Abstract:The global future lies before us as a highly uncertain and contested landscape with numerous perils along the way. This study explores possible pathways to sustainability by considering in quantitative detail four contrasting scenarios for the twenty-first century. The analysis reveals vividly the risks of conventional development approaches and the real danger of socio-ecological descent. Nonetheless, the paper underscores that a Great Transition scenario-turning toward a civilization of enhanced human well-being and environmental resilience-remains an option, and identifies a suite of strategic and value changes for getting there. A fundamental shift in the development paradigm is found to be an urgent necessity for assuring a sustainable future and, as well, a hopeful opportunity for creating a world of enriched lives, human amity, and a healthy ecosphere.
M Ma as ss sa ac ch hu us se et tt ts s I In ns st ti it tu ut te e o of f T Te ec ch hn no ol lo og gy y E En ng gi in ne ee er ri in ng g S Sy ys st te em ms s D Di iv vi is si io on n Abstract-The potential loss of state stability in various parts of the world is a source of threat to U.S. national security. Every case is unique, but there are common processes. Accordingly, we develop a system dynamics model of state stability by representing the nature and dynamics of 'loads' generated by insurgency activities, on the one hand, and by articulating the core features of state resilience and its 'capacity' to withstand these 'loads', on the other. The problem is to determine and 'predict' when threats to stability override the resilience of the state and, more important, to anticipate propensities for 'tipping points', namely conditions under which small changes in anti-regime activity can generate major disruptions. On this basis, we then identify appropriate actionable mitigation factors to decrease the likelihood of 'tipping' and enhance prospects for stability.
M Ma as ss sa ac ch hu us se et tt ts s I In ns st ti it tu ut te e o of f T Te ec ch hn no ol lo og gy y E En ng gi in ne ee er ri in ng g S Sy ys st te em ms s D Di iv vi is si io on n Abstract-The potential loss of state stability in various parts of the world is a source of threat to U.S. national security. Every case is unique, but there are common processes. Accordingly, we develop a system dynamics model of state stability by representing the nature and dynamics of 'loads' generated by insurgency activities, on the one hand, and by articulating the core features of state resilience and its 'capacity' to withstand these 'loads', on the other. The problem is to determine and 'predict' when threats to stability override the resilience of the state and, more important, to anticipate propensities for 'tipping points', namely conditions under which small changes in anti-regime activity can generate major disruptions. On this basis, we then identify appropriate actionable mitigation factors to decrease the likelihood of 'tipping' and enhance prospects for stability.
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