Technological University Dublin
ARROW@TU Dublin
Conference papers
School of Surveying and Construction Management
2018-04-21
Learning Through Successful Digital
Opportunities for Effective Competition
Preparations:Reflections of students and coaches
Lloyd Scott
Technological University Dublin, lloyd.scott@dit.ie
Mark Shelbourn
University of Salford, M.Shelbourn@salford.ac.uk
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Recommended Citation
Scott, L., Shelbourn, M. (2018) Learning Through Successful Digital Opportunities for Effective Competition Preparations Reflections of students and coaches 54th Associated Schools of Construction Annual Conference Minneapolis, MN
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Learning Through Successful Digital Opportunities for Effective Competition
Preparations - Reflections of students and coaches
Lloyd Scott, PhD
School of Surveying and Construction Management
Dublin Institute of Technology
Dublin, Ireland
Mark Shelbourn , PhD.
School of the Built Environment
University of Salford
Manchester, UK
Education of the built environment is moving towards more collaborative practices. The intent
behind the collaborative approach of teaching is to encourage students to explore the unknowns and
unravel the problems themselves, with the professor acting as the facilitator. This paper presents a
collaborative pedagogical approach that was adopted to teach students from two geographically
distant universities. The occasion used was preparation of student teams for Associated Schools of
Construction (ASC) student competitions. The participants began by engaging online in a virtual
environment and later moved to face-to-face collaboration solving an interdisciplinary design build
problem as part of the student competition. The authors adopted an action research method to
enhance the capabilities of the students in understanding and generating constructive behavioral
changes. The intention was to empower the students to explore new horizons by ‘clarifying and
negotiating’ ideas and concerns. The authors evaluated the usefulness of this pedagogical approach
based on direct and indirect measures. The pedagogical approach presented is a part of an ongoing
initiative between three universities that have shown positive results based on the teams’
performance in the competition as well as affirmative feedback from the student participants.
Key Words: Collaborative pedagogy, international collaboration, action research, case study
Introduction
Built Environment graduates in the future will need to be highly technical, adaptable, good communicators and
lifelong learners (Hunt 2011). This goal provides the modern academic with many challenges. We hear
commentators proffer that the current model of pedagogy, which is at the heart of the modern higher education
experience, is becoming obsolete. In the industrial model of student mass production, the teacher is the
broadcaster. However, we hear calls for a more constructivist learner-centered approaches. An active learning
approach has the potential to create the opportunity to develop those skills, competences and understanding that
graduates now require. This paper offers reflections on a collaborative learning project between the Dublin
Institute of Technology, University of West of England and Oklahoma University architecture/ construction
management students.
The holistic, interdisciplinary approach to the design, construction, production and operation of buildings is
likely to require changes in the way the process is arranged, resourced and managed in the future (Atkin, 2009).
There will be a different kind of professional in the twenty or thirty years whose education and/or training will
be required to permit them to make the many connections in thinking and actions required to solve complex
problems. Future construction professionals must challenge the conventional ways of the past in ways that use
their creative and innovative capacities. Active learning experiences like the Design Build competition offer so
many opportunities to develop this.
From a learning front, with technology, it is now possible to embrace new collaboration models that change the
paradigm in more fundamental ways. But this pedagogical change is not about technology per se. This is not
about distance learning. This is not about students being able to access lectures by some of the world's leading
professors from free online sites like Academic Earth. Rather, this represents a change in the relationship
between students and teachers in the learning process. The assessment of the learning involved in such an
approach is easily measured; from the academics’ perspective who observe students grow in confidence,
understanding and knowledge as they experience a positive constructivist learning engagement.
In becoming that ‘guide on the side educator’ has made the team better educators and has provided the
motivation and appetite for future innovation. The continued support for the Dublin Institute of Technology,
University of West of England and Oklahoma University initiative is vital to the creation of the future leaders in
construction. Research has shown that collaboration among lecturers/teachers has positive outcomes for learning
in areas such as engagement, attendance and achievement (Ahmed, 2013, Scott and Fortune 2013). Building on
that idea, this paper presents the findings from this study and suggests, the factors, a learning by doing approach
and curriculum innovation, were both strongly related with the factors of collaboration through mentoring and
feedback.
