eCAD System Design - Applications in Architecture

The rapid advances in learning technologies, computer modeling, multimedia and spatial sciences, as well as the availability of many powerful graphics PCs and workstations, make 3-D modeling-based methods for personalized e-learning with eCAD (modeling) functionality feasible. Personalized eCAD learning is a new term in engineering, environment and architecture education, related to the development of learning educational units (3-D learning objects) with re-usable digital architecture functionality, and introduced to literature for the first time within this paper. In particular, for university education courses in eCAD, digital architecture, design computing and CAAD (reagarding spatial information systems, architectures, monuments, cultural heritage sites, etc.), such a e-learning methodolgy must be able to derive spatial, pictorial, geometric, spatial, topological, learning and semantic information from the target object (a 3-D model) or scene (a 3-D landscape environment) or procedure (a 3-D simulation approach to a phenomenon), in such a way that it can be directly used for e-learning purposes regarding the spatial topology, the history, the architecture, the structure and the temporal (time-based) 3-D geometry of the projected object, scene or procedure. This paper is about the system design of such a e-learning method. For this purpose, the requirements, objectives and pedagogical extensions are presented and discussed. Finaly, a practical project is used to demonstrate the functionality and the performance of the proposed methodology in architecture

[1]  Mihaela-Monica Vladoiu,et al.  Towards Building an Open Digital Library for Instructional Design that Facilitates Reflective e-Instruction , 2004, Informatics Educ..

[2]  Maia Engeli,et al.  Spatial objects and intelligent agents in a virtual environment , 1996 .

[3]  Athanasios D. Styliadis,et al.  Digital documentation of historical buildings with 3-d modeling functionality , 2007 .

[4]  Heidrun Schumann,et al.  Tamper-Proof Image Watermarking, Based on Existing Public Key Infrastructure , 2005, Informatica.

[5]  Nikos C. Zestas,et al.  3-D Computer Modeling with Intra-Component, Geometric, Quality and Topological Constraints , 2003, Informatica.

[6]  Marcelo Gattass,et al.  Insertion of Three-Dimensional Objects in Architectural Photos , 2002, WSCG.

[7]  Ivan K. Petrovic,et al.  Computer design agents and creative interfaces , 1996 .

[8]  David B. Martin,et al.  Patterns of cooperative interaction: Linking ethnomethodology and design , 2004, TCHI.

[9]  F. A. Heuvel Automation in Architectural Photogrammetry: Line-Photogrammetry for the Reconstruction from Single and Multiple Images , 2003 .

[10]  Nikolaos Grammalidis,et al.  Remote Experiment Laboratories Using Virtual Reality Technologies: the Vrlab Project A. Tsakiris Et Al. -remote Experiment Laboratories Using Virtual Reality Technologies: the Vrlab Project , 2005 .

[11]  Jitendra Malik,et al.  Modeling and Rendering Architecture from Photographs: A hybrid geometry- and image-based approach , 1996, SIGGRAPH.

[12]  Yehuda E. Kalay,et al.  The impact of information technology on design methods, products and practices , 2006 .

[13]  Margarida Amaral,et al.  CAAD and e-Learning: a Blended Approach , 2008 .

[14]  Henrik G. A. Haggren,et al.  3D indoor modeling from videography , 1997, Optics & Photonics.

[15]  M. F.,et al.  Bibliography , 1985, Experimental Gerontology.

[16]  Michael Vassilakopoulos,et al.  A spatio-temporal geometry-based model for digital documentation of historical living systems , 2005, Inf. Manag..

[17]  Athanasios D. Styliadis,et al.  Personalized e-Learning Implementation - The GIS Case , 2006, Int. J. Comput. Commun. Control.

[18]  Allen Y. Yang,et al.  Symmetry-based 3-D reconstruction from perspective images , 2005, Comput. Vis. Image Underst..

[19]  Wolfgang Weber SelMa - Self-guided Learning in Teaching Mathematics , 2004, Informatics Educ..

[20]  Pythagoras Karampiperis,et al.  Adaptive Learning Object Selection in Intelligent Learning Systems , 2004 .

[21]  Urs Hirschberg,et al.  CAAD Meets Digital Photogrammetry: Modeling "Weak Forms" for Computer Measurement , 1996, Proceedings of the 15th Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA).

[22]  Andre Streilein UTILIZATION OF CAD MODELS FOR THE OBJECT ORIENTED MEASUREMENT OF INDUSTRIAL AND ARCHITECTURAL OBJECTS , 1996 .