ENN596 Industry Project


To view more information for this unit, select Unit Outline from the list below. Please note the teaching period for which the Unit Outline is relevant.


Unit Outline: Semester 2 2024, Gardens Point, Internal

Unit code:ENN596
Credit points:12
Pre-requisite:Admission to ((EV51 OR EN51 OR EN61 OR EN65 OR EN71 OR EN75) OR (EV53 OR EN53 OR EN63 OR EN73 OR EN76) OR (EV54 OR EN54 OR EN64 OR EN66 OR EN74 OR EN77) OR (EN56 OR EN72))
Coordinator:Buddhi Mahappu Kankanamalage | b.mahappukankanamalage@qut.edu.au
Disclaimer - Offer of some units is subject to viability, and information in these Unit Outlines is subject to change prior to commencement of the teaching period.

Overview

The aim of this unit is to provide you with an opportunity to apply skills and knowledge developed in your postgraduate engineering study area in an advanced problem domain and to enable you to conduct a well-defined project with specific outcomes, while demonstrating a capabilities focus towards culturally responsible professional engineering practice. The project addresses an industry problem through application of engineering theories, tools, and techniques. You will develop project management skills, culturally responsible professional engineering practice capabilities, and exercise leadership in a team in a complex and changing environment. This unit introduces a range of contemporary project management approaches.

Learning Outcomes

On successful completion of this unit you will be able to:

  1. Integrate advanced disciplinary knowledge and skills in the context of an industry project
  2. Critically analyse a client brief and use novel methods, advanced problem solving, analysis and relevant design skills and culturally responsible professional engineering practices to achieve an outcome for a client
  3. Apply project management skills including project planning, execution, and completion
  4. Communicate effectively with diverse audiences in oral and written formats
  5. Work collaboratively in a team environment to deliver a sophisticated, culturally responsible professional engineering solution
  6. Demonstrate reflective judgement, professional knowledge and skills, and ethical conduct

Content

You will pursue a complex project that is relevant to your postgraduate engineering study area. You will follow a formal project management framework and a culturally responsible professional engineering practice framework to ensure the success of your project by delivering the required project outcomes to stakeholders. You will be required to plan, execute, and complete a project delivering several products.

Learning Approaches

In this unit you can expect to experience the following timetabled activities:

  • Formal lectures from experienced professional engineers on selected topics related to your industry project, to give you insight into knowledge, skills, and attributes that will assist you in completing your assessments. You have the opportunity to ask questions during these lectures.
  • Formal teaching activity from a qualified expert to express the culturally responsible professional engineering practice framework that is appropriate to your Industry Project.
  • Tutorial classes will give you the opportunity to work with team consultation to prepare your individual project understanding and plan, and collaboratively with your team to complete your engineering solution. They will be facilitated by tutors and will provide an opportunity to test your understanding and gain feedback on your work.

These activities will be detailed by week one of semester on the unit schedule. You can also expect to be provided with learning resources including video presentations and readings on a unit Canvas site, which you can access flexibly to complete your learning in this unit.

At the beginning of the unit, you will be made aware of the ways in which you can ask questions or seek clarification from the unit coordinator, lecturers and tutors.

You are expected to:

  • Engage with timetabled learning activities on campus and ask questions.
  • Engage with online resources outside of timetabled learning activities. They will be available on the unit Canvas site. You will receive regular email announcements regarding the release of these resources.
  • Work with your team to develop your project understanding and plan so that you may together plan ahead effectively for the remainder of the unit.
  • Work in a cohesive, effective team to complete your engineering solution.While there will be time during timetabled tutorial classes, you will also need to undertake independent work outside of that time to complete assessment tasks, including for areas of individual responsibility.
  • Prepare for learning activities according to the unit schedule, and follow up on any work not completed.
  • Complete assessment tasks by working consistently throughout the semester and meeting the due dates that are published via the unit Canvas site.
  • Attend an interview during the central examination period where, as an individual, you will reflect on your semester industry project to your marker.

