COURSE OBJECTIVE:
Not available. Please contact.
TARGET AUDIENCE:
Business analysts, project managers, solution and systems developers and anyone who requires a practical understanding of the models and methods of systems design. Systems Design Techniques is also a Specialist Practitioner module on the BCS International Diploma in Solution Development.
COURSE PREREQUISITES:
One thing to bear in mind is that although you don't necessarily need to have any existing knowledge in order to take this module, we do strongly recommend that, given the amount of technical material covered on the course, you have at least a basic understanding of the UML. And in particular, we suggest class models, use case models and interaction models (sequence diagrams). If you're worried that you might not have the right basic knowledge, get in contact and we can see what options are available.
COURSE CONTENT:
Introduction
• Objectives and constraints of design
• The place of design in the systems development life cycle
• Using the products of analysis to drive systems design
• The work of the designer
• The scope of design
• Design methodologies
• Architectural issues in design
• Introduction to design patterns
User interface (UI) design
• Objectives of UI design
• Design of input and output interfaces
• Dialogue types
• Usability and style guides
• Prototyping the interface
• Modelling the user interface
Component-based design
• Introduction to components & software architectures
• Component design principles: cohesion, coupling, responsibility and reusability
• Using analysis models (use case diagram and class diagram) to create a logical component architecture
• Use case realisation with UML interaction diagrams
• Defining component interfaces
• Component engineering
• MVC (Model, View, Controller), choreography and orchestration design patterns
Logical data design (normalisation)
• Notation and conventions of relational data analysis (normalisation)
• Principles of progressive normalisation through first, second and third normal forms
• Rationalising results from normalisation of multiple data sources
• Building the normalised (Third Normal Form) data model
• Defining the final logical data design using Entity-Relationship Diagrams
Logical process design
• Activity Diagrams (UML)
• Structured English / pseudocode
• Data Navigation Diagrams
Physical design
• Optimising the logical design
• Principles of physical data design
• Principles of physical process design
• Design and architecture
• Packaging the design for delivery using Deployment Diagrams (UML)
System controls
• Risk in systems development
• Verification and validation of data
• Object controls
• Data controls & self-checking codes
• Function and state controls
• Visibility and encapsulation in object-oriented design (UML class diagrams)
• Audit trails
• Output controls
• Clerical controls
• Access controls, physical and logical security
• Backup and recovery
• Business continuity and disaster planning
• Legal requirements of the designer
FOLLOW ON COURSES:
Not available. Please contact.