CumInCAD is a Cumulative Index about publications in Computer Aided Architectural Design
supported by the sibling associations ACADIA, CAADRIA, eCAADe, SIGraDi, ASCAAD and CAAD futures

PDF papers
id caadria2016_693
authors Fernando, Ruwan; Karine Dupre and Henry Skates
year 2016
title Tangible User Interfaces for Teaching Building Physics: Towards continuous designing in education
source Living Systems and Micro-Utopias: Towards Continuous Designing, Proceedings of the 21st International Conference on Computer-Aided Architectural Design Research in Asia (CAADRIA 2016) / Melbourne 30 March–2 April 2016, pp. 693-702
summary This paper follows our evaluation and research into designing tangible physical media for the purposes of teaching building physics to undergraduate architecture students. These media interfaces make use of a virtual environment to promote an understanding of the cycles, which govern architectural and urban projects (for example solar studies, the flow of heat, air and water). This project aims to create an ecology of devices which can be used by students to self-direct themselves and harbour critical making in their research methods (with the explicit intent of dissolving the barrier between design and research). The basic premise of this research, is that in light of growing student numbers, more students lacking confidence in numeracy skills as well as the desire to have self-directed or group-directed learning, tangible media has a promising role to play. There are several reasons for this optimism. The first is that a better sense of intuition is gained from an interactive model over reading notes from a lecture or textbook. The second is that tangible media engages in other modes of learning, being valuable to students who have an aptitude for kinesthetic and spatial learning over text-dominant learning.
keywords Pedagogy; tangible user interfaces; augmented reality; internet of things; designing for teaching
series CAADRIA
full text file.pdf (353,237 bytes)
references Content-type: text/plain
Details Citation Select
100%; open Fishkin, K. P. (2004) Find in CUMINCAD A taxonomy for and analysis of tangible interfaces , Personal Ubiquitous Computing. 8(5), 347–358

100%; open Haque, U. (2007) Find in CUMINCAD The Architectural Relevance of Gordon Pask , Architectural Design, 77(4), 54–61

100%; open Ishii, H. and Ullmer, B. (1997) Find in CUMINCAD Tangible bits: towards seamless interfaces between people, bits, and atoms , Proceedings ot fhe CHI‘97 conference on human factors in computing systems, Atlanta, Georgia, 234–241

100%; open Marshall, P. (2007) Find in CUMINCAD Do tangible interfaces enhance learning? , Proceedings of the 1st international conference on Tangible and embedded interaction. Baton Rouge, Louisiana, ACM, 163–170

100%; open Park, C. C. (2001) Find in CUMINCAD Learning Style Preferences of Armenian, African, Hispanic, Hmong, Korean, Mexican, and Anglo Students in American Secondary Schools , Learning Environments Research, 4(2), 175–191

100%; open Schneider, B. (2011) Find in CUMINCAD Benefits of a Tangible Interface for Collaborative Learning and Interaction , IEEE Trans. Learn. Technol, 4(3), 222–232

100%; open Shaer, O. and Hornecker, E (2010) Find in CUMINCAD Tangible User Interfaces: Past, Present, and Future Directions , Foundations and Trends in Human-Computer Interaction. 3, 1–137

last changed 2016/03/11 09:21
pick and add to favorite papersHOMELOGIN (you are user _anon_497833 from group guest) CUMINCAD Papers Powered by SciX Open Publishing Services 1.002