Feedback on Learning and Assessment

During tutorial classes, you will share your formative ideas for your assessments and you will receive feedback from your tutor. As part of an effective team in your discipline you will share the outcomes of your project understanding and plan, and engineering solution, with your tutor for marking and feedback. You are encouraged to view your team as a learning community and to share and discuss emergent ideas in the engineering solution development process and your understandings of culturally responsible professional engineering practice. Each assessment submission will be graded against criteria and standards that will be shared with you at the beginning of semester through Assessment Task Descriptions and Marking Rubrics. Marked assessment will include feedback given by the markers against the criteria

Assessment

Overview

Assessment will include two team project tasks (each with individual and group weightings) and one individual task. You will be provided with a rubrics articulating criteria and standards which will be used to evaluate your work in this unit.

Unit Grading Scheme

7- point scale

Assessment Tasks

Assessment: Project Understanding and Plan

Your team will submit a written project understanding and plan providing a description of the background, culturally responsible professional engineering considerations, objectives, significance, scope, benefits, expected deliverables, and schedule of the industry project. As part of this assessment, your team will identify how each member contributed to this assessment item.

This assignment is eligible for the 48-hour late submission period and assignment extensions.

Weight: 30
Individual/Group: Individual and group
Due (indicative): Week 4
Related Unit learning outcomes: 2, 3, 4

Assessment: Engineering Solution

Your team will submit a written project report providing a detailed description of the industry project and its outcomes. Project specific appendices to the report may be specified by your teaching staff. The report must also include review of the product's functionality and the degree of functional achievement against the original project understanding and plan, and a detailed statement of its responsiveness to the culturally responsible professional engineering practice framework portrayed in this unit.

This assignment is eligible for the 48-hour late submission period and assignment extensions.

Weight: 50
Individual/Group: Individual and group
Due (indicative): Week 13
Related Unit learning outcomes: 1, 3, 4, 5

Assessment: Project Reflection

At a prescribed time during the central examination block, you will present to be interviewed by a member of teaching staff where you will orally summarise your team's industry project outcomes and evaluate your own and other team members' contributions to the semester long industry project.

Weight: 20
Individual/Group: Individual
Due (indicative): Central Examination Period
Central exam duration: 1:10 - No perusal
Related Unit learning outcomes: 3, 4, 6

Academic Integrity

Students are expected to engage in learning and assessment at QUT with honesty, transparency and fairness. Maintaining academic integrity means upholding these principles and demonstrating valuable professional capabilities based on ethical foundations.

Failure to maintain academic integrity can take many forms. It includes cheating in examinations, plagiarism, self-plagiarism, collusion, and submitting an assessment item completed by another person (e.g. contract cheating). It can also include providing your assessment to another entity, such as to a person or website.

You are encouraged to make use of QUT’s learning support services, resources and tools to assure the academic integrity of your assessment. This includes the use of text matching software that may be available to assist with self-assessing your academic integrity as part of the assessment submission process.

Further details of QUT’s approach to academic integrity are outlined in the Academic integrity policy and the Student Code of Conduct. Breaching QUT’s Academic integrity policy is regarded as student misconduct and can lead to the imposition of penalties ranging from a grade reduction to exclusion from QUT.

Resources

Learning material in this unit will be managed from its QUT Canvas site.

You will also be expected to source resources specific to your industry project.

Resource Materials

Reference book(s)

Larson E.W., Honig B., Gray C.F., Dantin U., Baccarini D., 2016, Project Management - The Managerial Process, McGraw - Hill Education, Australia ISBN 9781743071809 (pbk.)

Risk Assessment Statement

Project work can sometimes involve site visits to commercial or industrial premises or study areas. When you visit such premises or study areas, you are responsible for acquainting yourself with any Health and Safety policies and procedures applicable to visitors (e.g. wearing of protective clothing such as hard hats, safety glasses, etc), and for observing those procedures. You are also responsible for notifying unit staff of any health condition you have (e.g. asthma) which may place you at risk in some commercial or industrial or study area situations. For any site visits you will be responsive to culturally responsible professional engineering practice.

Course Learning Outcomes

This unit is designed to support your development of the following course/study area learning outcomes.

