Web Information Modeling: The Adjunction Space Model
DNIS '02 Proceedings of the Second International Workshop on Databases in Networked Information Systems
An organizational file permission management system using the cellular data system
IDEAS '09 Proceedings of the 2009 International Database Engineering & Applications Symposium
A product control system using the cellular data system
CIMMACS'09 Proceedings of the 8th WSEAS International Conference on Computational intelligence, man-machine systems and cybernetics
An example of a tracking function using the cellular data system
AIKED'10 Proceedings of the 9th WSEAS international conference on Artificial intelligence, knowledge engineering and data bases
A data modeling example of file permission management using the cellular data system
CEA'10 Proceedings of the 4th WSEAS international conference on Computer engineering and applications
WWW business applications based on the cellular model
Journal of Computer Science and Technology
Examples of WWW business application system development using a numerical value identifier
ICCSA'11 Proceedings of the 2011 international conference on Computational science and its applications - Volume Part III
| Hi-index | 0.00 |
Cyberworlds are being formed on the web either intentionally or spontaneously, with or without design. Widespread and intensive local activities are melting each other on the web globally to create cyberworlds. What is called e-business including electronic financing has been conducted in cyberworlds and has crossed a national finance level in its scale. Without proper modeling, cyberworlds will continue to grow chaotic and will soon be out of human understanding. A novel information model we named 驴a cellular model驴 serves to globally integrate local models. As an information model, it is applicable to the category of irregular data models that capture spatio-temporal aspects as situations. Mathematically it is based on cellular spatial structures in a homotopy theoretical framework and is an extension of graph theory.