Spatial Behavioral Model-Based Dynamic Data-Driven Diagram Information Model
Diagram and drawing are important ways to
communicate and the reproduce of architectural design, Due to the
development of information and communication technology, the
professional thinking of architecture and interior design are also
change rapidly. In development process of design, diagram always
play very important role. This study is based on diagram theories,
observe and record interaction between man and objects, objects and
space, and space and time in a modern nuclear family. Construct a
method for diagram to systematically and visualized describe the
space plan of a modern nuclear family toward an intelligent design, to
assist designer to retrieve information and review event pattern of past
and present.
[1] Corbusier, L. (1985). Towards a New Architecture. Dover Publications
[2] Allen, J.F. (1983). Maintaining knowledge about temporal intervals.
Communications of the ACM 26(11):832-843.
[3] Allen, J.F. (1984). Towards A General Theory of Action and Time.
Artificial Intelligence 23(2):123-154.
[4] Allen, J.F. and Hayes, P.J. (1989). Moments and Points in an
Interval-Based Temporal Logic. Computational Intelligence
5(3):225-238.
[5] Allen, J.F. (1991). Time and time again: The many ways to represent time
Int'l. Jr. of Intelligent Systems 6(4): 341-356.
[6] Allen, J.F. & Ferguson, G. (1994). Actions and Events in Interval
Temporal Logic, Journal of Logic and Computation 4 (5): 531-579.
[7] Allen, S. (2000). Notations + Diagrams: Mapping the Intangible, in S.
Allen and D. Agrest, eds., Practice: Architecture, Technique and
Representation, pp.41-61.
[8] Bostock, M., Ogievetsky, V., & Heer, J. (2011). D3: Data-Driven
Documents, IEEE Transactions on Visualization and Computer Graphics
17(12):2301-2309.
[9] Dewar, M., Steele, J., & Blanchette, M., eds. (2012). Getting Started with
D3: Creating Data-Driven Documents (1st ed.), Sebastopol, California:
O’Reilly Media.
[10] Fry, B. (2007). Visualizing Data: Exploring and Explaining Data with the
Processing Environment (1st ed.), O'Reilly Media.
[11] Giddens, A. (1986). Sociology: A brief but critical introduction (2nd ed).
London: Macmillan.
[12] Jones, J.C. (1992). Design Methods. David Fulton Publisher.
[13] Korkea-aho, M. (2000). Context-Aware Applications Survey,
Department of Computer Science Helsinki University of Technology,
available from:
http://www.cse.tkk.fi/fi/opinnot/T-110.5190/2000/applications/context-a
ware.html [14] Murdock, G. P. (1970). Kin Term Patterns and their Distribution.
Ethnology 9 (2): 165–207.
[15] Murdock, G. P. (1980). Theories of Illness: A World Survey. Pittsburgh:
The University of Pittsburgh Press.
[16] Murdock, G. P. (1981). Atlas of World Cultures. Pittsburgh: The
University of Pittsburgh Press.
[17] Murdock, G. P. & White, D. R. (1969). Standard Cross-Cultural Sample.
Ethnology 8 (4): 329–69.
[18] Murray, S. (2013). Interactive Data Visualization for the Web: An
Introduction to Designing with D3 (1st ed.), Sebastopol, California:
O’Reilly Media.
[19] MVRDV. (1999a). Farmax: Excursions on Density. Netherland: Winy
Mass, 010 Publishers.
[20] MVRDV. (1999b). Metacity / Datatown. Netherland: Winy Mass,010
Publishers.
[21] Reas, C. & Fry, B. (2010). Getting Started with Processing (1st ed.),
Make.
[22] Ritchie, S. K. (2014). Visual Storytelling with D3: An Introduction to
Data Visualization in JavaScript (1st ed.), Addison-Wesley Professional.
[23] Schilit, B., Adams, N., & Want, R. (1994). Context-Aware Computing
Applications, In Proceedings of IEEE Workshop on Mobile Computing
Systems and Applications, pp. 85-90.
[24] Schmidt, A., & Aidoo, K.A. (1999). Advanced Interaction in Context. In
Proceedings of the 1th International Symposium on Handheld and
Ubiquitous Computing (HUC99), Springer LNCS, pp.89-101.
[25] Schmidt, A. (2000). Implicit human computer interaction through
context, In: Personal and Ubiquitous Computing 4 (2):191-199.
[26] Schumacher, P. (2010). The Autopoiesis of Architecture: v. 1: A New
Framework for Architecture: A Conceptual Framework for Architecture,
John Wiley and Sons Ltd.
[27] Schumacher, P. (2012). The Autopoiesis of Architecture: v. 2: A New
Agenda for Architecture, John Wiley and Sons Ltd.
[28] Spuybroek, L. (2010). NOX Diagrams. in M. Garcia ed., The Diagrams of
Architecture, pp.270-281.
[29] Terzidis, K. (2006). Algorithmic Architecture. MA: Architectural Press.
[30] Timms, S. (2013). Social Data Visualization with HTML5 and JavaScript
(1st ed.), Birmingham: Packt Publishing.
[31] Tufte, E. R. (1992). Envisioning Information. Cheshire, CT, USA:
Graphics Press.
[32] UN Studio. (1999).Move, Netherland: Goose Press.
[33] Yau, N. (2011). Visualize This: The Flowing Data Guide to Design,
Visualization, and Statistics (1st ed.), Wiley Press.
[1] Corbusier, L. (1985). Towards a New Architecture. Dover Publications
[2] Allen, J.F. (1983). Maintaining knowledge about temporal intervals.
