Reference no: EM133070998
F/617/2266 Systems Analysis and Design - OTHM Level 4 Diploma In Information Technology
Aim: The aim of this unit is to develop learners' awareness of analysis and design in an organisational context. The unit introduces various techniques used within systems analysis and design and the methodologies used in the system development process.
Learning Outcome 1: Understand the principles of systems analysis and design.
1.1 Explain how systems analysis and design fits in to the software development life-cycle.
1.2 Explain the components of systems analysis.
1.3 Evaluate different approaches to system analysis and design.
1.4 Evaluate system design requirements.
Learning Outcome 2: Understand system design methodologies and modelling.
2.1 Explain system design concepts.
2.2 Evaluate different system design methodologies including object-oriented
Learning Outcome 3: Understand the human computer interface.
3.1 Explain the principles of HCI.
3.2 Evaluate HCI methodologies.
Learning Outcome 4: Be able to produce a system design using modelling techniques.
4.1 Create a system design document.
4.2 Produce a model of a software system.
4.3 Produce a security and control design.
LO1 • Basic definitions and motivations of HCI, including history, theories, interaction paradigms, design principles and models.
• User centred design methods comprising user studies
• Design approaches for interfaces and interaction
• Quality factors
• Evaluation methods
• Techniques for data analysis.
• Research frontiers of HCI, including accessibility, universal design, and pervasive computing (ubiquitous, mobile and wearable applications).
• Lifecycle models: understanding and use of predictive (Waterfall, Prototyping, RAD) and adaptive (Spiral, Agile, DSDM) software development models.
• Lifecycle stage and connectivity: feasibility study, analysis, design, implementation, testing, review or analysis, design, implementation, maintenance, planning; requirements traceability.
• Test and integration: building test environments; developing test harnesses; black box/white box testing; incremental testing; acceptance test and integration approaches; changeover strategies, trials and Go-Live prerequisites.
• Prototyping methodology
• End user categorisations, classifications and behaviour modelling techniques.
• Agile, Cleanroom, Incremental, Prototyping, Spiral V model, Waterfall.
• Hard and soft system methodologies Object-oriented modelling.
LO2 • Information systems types: Business information systems, decision support systems, management information systems, strategic/executive information systems, office information systems, transaction processing systems, expert systems, global information systems, data warehouse systems, enterprise systems, enterprise resource planning systems, integrated information systems.
• Categories of information systems: operational, tactical and strategic information systems.
LO3 • Information and data: Definition of information and data, sources of information, information requirements and the needs for information at different levels within an organisation; storing information and its importance with regard to security, accuracy and relevance; outputs e.g. payroll, invoicing, ordering, bookings, stock control, personnel records, goods tracking, decision-making, marketing, customer service.
• Management information: Reports e.g. sales report, college enrolment statistics, marketing analysis (brick v click), trends in the market, competition and market share, - management of computer systems, staffing, maintenance, project management and scheduling.
• Selecting information: Analysis of information in terms of validity, accuracy, currency and relevancy; identifying and rationalising meaningful information from data sets.
• Uses: Proficiency in terms of accessing quality information that can be used for decision-making, problem-solving, predictions, trending and forecasting.
• Flowcharts; Pseudocode; Formal specification Methods; Event/State/Data Driven; Finite State. Machines (extended-FSM)/FSP; problem of e-FSM state explosion; reachability analysis.
• Docker, CoreOS, Cloud Foundry, Kubernetes and OpenStack.
• DevOps and continuous integration practices, as well as the deployment tools available to architects to meet and exceed their business goals.
LO4 • Lab based, or work place
Attachment:- OTHM Level 4 Diploma In Information Technology.rar