For this assessment, you will assume the role of a consultant tasked with designing a student information system (SIS) for a small college that offers both online and face-to-face classes. The SIS should keep track of students’ information and their course registrations. You will be provided with information about the system, its business context, and its requirements. With this information, you will need to design the software system by applying object-oriented techniques and methods and UML modeling.
The Student Information System Requirements Definition document is the requirements definition document of a new SIS for a small college. The college offers both online and face-to-face, brick-and-mortar classes to its undergraduate student population.
The goal of the SIS is to maintain and track the college’s information about its students, courses, and classes. The SIS is also used to automate the class registrations process. The SIS system should be accessible as a website and as a mobile app to both students and enrollment staff. You are hired as a consultant software architect to design the SIS functional model consisting of the following:
A use case diagram
A use case description for each use case in your model
Analyze the SIS requirements and formalize them as use cases. You should have between four to six use cases. Generate a use case diagram showing the actors associated with each use case, and structure your use cases using <>, <>, and generalization relationships. The use case diagram must be generated by a UML drawing tool such as draw.io or Visio.
Using the Final Project Part I Solution Submission Template document, provide a description for each use case in your use case diagram. Use this same document to complete and submit your deliverables. Your functional model should be complete and professional.
Specifically, the following critical elements must be addressed:
Creation: Analyze the SIS requirements and formalize them as use cases in a use case diagram, showing the actors associated with each use case. You should have between four to six use cases. Structure your use cases using <>, <>, and generalization relationships. Provide a description for each use case that is correct, complete, and valid for the SIS system.
Testing: Verify and validate your functional model against the requirements of the SIS system.
Approach Explanation: Explain your approach to creating your functional model and the design decisions you made to create it.
Self-Reflection: Discuss your experience creating your functional model and the lessons you learned from it. Specifically, draw connections between your experience and the object-oriented techniques and methods discussed in this course.
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