Final Exam: Systems Designer
Final Exam:Systems Designer will test your knowledge and application of the topics presented throughout the Systems Designer track.
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Final Exam: Systems Designer
describe the principles and benefits of system analysis and modeling
identify different types of system models
identify the characteristics of the UML modeling language
identify the characteristics of the SysML modeling language
identify components of a system modeling tool
analyze system models using a modeling tool
create a system model using a modeling tool
identify the benefits of user-centered design in system development
identify different types of user-centered design techniques and methods
explain the role of human factors in system design
recall the steps and best practices for creating scenarios
identify the challenges and limitations of user-centered design
describe the principles of systems engineering design
identify the limitations and challenges of systems engineering design
describe the process of risk mitigation
identify the steps needed to conduct risk analysis
describe the process of finding system requirements in the context of systems analysis
use modeling tools, such as SysML and UML
describe the use of a requirement diagram in a SysML Model
list the types and uses of structure diagrams in a SysML Model
list the types and uses of behavior diagrams in a SysML Model
describe the use of an allocation table in a SysML Model
explain the role of simulation tools in system design and analysis
Define the concept of collaborative system design and its benefits
Discuss the importance and impact of collaborative system design
Analyze the challenges and limitations of collaborative system design in different contexts
Evaluate the effectiveness of different tools and techniques for facilitating collaboration in system design
Use tools to perform Collaborative System Design
Document the outcome of a Collaborative System Design session
Use feedback and input from different stakeholders to make collaborative system design decisions
Explain the importance of system design standards and compliance
Identify different standards and regulations relevant to system design in a given industry or domain
Analyze the challenges and limitations of complying with system design standards and regulations
Develop a compliance checklist for a given system design project
Apply system design standards and compliance principles to address a real-world problem or challenge
Define the key stages in the system development process
Define the activities in the system development process
Identify different system development methodologies and their advantages and limitations
Analyze the impact of the system development process on system quality, cost, and time-to-market
Evaluate different tools and techniques for managing system development process
Apply project management principles to plan and monitor a system development project
Create a requirements specification for a given system development project
Explain the importance and challenges of system integration and verification
Identify different tools for system integration and verification
Identify different techniques for system integration and verification
Evaluate the effectiveness of different integration and verification approaches in different contexts
Analyze the impact of system integration and verification on system quality, cost, and time-to-market
Apply integration and verification principles to improve an existing system
Identify the characteristics of complex systems and how they differ from simpler systems
Understand the systems engineering process for complex systems
Develop and use system-level models for complex systems
Design system architectures for complex systems
Develop verification and validation plans for complex systems
Understand the importance of stakeholder engagement in complex system engineering
Apply risk management techniques to complex systems
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