We present a new approach to the teaching of top-down design of VHDL using a novel virtual interactive teaching environment. This environment enables students to learn more effectively using virtual multimedia content, while exploiting XML, and augmented reality. This environment can be adapted for teaching of other subject areas.
SjoholmStefan and LindhLennart, VHDL for Designers (Prentice Hall, Englewood Cliffs, 1997).
3.
VallinoJ., ‘Interactive augmented reality’, PhD Thesis, Department of Computer Science, University of Rochester, New York, 1998, pp. 1–25.
4.
AzumaR., ‘A survey of augmented reality’, Teleoperators and Virtual Environments, 6(4) (1997), 355–385.
5.
BarrilleauxJ., Experiences and Observations in Applying Augmented Reality to Live Training (Peculiar Technologies, Oakland, CA), http://www.augsim.com/vwsim99/vwsim99.html.
6.
RosenblumLawrence J., ‘Mission visualisation for planning and training’, IEEE Computer Graphics and Applications, 15(5) (1995).
7.
JayE.WhiteM. and ListerP. F., ‘The Virtual Design Educator: Realistic or optimistic? An approach to teaching design virtually’, in Proc. 7th National Conf. on Product Design Education, University of Sussex, Brighton, UK, 6–7 September 2000.
8.
KavassisA.WattenP.ListerP. and WhiteM., ‘Virtual prototyping of electronics systems’, University of Sussex, http://www.eeug.org.uk/sep00/abstract.htm#vprot, EEUG Workshop, Sheffield University, September 2000.
Augmented Representation of Cultural Objects (ARCO), A Framework V Information Societies Technology Proposal to the European Union (University of Sussex, Brighton, 2000).
12.
ChangBenScardinaMark, Oracle XML Handbook (Osborne McGraw-Hill, Maidenhead).
13.
RoussosM.JohnsonA.LeighJ.VasilakisC.BarnesC. and MoherT., ‘NICE: Combining constructionism, narrative and collaboration in a virtual learning environment’, Computer Graphics, 31(3) (1997), 62–63.