Collaborative Education in the Built Environment
In North America McGraw-Hill have published a number of reports where they asked North American
Architecture Engineering & Construction (AEC) firms their requirements for skills for collaborative BIM. In
2009 (McGraw Hill, 2009), they reported that “…more internal staff with BIM skills, more external firms with
BIM skills, more incoming entry-level staff with BIM skills and more readily available training in BIM were
required to realize the potential value of BIM.” By 2012 (McGraw Hill, 2012) the updated report showed small
decreases in the percentages allocated to the collaborative BIM skills required (possibly reflecting uptake by the
industry), but collaborative BIM training was still placed among the top three targets for investment by industry.
These reports show similarities with Henderson and Jordan (2009) who suggested that some of the additional
skill-sets (to their traditional single-discipline learning) industry requires included: “…knowledge of data
management, information technology, energy and material conservation, integrated building design, systems
thinking, life cycle analysis, the design processes, business and marketing skills, and project finance” (p. 35).
It is the role of educators to instil in all graduates the concepts of collaborative design and the full potential of
collaborative team integration, before they learn about the “old ways” of working once they graduate (Shelbourn
et al. 2017). The concept of creating job-ready graduates brings to the fore the “training vs. educating” debate.
Gerber et al., (2013) demonstrated that there has been resistance in the past among educators in providing
training in collaborative computer technologies in universities, as many educators are unfamiliar with such
technologies. This often means educators currently expect students to learn it by themselves, as they do many
other software applications (Williams et al., 2009). Given these precedents, one can assume the same approach
to learning collaborative BIM meaning students will tend to focus on the technological aspects, rather than
develop an understanding of how BIM principles and processes could enable them to work more effectively with
others in a collaborative team environment.
On the training v’s education debate, many educators still view BIM as just another piece of Computer-AidedDrafting (CAD) software that students should learn in their own time. Many argue that it is not the university’s
role to produce ‘CAD technicians’ and that there is little educational value in using CAD, or that CAD threatens
creativity (Becerik-Gerber et al., 2011). These concerns can be justified as the adoption of computers and 2D
CAD has coincided with a decrease in documentation quality and productivity (Engineers Australia, 2005).
However, collaborative BIM is not merely a new CAD tool or computer application: it is a new paradigm and its
benefits extend much further than 3D drafting (Chegu Badrinath et al. 2016). Students cannot be expected to
“teach themselves BIM” any more than they could be expected to “teach themselves structural engineering”
(Engineers Australia, 2005; Gledson et al. 2016). From a learning point of view, there is little difference between
learning manual drafting techniques and learning 2D or 3D CAD. However, with collaborative BIM, every part
of the design and construction process and can be compared, with building performance also modelled at this
stage and monitored in the operation phase. Both 2 and 3D CAD merely provide a way of documenting
information about the building, whereas collaborative BIM actually represents the building virtually with critical
information contained within it to help optimise the operation of the facility throughout its lifecycle (Hu et al.
2017).
In addition to the resistance to using new technologies in teaching, faculties where this learning is taking place is
also a barrier to learning (Shelbourn et al. 2016). Since engineering and architecture emerged as separate
professions from the historical job title of Master Builder, students of the different disciplines have tended to be
educated in isolation from each other. According to Pressman (2007, p., 3):
“Many academic programs still produce students who expect they will spend their careers working as heroic,
solitary designers. But integrated practice is sure to stimulate a rethinking of that notion. Pedagogy must focus
on teaching not only how to design and detail, but also how to engage with and lead others, and how to
collaborate with the professionals they are likely to work with later.”
Starzyk and McDonald (2010) reported a focus of architectural education on developing individual skills, such
as the ability to draw. More recently, they state, “…the importance of personal skill is yielding to the primacy of
collective knowledge”. Scott (2016) found little or no integration or collaboration between the disciplines in the
majority of universities in the USA, Europe and Australia. Moreover, the first time that students are exposed to
working with team members from other disciplines is in the workplace, post-graduation. Shelbourn et al. (2017)
discussed this further, and said “…it is important for graduates to have an understanding of the roles played by
other professionals and the impact their decisions have on projects overall.” However, the lack of multidisciplinary collaborative learning means students are not provided with such an understanding in much of the
current curricula across these countries (Scott, 2013).
Another issue to consider is the complexity of modern building projects and technologies used in their design
and construction. Such complexity means that nobody can be a master of all. Students learning in their silos lack
a deep understanding of the information that each requires at different stages of a project (Shelbourn et al. 2017).
What is required is for students to work collaboratively and to learn the requirements of the other disciplines
before they graduate, often in multi-disciplinary modules, projects and even student competitions such as those
offered as part of the Associated Schools of Construction in the USA.
