MApplSc (Enterprise Systems)

IE591: Thesis (Industrial)

12 months long | Credits: 30

Candidates should agree the topic of their Research Thesis with their academic supervisor. The primary responsibility for the quality of the completed thesis lies with the candidate. The production of the thesis is intended to be a test of the candidate’s ability to conduct independent work. The role of the supervisor is to oversee and monitor the candidate’s progress in their research work and to provide general advice. In general, supervisors give guidance on the scope and planning of the research exercise and ensure that the work undertaken is neither too limited nor too ambitious in scope.
(Language of instruction: English)

Learning Outcomes

1. Gain an in-depth knowledge of the major subject area and a deep insight into current research and development work.
2. Be able to critically, independently and creatively identify, formulate and deal with complex issues.
3. Be able to critically and systematically integrate knowledge.
4. The capability to plan and use adequate methods to conduct scientific tasks and to evaluate this work
5. Be able to find, analyse, evaluate, select and integrate information using various sources
6. Be able to formulate research questions and hypotheses, and operationalize them
7. Be able to create, analyse and critically evaluate different technical solutions
8. Be able to conduct substantive arguments, critically analyse published material , and synthesise findings in a logical manner
9. Be capable of generating solutions for real world problems

Assessments

• Oral, Audio Visual or Practical Assessment (15%)
• Research (85%)

Teachers & Administrators

Click a name to search for their researcher profile. Note: Only teachers publish research profiles.

•  KATHRYN CORMICAN 🖂
  
•  MARY DEMPSEY 🖂
  
•  PAT DONNELLAN 🖂
  
•  ENDA FRANCIS FALLON 🖂
  
•  MARTINA KELLY 🖂
  
•  DAVID O'SULLIVAN 🖂
  

ME520: Research Methods

Semester 1 and Semester 2 | Credits: 10

The aim of this module is to equip candidates with appropriate skills to conduct autonomous research. It is essential for the effective generation, collection analysis and interpretation of scientific knowledge.
(Language of instruction: English)

Learning Outcomes

1. Understand the process, methods and tools of conducting systems related research
2. Plan, design, and implement a significant research project in an area of enterprise systems
3. Formulate alternative research ideas and research questions
4. Develop a literature review
5. Develop a conceptual model
6. Be familiar with alternative qualitative and qualitative research designs
7. Design a data collection protocol
8. Analyse and organise scientific data
9. Synthesise, present and report research findings in an acceptable manner

Assessments

• Continuous Assessment (100%)

Teachers & Administrators

Click a name to search for their researcher profile. Note: Only teachers publish research profiles.

•  KATHRYN CORMICAN 🖂
  

Reading List

1. "Real World Research" by Robson, C.
2. "Research Methods for Business Students" by Saunders et al.

IE446: Project Management

Semester 1 | Credits: 5

Project management is a means to an end and not an end in itself. The purpose of project management is to foresee or predict as many of the potential pitfalls and problems as soon as possible and to plan, organise and control activities so that the project is successfully completed in spite of any difficulties and risks. This process starts before any resources are committed, and must continue until all the work is completed. The primary aim of this course is to improve the effectiveness of people engaged in project management. It focuses on the essential concepts and practical skills required for managing projects in dynamic environments. This course aims to provide learners with a solid understanding of the fundamentals of project management and to equip them with simple yet powerful tools that will empower them to meet their full potential in the area of project management thus enabling them to implement successful projects on time, within budget and to the highest possible standard.
(Language of instruction: English)

Learning Outcomes

1. Understand the critical influencing factors for successful project management and execution.
2. Understand the key reasons for failure and to comprehend the impact and implications of project failure on the individual, team and organisation.
3. Specify an effective project plan, which is consistent with the business plan of the company
4. Demonstrate the ultimate success of the plan through successful project implementation
5. Be capable of using appropriate tools to schedule a project and associated activities and tasks
6. Be capable of using tools to analyse the health of a project portfolio and to select relevant projects that align with the overall portfolio.
7. Understand the concept of cross functional team working
8. Gain a solid grounding in transferable skills such as problem specification, team working, and the ability to synthesise and apply acquired knowledge to the solution of problems

Assessments

• Continuous Assessment (100%)

Teachers & Administrators

Click a name to search for their researcher profile. Note: Only teachers publish research profiles.

