How Information Creates its Observer
The Emergence of the Information Observer with Regularities


Vladimir S. Lerner
Marina Del Rey, CA, USA

Series: Computer Science, Technology and Applications
BISAC: COM031000

Observers are everywhere, from communicating people, animals, and different species, to any interacting subjects that accept, transform, and exchange information.

Up to now, common information regularities, emergence, differentiation, and appearance have not been studied through a united approach.

This book presents a new approach for understanding the notion of information and its Observers, showing how information creates Observers and generates regularities during observation.

The approach is developed from Wheeler’s concept in physics, “It from Bit,” which has been modified in this text to “Observer-Participator Bit.”

Studying information comes from probabilistic observations, emerging space-time microprocess, entanglement, qubit, encoding bits, and evolving macroprocess, leading to the creation of the Observer, as well as a geometric information structure.

The regularities observed self-organize into information processes that encode information causality, logic, and complexity, and determine the observer’s cognition, evolving toward intelligence.

The regularities create a double spiral rotating coding structure, which observation self-generates.

For the first time, this book establishes the observer’s united information mechanism, with self-operating integral logic, transforming an observed uncertainty into physical reality.

The book also includes information formalism, which has been applied to solutions for a wide range of computer science and engineering problems implemented in practice.
(Imprint: Nova)



Table of Contents



Chapter 1. The Initial Points, Results, and Principles of the Approach

Chapter 2. The Emerging Space-Time Observer: Constrains and Microprocesses

Chapter 3. The Evaluations Probabilities, Constrains, and Limitations on the Observations

Chapter 4. Information Dynamic Processes Determined by the Extreme of EF and IPF Functionals

Chapter 5. The Arising Observer. Collective Information

Chapter 6. The Emerging Self-Organization of the Observer Multi-level Information Dynamics

Chapter 7. The Observer Emerging Self-Encoding, Cooperative Complexity, Information Mass, Space Curvature, and Self-Replication

Chapter 8. Observer Cognition and Intelligence

Chapter 9. Summary of the Arising Information Regularities in an Observer

Chapter 10. Areas of Application



About the Author

Additional Information

Keywords: impulse probabilistic observation, cutting correlation, curving interactions, minimax Information law, wave function, micro-macro processes, integral Information measure, causal logic, time arrow, encoding, triplet code, variation equations, cooperative Information dynamics, hierarchical networks, objective and subjective observers, self-forming cognition and intellect, AI observer, applications

Audience: Potential users in areas: Information Sciences, Information Physics, Artificial Intelligence, Control, Mathematical Modeling, Complex Systems, Computer and Electrical Engineering
Potential readers: Academic Professional , University Students, Scholars, General Public interested in Artificial Intelligence, Information we observe, Science Foundation, Origin of World

Additional information