an additional constraint expression, whereas SysML parametrics does not.
B. OCL-based constraint expressions can be used with SysML parametrics but not with derived properties
C. it takes many more steps to specify derived properties in the typical tool compared to specifying constraint blocks.
D. SysML parametrics supports non causal expressions, whereas a derived property involves an expression with a fixed output direction
Answer: C

5. What is a best practice to define the package structure for a SysML model?
A. SysML defines the package structure
B. The modeling tool creates the package structure
C. The modeling methodology defines the package structure.
D. Each modeler can create packages for that engineer's specific purpose
Answer: C

6. What are streaming parameters?
A. parameters that are mapped to flow ports
B. parameters in which tokens are never buffered
C. parameters through which a continuous stream of tokens pass
D. parameters through which an activity can accept or produce tokens throughout its execution
Answer: B

7. How can the containment relationship be used to relate requirements?
A. Packages may represent specifications, which can be contained m other specifications
B. Containment allows a requirement to be decomposed by containing sub-requirements. Packages can also contain requirements
C. Requirements can contain packages, which in turn can contain other requirements. This is how hierarchical specifications can be represented in SysML
D. Requirements cannot use containment. They cannot contain any other model elements.
Answer: B

8. What is the best way to specify the behavior of a functional requirement?
A. Model an activity that refines the functional requirement.
B. Model a state machine that refines the functional requirement.
C. The project methodology will indicate which way is compatible with its process.
D. The requirement text must be a clear and concise specification of the functionality.
Answer: A

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