These Studies on Security contain only the results of my scientific views, research, analyses and models. In other words, they provide a SUMMARY of my MAJOR contributions to the Science of Security.
STUDY 18. APPLICATIONS OF GAME THEORY IN SECURITY AND CONFLICT SITUATIONS (CONFLICTS)
Different classes of games are analyzed in relation to conflict situations (conflicts) with increased uncertainty, and strategies for behavior in such situations are discussed as an effective mix of elements of both confrontation (prioritizing one's own interests) and cooperation (considering the interests of the other party to an acceptable degree).
Scientific Publications
STUDIES ON SECURITY: STUDY 18. APPLICATIONS OF GAME THEORY IN SECURITY AND CONFLICT SITUATIONS (CONFLICTS)
STUDIES ON SECURITY: STUDY 17. BASIC CHARACTERISTICS OF THE NETWORK AS A KEY CATEGORY IN CONTEMPORARY SCIENCE OF SECURITY
These Studies on Security contain only the results of my scientific views, research, analyses and models. In other words, they provide a SUMMARY of my MAJOR contributions to the Science of Security.
STUDY 17. BASIC CHARACTERISTICS OF THE NETWORK AS A KEY CATEGORY IN CONTEMPORARY SCIENCE OF SECURITY
Systematized are the leading properties of the Network – a fundamental scientific category and an essential phenomenon in complex social systems as we enter a qualitatively new society, which, in addition to being Globalized, Postmodern, Risk, is also Network; namely, the Network Society reflects a systemic-structural dimension of the transformation of our world – its architecture and its networking, the gradual transition from vertical to horizontal organization of systems, structures and institutions.
STUDIES ON SECURITY: STUDY 16. ON THE FOUR DIRECTLY RELATED TO SECURITY TRANSFORMATIONS (TRANSITIONS) IN HUMAN HISTORY
These Studies on Security contain only the results of my scientific views, research, analyses and models. In other words, they provide a SUMMARY of my MAJOR contributions to the Science of Security.
STUDY 16. ON THE FOUR DIRECTLY RELATED TO SECURITY TRANSFORMATIONS (TRANSITIONS) IN HUMAN HISTORY
Systematized are the Four Civilizational Transitions that mankind makes, passing through qualitatively different periods of its development, associated with radical changes in its attitude to Time, in the worldview, individual existence, community consciousness, values, principles and, last but not least, in the concepts of the Security.
STUDIES ON SECURITY: STUDY 15. EFFECTS INHERENT IN THE VAST MAJORITY OF NETWORK (NETWORKED) ORGANIZATIONS (NETWORKS)
These Studies on Security contain only the results of my scientific views, research, analyses and models. In other words, they provide a SUMMARY of my MAJOR contributions to the Science of Security.
STUDY 15. EFFECTS INHERENT IN THE VAST MAJORITY OF NETWORK (NETWORKED) ORGANIZATIONS (NETWORKS)
A systematization is given – including from the Security point of view – of a number of effects (inherent properties) that manifest themselves in most organizations and structures having a network character, i.e. representing one or another type of networks and being the architectural and functional basis of the Network Society that has taken place and is increasingly widespread and increasingly important.
STUDIES ON SECURITY: STUDY 14. TO THE PROBLEM OF DEFINING, ANALYZING AND ASSESSING RISK – PRINCIPAL ADDITIONS
These Studies on Security contain only the results of my scientific views, research, analyses and models. In other words, they provide a SUMMARY of my MAJOR contributions to the Science of Security.
STUDY 14. TO THE PROBLEM OF ANALYZING, DEFINING AND ASSESSING RISK – PRINCIPAL ADDITIONS
The main characteristics of the concept of „risk“ are analyzed. A new formula for risk assessment is proposed, which complements the generally accepted formula according to which risk is equal to the probability of the occurring a given destructive phenomenon multiplied by the consequences if this phenomenon occurs. The supplemented formula includes taking into account the vulnerability of the system and the risk management actions that have been taken by that system. An „Uncertainty Principle“ is also introduced in Riskology, analogous to Heisenberg's famous Uncertainty Principle in Quantum Mechanics. The coefficient with which the generally accepted formula for risk assessment and calculation is supplemented can be considered as an analogue of the Planck Constant in the Uncertainty Principle.
