TY - GEN
T1 - An Integrated Educational Convergence Paradigm for Societal Challenges of the Anthropocene
AU - Little, John C.
AU - Farid, Amro M.
N1 - Publisher Copyright:
© 2025 IEEE.
PY - 2025
Y1 - 2025
N2 - Evolutionary mechanisms enabled humans to profoundly transform Earth systems. Because the resulting Anthropocene systems are highly interdependent and dynamically evolving, often with accelerating rates of cultural and technological evolution, the ensuing family of societal challenges must be framed and addressed in a holistic fashion. An agile, evolutionary, system-of-systems, convergence paradigm, which is based on a partially quantifiable, scientifically falsifiable, formal theoretical framework, can be used to systematically identify, decompose, characterize, and then converge, a nested, evolutionary ensemble of geophysical, biophysical, sociocultural and sociotechnical systems. The paradigm includes a causally coherent conceptual model based on a common language and reconciled ontology, with a hierarchical, extensible and scalable computational framework, an associated decision-support system and an educational pedagogy. The paradigm will require a major transformation in our national and global approach to science and engineering, enabling the creation of a meta-discipline that spans all the disciplines associated with the family of societal challenges of the Anthropocene.
AB - Evolutionary mechanisms enabled humans to profoundly transform Earth systems. Because the resulting Anthropocene systems are highly interdependent and dynamically evolving, often with accelerating rates of cultural and technological evolution, the ensuing family of societal challenges must be framed and addressed in a holistic fashion. An agile, evolutionary, system-of-systems, convergence paradigm, which is based on a partially quantifiable, scientifically falsifiable, formal theoretical framework, can be used to systematically identify, decompose, characterize, and then converge, a nested, evolutionary ensemble of geophysical, biophysical, sociocultural and sociotechnical systems. The paradigm includes a causally coherent conceptual model based on a common language and reconciled ontology, with a hierarchical, extensible and scalable computational framework, an associated decision-support system and an educational pedagogy. The paradigm will require a major transformation in our national and global approach to science and engineering, enabling the creation of a meta-discipline that spans all the disciplines associated with the family of societal challenges of the Anthropocene.
KW - computational framework
KW - decision-support system
KW - educational pedagogy
KW - hetero-functional graph theory
UR - https://www.scopus.com/pages/publications/105017724469
UR - https://www.scopus.com/pages/publications/105017724469#tab=citedBy
U2 - 10.1109/ISEC64801.2025.11147306
DO - 10.1109/ISEC64801.2025.11147306
M3 - Conference contribution
AN - SCOPUS:105017724469
T3 - 2025 15th IEEE Integrated STEM Education Conference, ISEC 2025
BT - 2025 15th IEEE Integrated STEM Education Conference, ISEC 2025
T2 - 15th IEEE Integrated STEM Education Conference, ISEC 2025
Y2 - 15 March 2025
ER -