The problem is not only restricted to students of separate disciplines learning in their own silos: different
departments are often in separate departments, schools or faculties and can be located on separate campuses
(Shelbourn et al. 2016). Sharing learning across the different silos is a challenge that needs addressing if
graduates are to leave their studies with the key skills of understanding the importance of collaboration
(Shelbourn et al., 2016). The need for change instigated by the BIM revolution (Cabinet Office, 2011) provides a
great opportunity to rethink how teaching and learning is designed with educators becoming more efficient in
delivering it (Shelbourn et al. 2017).
It is not all doom and gloom however. Hardy, quoted in Deutsch (2011, p. 202) stated, “…when I look at the
logic of construction means and methods that collaborative BIM inherently teaches, I see the potential to
educate…”. Nawari (2010) noted that “…students need to know how each discipline is related to the other and
how one discipline impacts the other”. The role of collaborative BIM can offer a better opportunity to engage
students more effectively and to help with their understanding of how buildings are constructed.
Mark et al. (2001) proposed “…the ideal computer curriculum…” for architectural education where computing
technologies were added to existing curriculum without removing or adding subjects. Mark et al. (2001) offered
two alternatives: one that merged technology into the traditional curriculum, the other a more radical approach
that displaced some existing subjects. The approach was limited to teaching BIM modelling for visualization or
analysis within the architectural discipline alone. Scott (2016, p.552) highlighted the case for setting education in
the pragmatic paradigm, pointing out that “…the freedom to work within the pragmatic paradigm offers diversity
that can draw together some of the thoughts that challenge and build the arguments about the role and position
of theory in construction education” – certainly a useful consideration when looking at collaborative BIM
education.
The challenge for academics wanting to educate undergraduates so that they can work effectively in
collaborative teams, putting together virtual (and eventually real-life) buildings, is when and how to introduce
elements of disciplinary knowledge, BIM technologies and development of team working skills. Collaborative
BIM education should be effected in stages (Shelbourn et al. 2016), increasing in complexity as the students’
knowledge of the building design and construction process grows (Gordon et al., 2009).
Solving a Distinct Problem in Multidisciplinary Education
The action research that is presented in this paper involved cycles of interactions between the authors and
participants focusing on two separate objectives:
1. To enhance participants’ learning to build capabilities and abilities to understand and generate
constructive behavioral change through reflective action on assessment practice
2. To evaluate the usefulness of collaborative learning to enhance such actions by the participants as
improving their learning.
Action research was deemed as the ideal methodology particularly as a holistic, in-depth investigation was the
goal (Feagin, Orum & Sjoberg 1991). While action research is distinguished by its purpose that is to affect
change in the participants, the objective of the ASC student competition (specifically the ‘International Design
Build’ competition) is to enhance the participants’ capabilities. The study presented in this paper did not attempt
to perform sampling research. Within the premise of the approach adopted in this paper, there is a choice to be
made in relation to the number of cases to include and as the initiative will be ongoing it will very much be
considered as presenting a number of case studies over time, the occurrence in consideration being the first.
Action Research
The growing use of action research within built environment education research and development initiatives
explicitly recognize that collaborative approaches to student learning are not characterized so much by
problems for which an answer must be found, but rather by issues which need to be resolved and will
inevitably require one or more of the parties to change their views. The underlying assumption of these
approaches is that effective social change depends on the commitment and understanding of those involved in
the change process. Also, it is suggested that collaboration can provide people with the interactions and
support necessary to make fundamental changes in their practice which endure beyond the research process.
Action research comprises a family of research methodologies, which aim to pursue action and research
outcomes at the same time. It therefore has some components which resemble consultancy or change agency,
and some which resemble field research. The focus is action to improve a situation and the research is the
conscious effort, as part of the process, to formulate public knowledge that adds to theories of action that
promote or inhibit learning in behavioral systems. One of the key characteristics of this approach is
collaboration, which enables mutual understanding and consensus, democratic decision making, and common
action (Oja & Smulyan 1989).