•  KATHRYN CORMICAN 🖂
  
•  GRÁINNE MORAHAN 🖂
  

Reading List

1. "Project Management: A Managerial Approach" by Meredith, J.R. and Mantel, S.J.
2. "A Guide to the Project Management Body of Knowledge (PMBOK® Guide)" by Project Management Institute

IE450: Lean Systems

Semester 1 | Credits: 5

To efficiently manage enterprise operations, firms are leveraging and deploying resources to exploit business opportunities. The module explores the challenges facing organisations in a global extended enterprise, and introduces a number of process improvement tools and techniques that businesses use to retain competitive advantage and maintain profitably. This module is designed to give students exposure to Lean Systems. The Module consists of three sections (1) Process Improvement Essentials, (2) Costs Defining Opportunities For Process Improvement and (3) Productivity: Process Improvement Opportunities . The course comprises weekly lectures across 8 or 12 weeks. 8 weeks and an Industry led Workshop (8 hour - full day) depending on student numbers and budget constraints OR 12 weeks excluding the Industry led Workshop.
(Language of instruction: English)

Learning Outcomes

1. • Develop an understanding of and appreciate the role of Lean tools and techniques in solving real life engineering and business problems
2. • Adopt value stream mapping to real life engineering management problems and generate solutions
3. • Have a sound base in the current and future state mapping
4. • Analyse data in support of lean balancing, lean layouts, action plans and contribute to decision making by advising management using lean problem solving
5. • Generate and prioritise alternative solutions for real life operations problems
6. • Participate in a workshop on lean gaming and project work
7. • Present Lean solutions to operations problems

Assessments

• Written Assessment (100%)

Teachers & Administrators

Click a name to search for their researcher profile. Note: Only teachers publish research profiles.

•  MARY DEMPSEY 🖂
  

Reading List

1. "Lean Six Sigma" by Donna C. Summers
   ISBN: 9780135125106.
   Publisher: Prentice Hall

IE309: Operations Research

Semester 1 | Credits: 5

Proposed Syllabus: Introduction to Operations Research What is a linear programming problem? Formulate linear programming models of real-life situations The simplex algorithm Sensitivity analysis Transportation problems, Assignment problems and trans-shipment problems Shortest-path problems and Maximum-flow problems Critical path method and program evaluation and review technique Minimum-cost network flow problems and Minimum spanning tree problems
(Language of instruction: English)

Learning Outcomes

1. Understand the general characteristics shared by all linear programming (LP) problems
2. Learn how to use linear programming (LP) to solve optimization problems
3. Be capable of graphically solve LP problems that involve only two variables
4. Be capable of formulate LP models of real-life situations
5. Be capable of perform simplex algorithm and sensitivity analysis in Excel to solve complex problems
6. Understand how to solve special types of LP problems with specialized algorithms and formulate and solve transportation problems, assignment problems, and transhipment problems
7. Be capable of Analyse important optimization problems by means of a graphical or network representation, such as: Shortest-path problems, Maximum-flow problems, Critical path method, Minimum-cost network flow problems, Minimum-spanning tree problems
8. Understand how to provide essential documents for project management, time management, Milestones and deliverables, risk management, budget management, etc.

Assessments

• Continuous Assessment (100%)

Teachers & Administrators

Click a name to search for their researcher profile. Note: Only teachers publish research profiles.