EN51 Master of Sustainable Infrastructure

  1. Demonstrate and apply advanced and specialist discipline knowledge, concepts and practices as they relate to contemporary practice in Sustainable Infrastructure
    Relates to: Engineering Solution
  2. Analyse and evaluate Sustainable Infrastructure problems using technical approaches informed by contemporary practice and leading edge research to achieve innovative, critically informed solutions 
    Relates to: Project Understanding and Plan, Engineering Solution
  3. Apply innovative, systematic approaches to plan, design, deliver and manage projects in Sustainable Infrastructure in a way that assures sustainable outcomes over their whole lifecycle
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection
  4. Effectively communicate Sustainable Infrastructure problems, related complex data and information, and solutions in contemporary professional formats for diverse purposes and audiences
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection
  5. Demonstrate ethically and socially responsible practice, recognising the importance of personal accountability and reflective practice when working in individual and collaborative modes
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection

EN53 Master of Renewable Energy

  1. Demonstrate and apply advanced and specialist discipline knowledge, concepts and practices as they relate to contemporary practice in Renewable Energy
    Relates to: Engineering Solution
  2. Analyse and evaluate Renwable Energy problems using technical approaches informed by contemporary practice and leading edge research to achieve innovative, critically informed solutions
    Relates to: Project Understanding and Plan, Engineering Solution
  3. Apply innovative, systematic approaches to plan, design, deliver and manage projects in Renewable Energy in a way that assures sustainable outcomes over their whole lifecycle
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection
  4. Effectively communicate Renewable Energy problems, related complex data and information, and solutions in contemporary professional formats for diverse purposes and audiences
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection
  5. Demonstrate ethically and socially responsible practice, recognising the importance of personal accountability and reflective practice when working in individual and collaborative modes
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection

EN54 Master of Advanced Manufacturing

  1. Demonstrate and apply advanced and specialist theory-based discipline knowledge and concepts as they relate to contemporary practice in Advanced Manufacturing
    Relates to: Project Understanding and Plan, Engineering Solution
  2. Employ advanced specialist technical skills, analysis approaches, design, and data to the solution of problems in Advanced Manufacturing, critically evaluating solutions against practice-informed performance and whole-of-life requirements
    Relates to: Project Understanding and Plan, Engineering Solution
  3. Develop and employ professional leadership skills and management frameworks to deliver projects, lead teams, and enact change within Advanced Manufacturing
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection
  4. Implement professional communication and collaborative skills while engaging with stakeholders, exchanging ideas, and presenting complex information to specialist and non-specialist audiences
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection
  5. Demonstrate ethical and socially responsible practice, recognising the importance of personal accountability, and reflective practice
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection
  6. Enact a holistic approach to sustainability in Advanced Manufacturing that embodies the principals of efficient, green, circular, and clean
    Relates to: Project Understanding and Plan, Engineering Solution
  7. Demonstrate an ability to research and apply established theories and plan and execute a substantial research-based project, cultivating an attitude of engineering innovation and creativity
    Relates to: Engineering Solution

EN56 Master of Engineering Technology

  1. Demonstrate and apply advanced and specialist discipline knowledge, concepts and practices as they relate to contemporary practice in Engineering Technology
    Relates to: Engineering Solution
  2. Analyse and evaluate Engineering Technology problems using technical approaches informed by contemporary practice and leading edge research to achieve innovative, critically informed solutions
    Relates to: Project Understanding and Plan, Engineering Solution
  3. Apply innovative, systematic approaches to plan, design, deliver and manage projects in Engineering Technology in a way that assures sustainable outcomes over their whole lifecycle
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection
  4. Effectively communicate Engineering Technology problems, related complex data and information, and solutions in contemporary professional formats for diverse purposes and audiences
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection
  5. Demonstrate ethically and socially responsible practice, recognising the importance of personal accountability and reflective practice when working in individual and collaborative modes
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection

EN61 Graduate Certificate in Smart Transport and Mobility

  1. Demonstrate and apply advanced discipline knowledge, concepts and practices as they relate to contemporary practice in Smart Transport & Mobility
    Relates to: Engineering Solution
  2. Analyse and evaluate Smart Transport & Mobility problems using technical approaches informed by contemporary practice to achieve innovative, critically informed solutions
    Relates to: Project Understanding and Plan, Engineering Solution
  3. Apply innovative, systematic approaches to plan, design, deliver and manage projects in Smart Transport & Mobility in a way that assures sustainable outcomes over their whole lifecycle
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection
  4. Effectively communicate Smart Transport & Mobility problems, related complex data and information, and solutions in contemporary professional formats for diverse purposes and audiences
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection
  5. Demonstrate ethically and socially responsible practice, recognising the importance of personal accountability and reflective practice when working in individual and collaborative modes
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection

EN63 Graduate Certificate in Renewable Power

  1. Demonstrate and apply advanced discipline knowledge, concepts and practices as they relate to contemporary practice in Renewable Power
    Relates to: Engineering Solution
  2. Analyse and evaluate Renewable Power problems using technical approaches informed by contemporary practice to achieve innovative, critically informed solutions
    Relates to: Project Understanding and Plan, Engineering Solution
  3. Apply innovative, systematic approaches to plan, design, deliver and manage projects in Renewable Power in a way that assures sustainable outcomes over their whole lifecycle
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection
  4. Effectively communicate Renewable Power problems, related complex data and information, and solutions in contemporary professional formats for diverse purposes and audiences
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection
  5. Demonstrate ethically and socially responsible practice, recognising the importance of personal accountability and reflective practice when working in individual and collaborative modes
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection

EN64 Graduate Certificate in Digital and Robotic Manufacturing

  1. Demonstrate and apply advanced theory-based discipline knowledge and concepts as they relate to contemporary practice in Digital and Robotic Manufacturing
    Relates to: Project Understanding and Plan, Engineering Solution
  2. Employ advanced technical skills, analysis approaches, design, and data to the solution of problems in Digital and Robotic Manufacturing, critically evaluating solutions against practice-informed performance and whole-of-life requirements
    Relates to: Project Understanding and Plan, Engineering Solution
  3. Develop professional leadership skills and management frameworks to deliver projects, lead teams, and enact change within Digital and Robotic Manufacturing
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection
  4. Implement advanced communication and collaborative skills while engaging with stakeholders, exchanging ideas, and presenting complex information to specialist and non-specialist audiences
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection
  5. Demonstrate ethical and socially responsible practice, recognising the importance of personal accountability, and reflective practice
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection
  6. Enact a holistic approach to sustainability in Digital and Robotic Manufacturing that embodies the principals of efficient, green, circular, and clean
    Relates to: Project Understanding and Plan, Engineering Solution

EN65 Graduate Certificate in Water Modelling

  1. Demonstrate and apply advanced and specialist discipline knowledge, concepts and practices as they relate to contemporary practice in Water Modelling
    Relates to: Engineering Solution
  2. Analyse and evaluate Water Modelling problems using technical approaches informed by contemporary practice to achieve innovative, critically informed solutions
    Relates to: Project Understanding and Plan, Engineering Solution
  3. Apply innovative, systematic approaches to plan, design, deliver and manage projects in Water Modelling in a way that assures sustainable outcomes over their whole lifecycle
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection
  4. Effectively communicate Water Modelling problems, related complex data and information, and solutions in contemporary professional formats for diverse purposes and audiences
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection
  5. Demonstrate ethically and socially responsible practice, recognising the importance of personal accountability and reflective practice when working in individual and collaborative modes
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection

EN66 Graduate Certificate in Bioprocess Engineering

  1. Demonstrate and apply advanced theory-based discipline knowledge and concepts as they relate to contemporary practice in Bioprocess Engineering
    Relates to: Project Understanding and Plan, Engineering Solution
  2. Employ advanced technical skills, analysis approaches, design, and data to the solution of problems in Bioprocess Engineering, critically evaluating solutions against practice-informed performance and whole-of-life requirements
    Relates to: Project Understanding and Plan, Engineering Solution
  3. Develop professional leadership skills and management frameworks to deliver projects, lead teams, and innovate within Bioprocess Engineering
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection
  4. Implement advanced communication and collaborative skills while engaging with stakeholders, exchanging ideas, and presenting complex information to specialist and non-specialist audiences
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection
  5. Demonstrate ethical and socially responsible practice, recognising the importance of personal accountability, and reflective practice
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection
  6. Enact a holistic approach to sustainability in Bioprocess Engineering that embody the principals of efficient, green, circular, and clean
    Relates to: Project Understanding and Plan, Engineering Solution

