November, of 30 Exploring the Realities of Professional Practice: Implications for Engineering Education Dr Llewellyn Mann BE (Mech & Space) Hons, BSc (Physics), GCEd (Higher Ed), PhD (Engineering Education) The University of Queensland Purdue University Central Queensland University

2 of 30 November, 2005 Overview of seminar The Challenge The Way The Story so Far The Plan The Future

3 of 30 November, 2005 The Challenge What are professional abilities and skills that are: Essential for the current global workforce and the ‘flat world’ Not widely developed by students at the moment Will enable engineering graduates to meet the challenges of the 21st century

4 of 30 November, 2005 The Challenge Six right brain "senses," to complement our left brain, analytic skills. We need to realize the value of: not just function, but also design. not just argument, but also story. not just focus, but also symphony. not just logic, but also empathy. not just seriousness, but also play. not just accumulation, but also meaning. Further a final conceptual age skill to Pink's list: not just knowledge, but also learning. (Pink 2005)

5 of 30 November, 2005 The Challenge – We need… creative researchers, developers, and entrepreneurs who can help their companies stay ahead of the technology development curve; designers capable of creating products that are attractive as well as functional; holistic, multidisciplinary thinkers who can recognize complex patterns and opportunities in the global economy and formulate strategies to capitalize on them; people with strong interpersonal skills that equip them to establish and maintain good relationships with current and potential customers and commercial partners; people with the language skills and cultural awareness needed to build bridges between companies and workers in developing nations (where many manufacturing facilities and jobs are migrating) and developed nations (where many customers and consumers will continue to be located); self-directed learners, who can keep acquiring the new knowledge and skills they need to stay abreast of rapidly changing technological and economic conditions. (Felder 2006)

6 of 30 November, 2005 The Challenge – What Abilities and Skills?

7 of 30 November, 2005 The Way We need to find out how to deal with these challenges from the people who are dealing with them daily at the moment! Practice, not theory Experiences of those in practice From their point of view Looking at variation between practitioners’ experiences

8 of 30 November, 2005 The Way – Focus on variation Different people experience aspects of practice in different ways –Different contexts, cultures, backgrounds, previous experiences The more variation discerned and experienced, the more comprehensive our understanding can become BUT is never going to be complete Need to look at variation among practitioners’ experiences to build bigger picture of those aspects

9 of 30 November, 2005 The Way - Research method Phenomenography Investigating qualitative variations in people’s experiences of an aspect of the world (Marton 1986) Interpretive research tradition since mid-70s Revealed ‘surface’ and ‘deep’ approaches to learning Used in fields of study such as chemistry, health science, education, management, physics and engineering Involves interviewing people about their experiences with the aspect of the world of interest Participants chosen to obtain the largest diversity of experiences

10 of 30 November, 2005 The Way - Object of study (Bowden 2005)

11 of 30 November, 2005 The Way - Phenomenography points of departure e.g. thematic analysis (Trigwell 2000)

12 of 30 November, 2005 The Way – What Other Ways?

13 of 30 November, 2005 The Story so Far Cross-Disciplinary Practice Sustainable Design

14 of 30 November, 2005 The Story so Far – Sustainable Design Interviewed 22 practising design professionals –All had experiences of sustainable design –14 engineers and 8 non-engineers –Worked in engineering operations – Australian context –Were recognised by others as people of interest –Chosen to obtain largest diversity of experiences possible – not statistically representative –7 female and 15 male –Years of experience with design 6 with 15; 8 with +16 –Range of industry sectors 5 Construction; 10 Community Building; 5 Resources; 5 Product; 6 Individual; 7 Education Interviews lasted between 40 and 80 minutes Digitally recorded and transcribed verbatim Analysed using Phenomenography

15 of 30 November, 2005 Five different ways of experiencing sustainable design 1.Sustainable design is solution finding 2.Sustainable design is reductionist problem solving 3.Sustainable design is holistic problem solving 4.Sustainable design is social network problem solving 5.Sustainable design is a way of life

16 of 30 November, Sustainable design is solution finding Sustainable design is finding a solution, either a product or process(es), to satisfy a client’s declared requirements while decreasing the associated environmental, social and economic impacts.

17 of 30 November, Sustainable design is reductionist problem solving Sustainable design is the process of identifying and solving a client’s problem by making separate decisions that each decrease the associated environmental, social and economic impact.

18 of 30 November, Sustainable design is holistic problem solving Sustainable design is the process of identifying and solving a client’s problem holistically on a systems level, to increase the environmental, social and economic value of the solution.

19 of 30 November, Sustainable design is social network problem solving Sustainable design is the process of identifying and solving a client’s problem, embedded within a wider societal context to increase the environmental, social and economic value of the solution to both the client and society.

20 of 30 November, Sustainable design is a way of life Sustainable design is a way of approaching life where all the activities engaged in aim to increase the environmental, social and economic value of the outcome to both the individual and society.

21 of 30 November, 2005 Relationships between categories of description

22 of 30 November, 2005 The Story so Far – Cross-disciplinary Practice (Current) Interviewed 22 cross-disciplinary practitioners –All had experiences of cross-disciplinarity –15 engineers and 7 non-engineers –Worked in various sectors – US context –Many recognised by others as people of interest –Chosen to obtain largest diversity of experiences possible – not statistically representative –10 female and 12 male –Years of experience with cross-disciplinarity 4 with 15; 13 with +16 –Diverse epistemological distances and project sizes Interviews lasted between 25 and 50 minutes Digitally recorded and transcribed verbatim Analysing using both phenomenography and thematic analysis

23 of 30 November, 2005 The Story so Far – Cross-disciplinary Practice

24 of 30 November, 2005 The Story so Far – Emerging Themes Communication –Difficulty communicating between disciplines makes collaborating hard, but –Can’t over simplify when talking about complex problems Personal investment to work cross- disciplinary Focus on problems that require a cross- disciplinary approach –Can’t approach from a purely disciplinary direction Develops into part of their identity –Not only do they like it but it’s who they are

25 of 30 November, 2005 The Plan Exploring other professional skills Translating findings into engineering education

26 of 30 November, 2005 The Plan – Translating findings into practice Recent natural disasters (e.g., tsunamis, earthquakes, hurricanes, tornadoes, fires, and floods) were a hot topic at the 2006 International Conference on Predicting and Responding to Natural Disasters last month. The conference brought in people with diverse backgrounds from around the world, particularly those who live or work in “disaster-plagued” areas. At the end of the conference, you were asked to bring together a team that would focus on developing new ideas for a “disaster response system” for tornadoes in Tippecanoe County. 1.What issues do you think are important to consider? 2.Who would you want on your team? For each team member identify the expertise they would bring and how (or when) they would contribute to the project. Cross-disciplinary Disaster Response Scenario

27 of 30 November, 2005 Functional category versus Temporal based category The Plan – Translating findings into practice

28 of 30 November, 2005 The Plan – Translating findings into practice – How else?

29 of 30 November, 2005 The Future Continued collaboration on cross-disciplinary practice & develop close links with practitioners both in Australia and internationally –Workshops – face to face –Virtual research group – play across data set Expand focus to include other skills such as cross-cultural awareness, negotiation & storytelling etc Key – integrate ‘practice’ perspective into engineering education

30 of 30 November, 2005 Questions