•  MARY DEMPSEY 🖂
  

IE520: Ergonomics

Semester 1 and Semester 2 | Credits: 10

Anthropometrics, Task Analysis, Posture Assessment, Manual Handling, Work Related Musculoskeletal Disorders (WRMDs), Display Screen Equipment, Workstation Design, Hand Tools Design and Assessment, Design for Assembly, Ergonomics in the Design Process, Shift Work, Working Time, Evaluation. Introduction to Systems, Task Analysis, Vision, Information Processing, Short Term Memory, Working Memory, Long Term Memory. Selective, Divided, Focused, and Sustained Attention. Static Information, Dynamic information. Visual Capabilities.Displaying Information. Typography, Arrangements of Components. Compatibility Relationships. Situation Awareness, Allocation of Functions, Selected Topics in Human Factors, Systems and Artifact Evaluation.
(Language of instruction: English)

Learning Outcomes

1. The ability to identify, formulate, analyse, and solve ergonomic design and assessment problems
2. Analyse and represent tasks for inclusion in the design process
3. To establish user requirements through the analysis of human machine systems
4. To comprehend the measurement of body size, shape, strength and working capacity and their application to ergonomic design and assessment problems
5. To comprehend the role of standards and regulations in ergonomics design and assessment problems
6. To adopt a user centered approach to ergonomic design problems, particularly with respect to human machine systems
7. To develop task analysis of existing and envisioned human machine systems
8. The ability to utilize a selection of ergonomic tools and methods in a user centered design and assessment approach
9. To utilize mock ups and models to explore and present solutions to ergonomics design and assessment problems
10. Understand the role of the human in human-machine systems
11. Understand the way in which information is processed by humans
12. Assess and specify aspects of visual and auditory displays to improve human information processing in specified tasks
13. Design and develop the configuration and layout of displays and controls at workstations
14. Analyse and represent tasks for inclusion in the design process
15. Evaluate selected human-machine systems and synthesize specifications for improved versions of them

Assessments

• Written Assessment (60%)
• Continuous Assessment (40%)

Teachers & Administrators

Click a name to search for their researcher profile. Note: Only teachers publish research profiles.

•  ENDA FRANCIS FALLON 🖂
  
•  WILLIAM KELLY 🖂
  
•  BONAVENTURE KENNEDY 🖂
  

Reading List

1. "Ergonomics: Foundational Principles, Applications, and Technologies" by Pamela McCauley Bush
   ISBN: 9781439804452.
   Publisher: CRC Press
2. "Human factors in engineering and design" by Mark S. Sanders, Ernest J. McCormick
   ISBN: 007054901X.
   Publisher: McGraw-Hill
3. "Bodyspace" by Stephen Pheasant and Christine M. Haslegrave
   ISBN: 0415285208.
   Publisher: Boca Raton, FL ; Taylor & Francis, 2005, c2006.
4. "A guide to the ergonomics of manufacturing" by Martin Helander
   ISBN: 0748401229.
   Publisher: London ; Taylor & Francis, c1995.
5. "Handbook of human factors and ergonomics methods" by Neville Stanton... [et al.]
   ISBN: 0415287006.
   Publisher: Boca Raton, Fla. ; CRC, c2005.
6. "Cumulative trauma disorders" by edited by Vern Putz-Anderson
   ISBN: 9780850664058.
   Publisher: Taylor & Francis

CT511: Databases

Semester 1 | Credits: 5

This module will provide the student with the information and technical know-how to establish, manage and optimally use relational databases.
(Language of instruction: English)

Learning Outcomes

1. Analyse the limitations of file based systems
2. Apply a Database Development Process
3. Create an EERD showing how entities relate and interact
4. Apply normalisation rules from 1NF to 4NF
5. Apply denormalisation rules
6. Use SQL

Assessments

• Written Assessment (70%)
• Continuous Assessment (30%)

Teachers & Administrators

Click a name to search for their researcher profile. Note: Only teachers publish research profiles.