In this sense the action researcher is a practitioner, an interventionist seeking to help improve client systems. "This
help takes the form of creating conditions in the behavioral world of the client system that are conducive to
inquiry and learning. Lasting improvement requires that the participatory action researcher help clients to change
themselves so that their interactions will create these conditions for inquiry and learning" (Argyris et al. 1985
p.137). Hence to the aims of contributing to the practical improvement of situations and to the goals of developing
knowledge we can add a third aim of action research, to develop the self-help competencies of people facing
problems. Within this broad definition there are four basic themes: (1) collaboration through participation, (2)
acquisition of knowledge, (3) social change, and (4) empowerment of participants. The process that the researcher
uses to guide those involved can be seen as a spiral of action research cycles consisting of phases of planning,
acting, observing and reflecting (Masters 1995). As Oja and Smulyan (1989) point out, the underlying assumption
of this approach, which can be traced back to Lewin's (1948) writing that effective social change depends on the
commitment and understanding of those involved in the change process. In other words, if people work together
on a common problem ‘clarifying and negotiating ideas and concerns,’ they will be more likely to change their
minds if research indicates such change is necessary. Also, it is suggested that collaboration can provide people
with the time and support necessary to make fundamental changes in their practice which extends beyond the
research process (Oja & Smulyan 1989). Thus the role of the action researcher is identical to that proposed for
contemporary facilitators in helping communities identify and adopt more sustainable natural resource
management practices (Pyecha 1988).
Feedback from Participants
The authors have collected initial data from the 27 participants of the recently completed ASC student competition
(specifically the ‘International Design Build’ competition) to determine the usefulness of the collaborative
pedagogical approach. These students were selected from their home institution where The authors asked several
questions to the participants in the form of an online survey. The summary of the responses areis presented below.
The participants were asked to rate the different aspects towards the preparation of the competition in a three
pointthree-point scale (very helpful, neutral, and least helpful). Almost all of the participants (94%) mentioned the
support from the coaches was most helpful followed by support from the industry guest speakers (Figure 1). A
major portion of the learning for the ‘International’ team membersmember’s entails getting accustomed to the
construction and contractual processes of the US construction industry along with their jargons. The authors along
with other coaches invited speakers from the industry to bridge this gap. The participants’ low agreement on the
helpfulness of the other faculty members may be due to preoccupation of the faculty members with other
commitments. The virtual team meetings played an important role in the team building process spanning the
educational and cultural diversity, and laying the foundation for collaboration. This team cohesiveness and
collaboration among the members generated the sense of ‘commonness’ and the urge to work together for
‘clarifying and negotiating’ ideas. It has been the experience of the authors that during the week before the actual
competition when the team members firstmembers first met face-to-face, a lot of unlearning and relearning took
place. By this time the social change could be seen taking grip on the participants in the form of changing their
mind/ understanding or giving away preconceived notions if their joint research demands so. One of the
participants commented:
“The virtual team meetings are important but there is a significant lack of the subtle communication that makes
meetings important. You can handle generic information and technicalities over skype but it is much easier for
misunderstandings or potential issues regarding "closed" matters to go unnoticed.”
Figure 1: Participants agreement with usefulness of different aspects of preparation
Analysis
The feedback from the participants has identified that the learning context is a significant aspect to learning.
Teamwork emerged as a real bonus and to understand the perspective of the other stakeholders was a very
meaningful outcome; the architect learning from the construction manager and vis a versa.
The personal learning experiences speak for themselves and just a few of the personal reflections are shared here:
The entire international design/ build experience I learned that teamwork comes in all forms. Our team did not
meet face to face until 2 days before the competition but we broke the ice very quickly and bonded. For me, the
entire experience proved that drive and determination will overcome any task, as one or as a group
This project was an inspirational experience, full of fascinating people
who exchanged ideas and learned ideas and learned from one another in a rich collaborative process.
The entire competition and preparations were hard work but Educationally rewarding plus a once in a life time
experience. From making friends half way round the world and here at home, getting to travel, getting a glimpse
of how the American’s do construction, and the really enjoyable time we all had working together as a team.
The authors in conjunction with other coaches agree that the ASC competitions demand tremendous amount of
effort and superior level of maturity from the participants. Preparing for these type of competitions areis always
challenging and involves some level of unpredictability. Subsequent to the completion of the competition, when
the participants were asked about their level of preparedness going into the competition, a vast majority (76%)
answered in affirmative. The factors identified by the participants that facilitated in the preparation process
included (but not limited to) the practice sessions with the team, the feedback of the coaches, the online and
physical meetings, and so on. Comment by one of the participants highlighted the social change and empowerment
of the participants, which was the objective of this ongoing action research.
“…. each member had specific strengths and experience in their part of the project. These were identified early in
the process so preparation could be maximized.”
One of the objectives of the action research was to evaluate the usefulness of the collaborative pedagogical
approach. The authors based their conclusions on two measures: the performance of the student teams in the ASC
competitions and the individual perceptions of the participants. While the strong performance of the teams provide
testimony in favor of the collaborative approach, the indirect measure based on the participants’ perceptions were
also equally positive. A few comments shown below will demonstrate the positive change in the participants’
attitude, knowledge, and competencies.
