Self-Awareness in Natural and Artificial Intelligent Systems: a Unified Information-Based Approach

Self-awareness is a subject that intrigued the research community and is an object of extensive experimental research. Multiple studies and experiments probed different aspects, functions and demonstrations of self-awareness in animals and humans. From these results, several intriguing questions arose: is self-awareness a general phenomenon based on some common laws and principles of organization and processing information; or do they emerge sporadically in a mostly random process? Are different manifestations of self-awareness demonstrated in multiple experiments interrelated on some common basis, or unrelated and standalone? In this work, we set out to approach these questions on the basis of the perspective of organization and processing of the information about the sensory environment of an intelligent system, external and internal. We conjecture that a possible basis for understanding the development and evolution of self-awareness can be the theory of complex coordinated intelligent responses that require a coordination of multiple “atomic” actions to achieve the most effective, beneficial outcome for the intelligent system. In this approach, self-awareness can emerge naturally as an information model of the sensory environments that facilitates the production of effective responses via fitness selection. We consider different types and levels of self-awareness demonstrated in studies and experiments and discuss how it can be connected with the organization and functions of the information model of the environment involved in the formation of intelligent decisions. The information approach to self-awareness is used to discuss possible directions of evolution of the information models in the natural and artificial intelligent systems