•  DEIRDRE KING 🖂
  
•  ATTRACTA BRENNAN 🖂
  

ME432: Technology Innovation & Entrepreneurship

Semester 1 | Credits: 5

The module covers a broad range of topics that critically affect the successful identification and commercialisation of technologies. It is designed to help students develop strong conceptual foundations for understanding and exploiting technological innovation and entrepreneurship. More specifically, it aims to equip students with an understanding of the technology innovation life cycle and the key issues involved in entrepreneurship and new venture creation. It introduces concepts and frameworks to create, commercialise and capture value from technology-based products and services. It will provide students with a comprehensive toolbox to enable them to identify opportunities, develop feasibility studies and business plans in order to develop and manage innovation throughout the product lifecycle and exploit a new technological venture.
(Language of instruction: English)

Learning Outcomes

1. Understand the critical influencing factors for successful technology development and execution
2. Be capable of using appropriate methods and tools to develop and exploit a technology
3. Gain a solid grounding in transferable skills such as creative thinking, problem specification, team working, and the ability to synthesise and apply acquired knowledge to solve real world problems
4. Demonstrate effective oral and written skills
5. Assess the consequences of different courses of action
6. Take practical decisions and evaluate the results

Assessments

• Continuous Assessment (100%)

Teachers & Administrators

Click a name to search for their researcher profile. Note: Only teachers publish research profiles.

•  KATHRYN CORMICAN 🖂
  

Reading List

1. "product Design & Development" by Ulrich, K.T. and Eppinger, S. D.
   Publisher: McGraw Hill
2. "Biodesign: The Process of Innovating Medical Technologies" by Zenios, S. Makower, J. Yock, P.
   Publisher: Cambridge University press

MS5107: Business Modelling and Analytics

Semester 1 | Credits: 5

The objective of this course is to develop students understanding of the role of business analytics in decision making and equip them with solutions used to create scenarios, understand realities, and predict future states. The course focuses on three types of business analytics: descriptive analytics used to gain insight from historical data; predictive analytics used to forecast future business performance; and prescriptive analytics used to recommend decisions using optimisation, simulation etc. Students are introduced to core concepts and technologies of business analytics, such as modelling, analysis, optimisation; data exploration and data mining; forecasting models; decision trees; neural networks; clustering techniques; etc. The course uses real business cases, to illustrate the application and interpretation of these methods. An important feature of the course is the use of MS Excel, an environment familiar to business analysts. All discussed models are provided by the Excel add-ins Analytic Solver Platform and XLMiner plus illustrative examples.
(Language of instruction: English)

Learning Outcomes

1. Perform comprehensive analysis of business cases and build models in order to explain: What is happening, by the means of data analysis, modelling, and data mining; What will happen next, by the means of predictive techniques and machine learning; What is the best that can happen by the means of optimisation and simulation techniques.
2. Demonstrate practical skills in using MS Excel and advanced business analytics add-ins, such as Analytic Solver Platform and XLMiner.
3. Demonstrate theoretical knowledge in areas, such as maths modelling, operations research, machine learning, data mining, statistics, etc.
4. Students will be able to critically apply business model and analytics techniques to help solve the business and societal problems in their own context and area of interest e.g. cybersecurity, health, finance, marketing, HR, commerce, etc.

Assessments

• Continuous Assessment (50%)
• Department-based Assessment (50%)

Teachers & Administrators

Click a name to search for their researcher profile. Note: Only teachers publish research profiles.

•  ANATOLI NACHEV 🖂
  
•  MELISSA O'HEA 🖂
  

ME4105: Safety Engineering

Semester 1 | Credits: 5

Introduction to Safety Engineering
(Language of instruction: English)

Learning Outcomes

1. Recognise and discuss basic safety terminology and concepts as they apply to occupational and environmental conditions
2. Explain the multifactorial theory of accident causation
3. Describe and critique models used to explain the causes of accidents, both occupational and environmental and to promte prevention
4. Appraise the role of risk perception in accident causation and assess the principles underlying behaviour
5. Discover and recommend methodologies to assess the human contribution to risk
6. Perform risk assessments using validated methodologies and judge their effective application to safety systems
7. Assess the hazards and risks associated with specific work environments
8. Formulate and recommend methodologies for the recognition, evaluation and control of workplace occupational and environmental risk and justify their application

Assessments

• Written Assessment (100%)

Teachers & Administrators

Click a name to search for their researcher profile. Note: Only teachers publish research profiles.

