Internet Resource Modeling And Self-assembly Methods Based On Factor Spaces Theory

In the virtual computing environment, the complexity of resource description increase rapidly due to the diversity of Internet resources. At the same time, the view of resource allocation can only be maintained dynamic stability due to the growing and autonomic characteristics. Therefore, the methods of abstract description and attribute information modeling are proposed for the natural characteristic of Internet resources, and then effectively establishing a uniform processing frame for various Internet resources has important theoretical and practical significance.From mathematic theories and supramolecular chemistry, the research relies on the uniform resources modeling and topology modeling of relationships, and aims at selecting assembly resources for Internet autonomic element dynamically. Finally, Internet resource modeling and self-assembly methods are studied based on factor spaces theory.The contributions of this paper are listed as follows.Based on factor spaces theory, a uniform description frame of Internet resources was established through abstracting resource parameters as factor axes. Variable dimension of factor spaces could realize uniform description of resources. Simultaneously factor spaces supported dynamic resource joining and detaching, which improved the expansibility of networks.The half-edge concept was introduced to describe the attributes of Internet resources directly. Expanding the normal representation of resources relationships, time-varying half-edge graph topology model described the attribute relationships of Internet resources. According to scale-free networks theory, an actual algorithm of time-varying half-edge graph was finally presented. Time-varying half-edge graph demonstrates the dynamic topology of attributed relationships and can be well expanded. The scale-free characteristic of real network may be reappeared.On the foundation of structure and function analysis of autonomic element., based on the dynamic graph of resources relationships, a dynamic selection of assembly resource for Internet autonomic element was presented by making use of the supramolecular self-assembly mechanism. That method satisfies the natural characteristic and dynamic manage of Internet resources hopes to realize autonomous adjustments of the Internet resource loads and improves the utilities of network resources.