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Home
Research
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Explaining the Natural World
Characterizing Modern Scientific Progress
Philosophical Origins & Historical Overview of Science
Themes + News
Working Papers
Miscellaneous Keywords
Systems Sciences
Systems in Science
Systems Sciences & Complex Systems
Nonlinear Systems
Dynamic Systems
Chaotic Systems
Control Systems
Medical & Clinical Systems
Complex Systems
Complexity and Complex Systems
Applied Complex Systems
Complexity
Theoretical Complexity
Applied Complexity
Publications
Book Series
Events+Programs
Conferences
Interactive Events
Workshops & Special Sessions
Symposiums
Training Endeavors
Education Programs
Online Courses
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About Us
Engage in and work with SSNID
Systems Sciences and Nonlinear Intelligence Dynamics
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Themes + News
How can theory of complexity provide benefits across diverse complex systems on which our lives’ quality depends?
How can theory of evidence be evaluated with the empirical defense of scientific realism contingent upon probability?
How can the relationship between complexity thinking and applicability be reconsidered along with evolution and adaptation?
“Doubt is the key to knowledge.”, so how do the science’s philosophical origins serve progresses in modern era?
How does scientific thinking reveal itself through different epistemological perspectives which shape scientific thinking and validate scientific knowledge?
How does self-organization contribute to the behaviors and patterns of complex systems?
Considering complex problems’ characteristics (i.e. nonlinearity, causality, transiency), what is the position of applied complexity from this lens?
In what ways has AI manifested evolutionary processes across its three historical booms?
How do feedback loops impact complex systems?
How does systemic mode of thinking toward a unified science framework serve dynamical systems’ understanding and related advances?
What are the key characteristics of resilience in complex systems?
What are the systems sciences’ foundational tenets? How do they relate to social and behavioral sciences’ mathematical means?
How are coping and chaos interconnected in natural world? What roles do organization and mission of taxonomy play?
What kind of interplay and scopes are at stake regarding the capabilities of predictability, estimation, interpretation?
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