•  MARTINA KELLY 🖂
  

Reading List

1. "Engineering a Safer World: Systems Thinking Applied to Safety" by Leveson, Nancy
   Publisher: MIT Press
2. "Basic Guide to System Safety" by Vincoli, J. W
3. "System Safety Mil-Std-882E" by U.S. Department of Defense
   Publisher: U.S. Department of Defense
4. "Transforming Healthcare: a safety imperative" by Leape, L. et al

MS807: Information Systems Management

Semester 1 | Credits: 5

The objective of this module is to develop students’ understanding of the management of information systems in organisations. Topics may include: Information Systems (IS) concepts and challenges; information management and governance; the impact of IS on organisations; roles of IS in changing competitive environments; managing the IT capability; how IS/IT delivers new ways of doing business; funding IS; IS and business value; trends in IS deployment; and current issues in the management of the information systems resource.
(Language of instruction: English)

Learning Outcomes

1. Describe the roles of information resources in business operations and strategy.
2. Critically assess the management of information resources in organisations.
3. Describe how information systems are used and governed to manage information in business.
4. Discuss evolving and emerging trends in IS management.

Assessments

• Written Assessment (70%)
• Continuous Assessment (30%)

Teachers & Administrators

Click a name to search for their researcher profile. Note: Only teachers publish research profiles.

•  MELISSA O'HEA 🖂
  
•  LORRAINE MORGAN 🖂
  

MS3110: The Future of Technology in Work and Society I

Semester 1 | Credits: 5

This purpose of this course is to enable students become both consumers and producers of state-of-the-art research in the field of information systems. Students will be exposed to cutting edge research from the field, which they will critique and reflect upon. It aims to deepen the candidate's grasp of the theories, techniques and methods employed in emerging IS research. Participants will learn how to develop a research study and establish its relevancy for individuals, industry, or wider society.
(Language of instruction: English)

Learning Outcomes

1. Critically evaluate emerging research being undertaken within the information systems discipline.
2. Demonstrate an appreciation of the diversity of research currently being undertaken within the information systems discipline.
3. Develop and motivate interesting research questions within information systems.
4. Be able to apply a systematic method for writing a literature review of a specific topic within IS.
5. Design a scientific report that summarises and concludes the results from a literature review related to a selected topic within IS.
6. Suggest a theoretical perspective, framework or model and argue for why this choice is appropriate for designing and conducting a research study within IS.

Assessments

• Continuous Assessment (100%)

Teachers & Administrators

Click a name to search for their researcher profile. Note: Only teachers publish research profiles.

•  MELISSA O'HEA 🖂
  
•  Simeon Vidolov 🖂
  

ME431: Systems Reliability

Semester 2 | Credits: 5

Reliability Engineering, Reliability Concepts and Definitions, Probabilistic Modelling, Redundancy, Reliability Block Diagrams, Reliability Modelling: Event Trees, Fault Trees, Series and Parallel Systems. Time dependent Reliability: Exponential, Weibull Distributions, Monte Carlo Methods
(Language of instruction: English)

Learning Outcomes

1. Understand and appreciate the role of reliability analysis from an engineering and safety perspective
2. Model engineering systems using a number of reliability modelling methods and tools
3. Analyse the reliability of basic product/system design configurations and give appropriate recommendations for improvements
4. Identify, process and analyze relevant engineering reliability data

Assessments

• Written Assessment (100%)

Teachers & Administrators

Click a name to search for their researcher profile. Note: Only teachers publish research profiles.