Communications of the ACM 26(11):832-843.
[3] Allen, J.F. (1984). Towards A General Theory of Action and Time.
Artificial Intelligence 23(2):123-154.
[4] Allen, J.F. and Hayes, P.J. (1989). Moments and Points in an
Interval-Based Temporal Logic. Computational Intelligence
5(3):225-238.
[5] Allen, J.F. (1991). Time and time again: The many ways to represent time
Int'l. Jr. of Intelligent Systems 6(4): 341-356.
[6] Allen, J.F. & Ferguson, G. (1994). Actions and Events in Interval
Temporal Logic, Journal of Logic and Computation 4 (5): 531-579.
[7] Allen, S. (2000). Notations + Diagrams: Mapping the Intangible, in S.
Allen and D. Agrest, eds., Practice: Architecture, Technique and
Representation, pp.41-61.
[8] Bostock, M., Ogievetsky, V., & Heer, J. (2011). D3: Data-Driven
Documents, IEEE Transactions on Visualization and Computer Graphics
17(12):2301-2309.
[9] Dewar, M., Steele, J., & Blanchette, M., eds. (2012). Getting Started with
D3: Creating Data-Driven Documents (1st ed.), Sebastopol, California:
O’Reilly Media.
[10] Fry, B. (2007). Visualizing Data: Exploring and Explaining Data with the
Processing Environment (1st ed.), O'Reilly Media.
[11] Giddens, A. (1986). Sociology: A brief but critical introduction (2nd ed).
London: Macmillan.
[12] Jones, J.C. (1992). Design Methods. David Fulton Publisher.
[13] Korkea-aho, M. (2000). Context-Aware Applications Survey,
Department of Computer Science Helsinki University of Technology,
available from:
http://www.cse.tkk.fi/fi/opinnot/T-110.5190/2000/applications/context-a
ware.html [14] Murdock, G. P. (1970). Kin Term Patterns and their Distribution.
Ethnology 9 (2): 165–207.
[15] Murdock, G. P. (1980). Theories of Illness: A World Survey. Pittsburgh:
The University of Pittsburgh Press.
[16] Murdock, G. P. (1981). Atlas of World Cultures. Pittsburgh: The
University of Pittsburgh Press.
[17] Murdock, G. P. & White, D. R. (1969). Standard Cross-Cultural Sample.
Ethnology 8 (4): 329–69.
[18] Murray, S. (2013). Interactive Data Visualization for the Web: An
Introduction to Designing with D3 (1st ed.), Sebastopol, California:
O’Reilly Media.
[19] MVRDV. (1999a). Farmax: Excursions on Density. Netherland: Winy
Mass, 010 Publishers.
[20] MVRDV. (1999b). Metacity / Datatown. Netherland: Winy Mass,010
Publishers.
[21] Reas, C. & Fry, B. (2010). Getting Started with Processing (1st ed.),
Make.
[22] Ritchie, S. K. (2014). Visual Storytelling with D3: An Introduction to
Data Visualization in JavaScript (1st ed.), Addison-Wesley Professional.
[23] Schilit, B., Adams, N., & Want, R. (1994). Context-Aware Computing
Applications, In Proceedings of IEEE Workshop on Mobile Computing
Systems and Applications, pp. 85-90.
[24] Schmidt, A., & Aidoo, K.A. (1999). Advanced Interaction in Context. In
Proceedings of the 1th International Symposium on Handheld and
Ubiquitous Computing (HUC99), Springer LNCS, pp.89-101.
[25] Schmidt, A. (2000). Implicit human computer interaction through
context, In: Personal and Ubiquitous Computing 4 (2):191-199.
[26] Schumacher, P. (2010). The Autopoiesis of Architecture: v. 1: A New
Framework for Architecture: A Conceptual Framework for Architecture,
John Wiley and Sons Ltd.
[27] Schumacher, P. (2012). The Autopoiesis of Architecture: v. 2: A New
Agenda for Architecture, John Wiley and Sons Ltd.
[28] Spuybroek, L. (2010). NOX Diagrams. in M. Garcia ed., The Diagrams of
Architecture, pp.270-281.
[29] Terzidis, K. (2006). Algorithmic Architecture. MA: Architectural Press.
[30] Timms, S. (2013). Social Data Visualization with HTML5 and JavaScript
(1st ed.), Birmingham: Packt Publishing.
[31] Tufte, E. R. (1992). Envisioning Information. Cheshire, CT, USA:
Graphics Press.
[32] UN Studio. (1999).Move, Netherland: Goose Press.
[33] Yau, N. (2011). Visualize This: The Flowing Data Guide to Design,
Visualization, and Statistics (1st ed.), Wiley Press.
@article{"International Journal of Information, Control and Computer Sciences:70030", author = "Chiung-Hui Chen", title = "Spatial Behavioral Model-Based Dynamic Data-Driven Diagram Information Model", abstract = "Diagram and drawing are important ways to
communicate and the reproduce of architectural design, Due to the
development of information and communication technology, the
professional thinking of architecture and interior design are also
change rapidly. In development process of design, diagram always
play very important role. This study is based on diagram theories,
observe and record interaction between man and objects, objects and
space, and space and time in a modern nuclear family. Construct a
method for diagram to systematically and visualized describe the
space plan of a modern nuclear family toward an intelligent design, to
assist designer to retrieve information and review event pattern of past
and present.", keywords = "Digital diagram, information model, context aware,
data analysis.", volume = "9", number = "7", pages = "1653-7", }