EN71 Master of Sustainable Infrastructure with Project Management

  1. Demonstrate and apply advanced and specialist discipline knowledge, concepts, methods and practices as they relate to contemporary practice in Sustainable Infrastructure and Project Management domains
    Relates to: Engineering Solution
  2. Analyse and evaluate problems in Sustainable Infrastructure and Project Management domains using technical approaches informed by contemporary practice and leading-edge research to achieve evidence based, innovative, critically informed solutions and outcomes
    Relates to: Project Understanding and Plan, Engineering Solution
  3. Apply innovative, systematic approaches to plan, design, deliver and manage projects in Sustainable Infrastructure and Project Management domains in a way that assures sustainable outcomes and strategic objectives over their whole lifecycle
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection
  4. Effectively communicate problems in Sustainable Infrastructure and Project Management domains, related complex data and information, and solutions in contemporary professional formats for diverse purposes and audiences
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection
  5. Demonstrate ethically and socially responsible practice, recognising the importance of personal accountability, reflective practice, risk-informed judgements, and leadership
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection

EN72 Master of Advanced Robotics and Artificial Intelligence

  1. Demonstrate and apply advanced and specialist discipline knowledge, concepts and practices in Advanced Robotics and AI and Data Analytics domains
    Relates to: Engineering Solution
  2. Critically analyse, evaluate and apply appropriate methods to problems to achieve research-informed solutions in Advanced Robotics and AI and Data Analytics domains
    Relates to: Project Understanding and Plan, Engineering Solution
  3. Apply systematic approaches to plan, design, execute and manage projects in Advanced Robotics and AI and Data Analytics domains
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection
  4. Communicate complex information effectively and succinctly in oral and written form for diverse purposes and audiences
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection
  5. Work independently and collaboratively demonstrating ethical and socially responsible practice
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection

EN73 Master of Renewable Energy with Project Management

  1. Demonstrate and apply advanced and specialist discipline knowledge, concepts, methods and practices as they relate to contemporary practice in Renewable Energy and Project Management domains
    Relates to: Engineering Solution
  2. Analyse and evaluate problems in Renewable Energy and Project Management domains using technical approaches informed by contemporary practice and leading-edge research to achieve evidence based, innovative, critically informed solutions and outcomes
    Relates to: Project Understanding and Plan, Engineering Solution
  3. Apply innovative, systematic approaches to plan, design, deliver and manage projects in Renewable Energy and Project Management domains in a way that assures sustainable outcomes and strategic objectives over their whole lifecycle
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection
  4. Effectively communicate problems in Renewable Energy and Project Management domains, related complex data and information, and solutions in contemporary professional formats for diverse purposes and audiences
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection
  5. Demonstrate ethically and socially responsible practice, recognising the importance of personal accountability, reflective practice, risk-informed judgements, and leadership
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection

EN74 Master of Advanced Manufacturing with Project Management

  1. Demonstrate and apply advanced and specialist theory-based discipline knowledge, concepts, methods and practices as they relate to contemporary practice in Advanced Manufacturing and Project Management domains
    Relates to: Project Understanding and Plan, Engineering Solution
  2. Employ advanced specialist technical skills, analysis approaches, design, and data to the solution of problems in Advanced Manufacturing and Project Management domains, critically evaluating solutions and practice-informed performance to deliver whole of life requirements and strategic objectives
    Relates to: Project Understanding and Plan, Engineering Solution
  3. Develop and employ professional leadership skills and management frameworks to deliver projects, lead teams, and enact change in Advanced Manufacturing and Project Management domains
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection
  4. Implement professional communication and collaborative skills while engaging with stakeholders, exchanging ideas, and presenting complex information to specialist and non-specialist audiences in Advanced Manufacturing and Project Management domains
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection
  5. Demonstrate ethical and socially responsible practice, recognising the importance of personal accountability, and reflective practice, risk-informed judgements, and leadership
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection
  6. Enact a holistic approach to sustainability in Advanced Manufacturing that embodies the principals of efficient, green, circular, and clean
    Relates to: Project Understanding and Plan, Engineering Solution
  7. Demonstrate an ability to research and apply established theories and plan and execute a substantial research-based project, cultivating an attitude of engineering innovation and creativity
    Relates to: Engineering Solution