•  ENDA FRANCIS FALLON 🖂
  

Reading List

1. "Reliability Engineering and Risk Analysis: A Practical Guide" by Modarres, M., Kaminsky, M., Krivtsiv, V.,
   ISBN: 978149874587.
   Publisher: Taylor & Francis
2. "Safety-critical Computer Systems" by Neil Storey
   ISBN: 0201427877.
   Publisher: Addison-Wesley

ME572: Human Reliability

Semester 2 | Credits: 5

Nature of Human Error, Categories of Human Error, Modelling Human Error. Human Reliability in Risk Assessment. The Human Reliability Assessment Process; human error analysis, human-error quantification, impact assessment, human-error risk reduction. Human Error Analysis Methods: SHERPA, SPEAR, MURPHY DIAGRAMS, HEART, TEAM-BASED HEART, THERP, SPAR-H. Systems Failures and Disaster Case Studies
(Language of instruction: English)

Learning Outcomes

1. Describe the concept of human error and how it is categorised
2. Recognise the role of human reliability in safety-related systems development
3. Identify and distinguish between different categories of human errors or potential human errors in safety related systems
4. Describe and analyse industrial accidents and incidents in order to gain an understanding of underlying causes, in particular those related to human activities.
5. Analyse work activities (industrial and healthcare) for human error potential using established human error analysis methods and analytical techniques
6. Compare and evaluate the effectiveness of using human error modelling methods in various scenarios.

Assessments

• Written Assessment (60%)
• Continuous Assessment (40%)

Teachers & Administrators

Click a name to search for their researcher profile. Note: Only teachers publish research profiles.

•  ENDA FRANCIS FALLON 🖂
  

Reading List

1. "The blame machine" by R. B. Whittingham
   ISBN: 0750655100.
   Publisher: Oxford ; Elsevier/Butterworth-Heinemann, 2004.
2. "Human factors methods" by Neville A. Stanton ... [et al.].
   ISBN: 9781409457541.
   Publisher: Aldershot, Hants, England; Ashgate

ME5100: Operations Management

Semester 2 | Credits: 5

Introduction to operations management, design of products & services, lean and JIT manufacturing systems, facility design & layout, forecasting, capacity planning and aggregate production planning, inventory management, enterprise resource planning, scheduling.
(Language of instruction: English)

Learning Outcomes

1. Be able to state the role of operations engineering in a business from a product/service and process perspective.
2. For various product and process configurations, be able to design a lean/JIT manufacturing system to produce products or services.
3. Be capable of solving operations oriented problems in an industrial setting with an emphasis on productivity, process planning, scheduling, inventory management, forecasting.
4. Identify the main stages in service design.
5. Identify the main stages in product design and development.

Assessments

• Written Assessment (70%)
• Continuous Assessment (30%)

Teachers & Administrators

Click a name to search for their researcher profile. Note: Only teachers publish research profiles.

•  PAT DONNELLAN 🖂
  

Reading List

1. "Operations management along the supply chain," by Russell & Taylor, Wiley

MS803: Business Data Communications

Semester 2 | Credits: 5

The objective of this course is to develop in students an understanding of the fundamentals of modern data communication technologies and to combine them with applications and practices related to a business environment. Topics may include: network concepts; transmission media; OSI and TCP/IP; LAN technologies; network and Internet connectivity; Internet communication model and application layer services; hosting solutions; IP addresses and domain name system; network security technologies – problems and solutions.
(Language of instruction: English)

Learning Outcomes

1. To describe the fundamentals of data communications techniques and practices used by businesses today
2. Demonstrate understanding of manager role in developing a communication infrastructure
3. Recognise a variety of Internet technologies and to relate them to a business environment
4. Recognise common internet communication services, associated protocols, and describe their correct usage
5. Present (in oral form) the relative advantages and limitations of network and communication technologies and configurations

Assessments

• Written Assessment (75%)
• Continuous Assessment (25%)

Teachers & Administrators

Click a name to search for their researcher profile. Note: Only teachers publish research profiles.

•  ANATOLI NACHEV 🖂
  
•  MELISSA O'HEA 🖂
  

CT5159: Enterprise Systems Innovation

Semester 2 | Credits: 5

Innovation and creativity in established enterprises and organisations including setting goals, managing actions, leading teams, monitoring results and building communities
(Language of instruction: English)

Learning Outcomes

1. Develop innovation goals
2. Manage innovation actions
3. Lead innovation teams
4. Monitor innovation results
5. Build innovation communities

Assessments

• Continuous Assessment (100%)

Teachers & Administrators

Click a name to search for their researcher profile. Note: Only teachers publish research profiles.