“The team work was definitively the best aspect. As part of the international team, we met new people of different
nationalities and this was extremely interesting.”
“…competitive and very challenging competition that strengthens students for a similar real life situation in the
student future career.”
Lessons Learnt
In terms of offering colleagues in the CM discipline some words of wisdom from the authors reflections, the first
comment would be there is no manual for finding our way through this type of initiative. Despite the previous
experience in this collaborative approach to enhancing the student experience all coaches are very much of the
view that this is the students learning experience and so imposing a pre-prepared structure on the team was not
going to work. With the practical aspects and personal interactions that this kind of team experience requires a
loose structure for the teams to consider and reflect upon is proposed. As might be expected, the process will be
quite alien to any group at the start, so it is important to provide as many resources as possible to the team
members.
Some of the fundamental points to consider would be:
Allow the members of the group to share their knowledge and gain confidence - allow and schedule time
for this as this will require more time than you might expect
Encourage them to schedule meetings outside of the designated times
Do not rely on the online interaction to be the definitive way to communicate
Encourage the team members to challenge assumptions
Ensure that team members, especially those who will have to travel to the competition acquire as much
background knowledge as possible
Embrace the student-led collaborative efforts that lead to team success and look for ways to foster it
Make any expectations clear to the them members
Be comfortable with the fact that this is the students experience and so they may encounter some obstacles.
This kind of truly collaborative approach demands a major time commitment. One cannot assume that the team
members know what it is they are going to say and roll with it as easily. Be prepared to have situations that will
take more time than you might have scheduled for. The time spent will allowed team members to deepen their
understanding of the requirements to be successful, improve interactions with each other, develop a capacity to
embrace differences, and work toward a more collaborative approach to solving the project. This interesting
account of two teachers who truly collaborated as they jointly taught shows how much teachers can learn when
they work together. This endeavor will be time-consuming, but remember it has the potential to provide a
commensurate amount of personal growth and development for all concerned.
While English is the common language, there will be some culturally subtle differences. For example,
construction terminology can be quite different across the globe and experience has shown the authors that it is
only when the students meet face to face that they really get to understand those differences. This holds true for
the measurement systems too, non U.S. students tend to need to up skill themselves on the imperial system as
they are usually conversant with the metric system only. This often provides for a huge learning curve on the part
of the visiting architect and the estimation students in particular.
Discussion and Future Direction
The authors reflected on a number of advantages such a collaborative learning format - social benefits, learning
benefits, and development of skills, knowledge and competences for the students’ future careers. The early stage
virtual meeting was embedded to reduce the social anxiety of students by providing an instant group of peers with
whom they would not feel exposed. Instead they would feel a sense of community through engaging in the
common task of grappling with and understanding the competition structure and the material associated with it.
Secondly, it was hoped that the method would help to promote deeper understanding, especially for the
international students as their knowledge and experience in the US construction processes was very limited. The
upskilling and deep learning around US practice of estimating and health & safety regulations challenged the
international students but what did emerge was the experience of sharing of best practice from both processes.
While the international students certainly had a steeper learning curve the overall emerging theme was one of a
deeply constructive learning experience and one that they participants have indicated would be lasting.
The future directions to consider by both the authors and the construction education community is how such
really meaningful learning experiences get embedded in the educational experiences of the learners we come in.
Some positive starting points include:
• Continued collaborative engagement
• Share what has been developed to date
• Develop a rotational model that allows students to participate abroad
• Encourage other Universities to participate
• Create shared mission of active learning approach
• Create significant learning opportunities for Built Environment students
Students were exposed to different styles of thinking, and different ways of tackling the problems. Having already
thought about the problems, the arguments and comments of the coaches were more meaningful to the students.
Thirdly, the authors thought that interacting in small groups would give students practice in communication and
interpersonal skills useful in their later careers. Construction professionals often operate in formal or informal
small groups, asking questions and advising peers, sometimes accepting and at other times rejecting ideas.
Construction professionals also form their own opinions by synthesizing the contributions of others with their
own previous experience and knowledge. The authors thought that the competition format would provide valuable
practice in these skills.
It is the intention of the authors to build on this research where the research/ analysis of the different cycles will
impact on future work. So, while an action research approach has been taken this project will be ongoing trying
to build on previous experiences with a view to learning and improving. What is offered is a phase of the research
cycle and the reflection and learning will continue as we go forward with each cycle. Changing the model of
pedagogy and the model of knowledge production is crucial at program level for the survival of the university and
the programs they offer.
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