EN75 Master of Sustainable Infrastructure with Data Analytics

  1. Demonstrate and apply advanced and specialist discipline knowledge, concepts, methods and practices as they relate to contemporary practice in Sustainable Infrastructure and Data Analytics domains
    Relates to: Engineering Solution
  2. Analyse and evaluate problems in Sustainable Infrastructure and Data Analytics domains using technical approaches informed by contemporary practice and leading-edge research to achieve evidence based, innovative, critically informed solutions and outcomes
    Relates to: Project Understanding and Plan, Engineering Solution
  3. Apply innovative, systematic approaches to plan, design, deliver and manage projects in Sustainable Infrastructure and Data Analytics domains in a way that assures sustainable outcomes and strategic objectives over their whole lifecycle
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection
  4. Effectively communicate problems in Sustainable Infrastructure and Data Analytics domains, related complex data and information, and solutions in contemporary professional formats for diverse purposes and audiences
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection
  5. Demonstrate ethically and socially responsible practice, recognising the importance of personal accountability, reflective practice, risk-informed judgements, and leadership
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection

EN76 Master of Renewable Energy with Data Analytics

  1. Demonstrate and apply advanced and specialist discipline knowledge, concepts, methods and practices as they relate to contemporary practice in Renewable Energy and Data Analytics domains
    Relates to: Engineering Solution
  2. Analyse and evaluate problems in Renewable Energy and Data Analytics domains using technical approaches informed by contemporary practice and leading-edge research to achieve evidence based, innovative, critically informed solutions and outcomes
    Relates to: Project Understanding and Plan, Engineering Solution
  3. Apply innovative, systematic approaches to plan, design, deliver and manage projects in Renewable Energy and Data Analytics domains in a way that assures sustainable outcomes and strategic objectives over their whole lifecycle
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection
  4. Effectively communicate problems in Renewable Energy and Data Analytics domains, related complex data and information, and solutions in contemporary professional formats for diverse purposes and audiences
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection
  5. Demonstrate ethically and socially responsible practice, recognising the importance of personal accountability, reflective practice, risk-informed judgements, and leadership
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection

EN77 Master of Advanced Manufacturing with Data Analytics

  1. Demonstrate and apply advanced and specialist theory-based discipline knowledge, concepts, methods and practices as they relate to contemporary practice in Advanced Manufacturing and Data Analytics domains
    Relates to: Project Understanding and Plan, Engineering Solution
  2. Employ advanced specialist technical skills, analysis approaches, design, and data to the solution of problems in Advanced Manufacturing and Data Analytics domains, critically evaluating solutions and practice-informed performance to deliver whole of life requirements and strategic objectives
    Relates to: Project Understanding and Plan, Engineering Solution
  3. Develop and employ professional leadership skills and management frameworks to deliver projects, lead teams, and enact change in Advanced Manufacturing and Data Analytics domains
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection
  4. Implement professional communication and collaborative skills while engaging with stakeholders, exchanging ideas, and presenting complex information to specialist and non-specialist audiences in Advanced Manufacturing and Data Analytics domains
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection
  5. Demonstrate ethical and socially responsible practice, recognising the importance of personal accountability, and reflective practice, risk-informed judgements, and leadership
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection
  6. Enact a holistic approach to sustainability in Advanced Manufacturing that embodies the principals of efficient, green, circular, and clean
    Relates to: Project Understanding and Plan, Engineering Solution
  7. Demonstrate an ability to research and apply established theories and plan and execute a substantial research-based project, cultivating an attitude of engineering innovation and creativity
    Relates to: Engineering Solution

EN79 Graduate Diploma in Engineering Studies

  1. Demonstrate and apply advanced discipline knowledge, concepts and practices as they relate to contemporary Engineering practice
    Relates to: Engineering Solution
  2. Analyse and evaluate Engineering problems using technical approaches informed by contemporary practice and leading edge research to achieve innovative, critically informed solutions
    Relates to: Project Understanding and Plan, Engineering Solution
  3. Apply innovative, systematic approaches to plan, design, deliver and manage Engineering projects in a way that assures sustainable outcomes over their whole lifecycle
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection
  4. Effectively communicate Engineering problems, related complex data and information, and solutions in contemporary professional formats for diverse purposes and audiences
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection
  5. Demonstrate ethically and socially responsible practice, recognising the importance of personal accountability and reflective practice when working in individual and collaborative modes
    Relates to: Project Understanding and Plan, Engineering Solution, Project Reflection