REPORT OF THE ACSA/BIM CONFERENCE
The symposium commenced with a presentation from Ben Wallbank of John Robertson Architects, a practice that now commonly uses BIM in its project work. Ben used case studies from his own practice to give a clear demonstration as to how BIM can provide benefits to project communication and coordination, giving a greater probability that schemes will be completed on time and to budget.
Presentations were also provided by Graphisoft, outlining the potential of their suite of software products (ArchiCAD, Constructor and MaxonForm) for Conceptual and Constructional Modelling. They also demonstrated how simple Sketchup models can be converted into ArchiCAD building information models. John Counsell, from UWE also demonstrated an online resource, funded as part of a CEBE educational development grant, that allows students to access a record of the process of constructing UWE’s new architecture building. Demonstrations were also given on Digital 3D printing, and the integration of 3D models and Google Earth.
The symposium concluded with a series of discussions on the value of BIM in architectural education. Participants felt that BIM provided an opportunity to integrate building technology and design studio teaching in a way that has previously not been possible. Nevertheless, it is possible that BIM can weaken a student’s ability to think and it was suggested that physical models still have some role to play in the development of a design. It was also questioned whether the capabilities of BIM, related to what was commonly expected of students in schools of architecture, for instance students often do not have to generate construction information and documentation. The needs of education and practice differ with the goals of architectural education being to educate and the goals of practice to build buildings.
Discussion was also conducted on how BIM can be best integrated into the teaching in schools. It was felt that there needs to be a plurality in what gets taught; BIM should not be taught in isolation away from the design project. Nevertheless, it was recognised that it is often difficult to persuade some tutors in schools of architecture as to the benefit of BIM. One possible way of achieving this integration was by using BIM to model existing buildings, which may also enhance students’ critical thinking skills.
One of the key features of BIM is its capability to generate 2D orthographic drawings automatically from a 3D Model. Traditionally the conventions of 2D drawing are taught within the curriculum, but with BIM school’s approaches to this may have to change, including teaching how to customise the drawing styles output by BIM Questions were also raised about whether the evaluation of a design in crits be via 3D real time models or through conventional orthographic drawings.
One of the further advantages of using BIM software is its ability to use Industry Foundation Classes to share data between software packages. This enables greater possibilities for collaborative projects, across disciplines. Furthermore this ability to transfer data unleashes possibilities for use of environmental analysis software.
Beyond the realm of education, much of the discussion also focused on how the role of the practicing architect might change as a result of the introduction of BIM. Would smaller practices be able to take on bigger jobs. Could architects invest more time in early stage design, if BIM can allow them to spend less time drafting and completing schedules? To what extent should schools recognise this likely change, and should academia be leading practice towards these new ways of working?
FULL REPORT (including report of breakout sessions) AT:
http://www.nottingham.ac.uk/sbe/general/conf_asca.php