•  DAVID O'SULLIVAN 🖂
  
•  DEIRDRE KING 🖂
  
•  GERALDINE HEALY 🖂
  

ME353: Quality Systems

Semester 2 | Credits: 5

Quality management systems(ISO9001), Six sigma philosophy, basic statistical quality control, tools for quality improvement, process capability analysis, Kaizen, quality costs, quality auditing, Management systems in Environment and Health and Safety.
(Language of instruction: English)

Learning Outcomes

1. State the elements and documentation requirements, and be able to develop a quality management system based on ISO9001.
2. State the Six Sigma philosophy and how it is applied in a business.
3. Design Statistical Quality Control charts for attributes and variables and develop a quality improvement programme.
4. Understand the management system requirements for environmental and health and safety management due to their similarity to a QMS.
5. Develop a quality cost management program.
6. Use the basic tools of quality management for data collection and reporting.

Assessments

• Written Assessment (70%)
• Continuous Assessment (30%)

Teachers & Administrators

Click a name to search for their researcher profile. Note: Only teachers publish research profiles.

•  PAT DONNELLAN 🖂
  
•  ENDA FRANCIS FALLON 🖂
  
•  MARTINA KELLY 🖂
  
•  DAVID FINN 🖂
  

Reading List

1. "ISO9001, ISO14001, ISO45001, ISO13053-1/2, ISO19011" by ISO
   Publisher: ISO Geneva

AY5141: Accounting and Management Control for Sustainable Organizations

Semester 2 | Credits: 5

To address the grand challenge of sustainable global development and innovation, management need effective decision-making processes and suitable tools to measure the multiple dimensions of performance. Topics covered in this course include the types of management control practices adopted by organisations, key issues in performance measurement incorporating triple bottom line outcomes, the role of financial and nonfinancial data in decision-making processes, divisional performance evaluation and transfer pricing mechanisms.
(Language of instruction: English)

Learning Outcomes

1. Apply management accounting techniques to prepare information for decision making.
2. Critically analyse the usefulness of financial and non-financial information for management decision making.
3. Appraise the tools available for measuring and managing the multiple dimensions of performance that need to be reported to different stakeholder groups.

Assessments

• Written Assessment (80%)
• Continuous Assessment (20%)

Teachers & Administrators

Click a name to search for their researcher profile. Note: Only teachers publish research profiles.

•  SHARON GILMARTIN 🖂
  
•  BREDA SWEENEY 🖂
  
•  Tracy Coloe-Cloonan 🖂
  

CT5199: Business Data Analytics

Semester 2 | Credits: 5

Modern Business Data Analytics process, tools and techniques. From exploratory data analysis to development of descriptive, diagnostic, predictive and prescriptive data analytics solutions using modern tools including Power BI and Python.
(Language of instruction: English)

Learning Outcomes

1. Demonstrate competence in the application of Business Data Analytics in settings such as business operations and performance improvement
2. Extract, manipulate and mine data from various sources using modern techniques and tools
3. Perform exploratory analysis using statistical techniques and tools such as Excel, Power BI, Tableau and Python
4. Design and create descriptive analytics solutions to business problems using insightful reports and data visualisations and dashboards
5. Demonstrate competence in the choice and development of appropriate descriptive, diagnostic, predictive and prescriptive analytics techniques
6. Apply predictive analytics techniques to business questions, including techniques such as classification, regression, clustering and forecasting

Assessments

• Written Assessment (50%)
• Continuous Assessment (50%)

Teachers & Administrators

Click a name to search for their researcher profile. Note: Only teachers publish research profiles.

•  DEIRDRE KING 🖂
  
•  OWEN MOLLOY 🖂
  
•  GERALDINE HEALY 🖂