Modelling self-protected networks and dynamic systems

With the increasingly security problems in networks and systems, the evolution of development models that underlie current tools and techniques is all that is required to produce a model of self-defense where all the components are self-protected. The great extension of current models recommends a reasonable transition fundamentally based on the family of standards ISO/IEC 31000, where the selection of the appropriate risk assessment techniques revolves around the complexity X of the system or process structure and the uncertainty Y of the environment. The consistency and sufficiency of both factors X Y, demonstrated using the Information Theory, can explain the risk of a dynamic system. However, going deep into their meaning, the Theory of Calculability should ensure its validity in the design of self-protected networks and dynamic systems. This design needs to be chained to the implementation of networks and self-protected components, using a new type of algorithmic languages. The authors propose the outline of such a development model expected to focus and better address the lack of current security.