References
Abraham, R. (1982).Dynamics: The Geometry of Behavior (Four Volumes). Santa Cruz, CA: Aerial Press
Allman, W. F. (1989). Apprentices of Wonder: Inside the Neural Network Revolution. NY: Bantam Books.
Anderson, P. (1972). More is different: Broken symmetry and the nature of the hierarchical structure of science. Science, 177 (4047), 393-396.
Anderson, Ruth A.; Issel, L. Michele; McDaniel , Reuben R. Jr. (2003). Nursing Homes as Complex Adaptive Systems: Relationship Between Management Practice and Resident Outcomes. Nursing Research. 52(1):12-21.
Axelrod, R. (1984). The Evolution of Cooperation. New York, NY: Basic Books.
Axelrod, R. & Cohen, M. (2000). Harnessing Complexity: Organizational Implications of a Scientific Frontier. NY: Basic Books.
Bak, P. (1996). How Nature Works: The Science of Self-organized Criticality. NY: Springer-Verlag
Barabási, A. L. (2002). Linked: The New Science of Networks. Cambridge, MA: Perseus.
Campbell, J. (1982). Grammatical Man: Information Theory, Entropy, Languages, and Life. NY: Simon and Shuster.
Carroll, S. (2005). Endless Forms Most Beautiful: The New Science of Evo Devo. NY: W. W. Norton & Co.
Chandler, J. & Van de Vijver, G. (2000). Closure: Emergent Organizations and their Dynamics. NY: The New York Academy of Sciences.
Darling, D. (2005). Teleportation: The Impossible Leap. Hoboken, NJ: John Wiley and Sons.
De Duve, C. (2005). Singularities: Landmarks on the Pathways of Life. NY: Cambridge University Press.
Dyson, G. (1998). Darwin among the Machines: The Evolution of Global Intelligence. NY: Basic Books.
Emergence: Complexity and Organization. (2004 to present: quarterly journal—available also as yearly volumes, edited by K. Richardson, et.al.)
Eoyang & Olson (2001). Facilitating Organizational Change: Lessons from Complexity Science. San Francisco, CA: Jossey-Bass/Pfeiffer.
Epstein, J. (2007). Generative Social Science: Studies in Agent-Based Computational Modeling (Princeton Studies in Complexity): Princeton, NJ: Princeton University Press.
Field, M. & Golubitsky, M. (1996). Symmetry in Chaos: A Search for Pattern in Mathematics, Art, and Nature. NY: Oxford University Press.
Goldberger, A. (1996). Nonlinear dynamics for clinicians: chaos theory, fractals and complexity at the bedside, The Lancet 347, 1312-1314.
Goldstein, J. (1994). The Unshackled Organization. Portland, Oregon: Productivity Press.
Goldstein, J. (1999). Emergence as a Construct: History and Issues, Emergence, 1(1): 49-62.
Goldstein, J. (2006). Emergence, Creative Process, and Self-transcending Constructions,” In K. Richardson (Ed.), Managing Organizational Complexity: Philosophy, Theory, and Application, pp. 63-78. Greenwich, CT: Information Age Press.
Goldstein, J. (2007). A New Model for Emergence and its Leadership Implications, J. Hazy, J. Goldstein, B. Lichtenstein (Eds.), Complex Systems Leadership Theory: New Perspectives from Complexity Science on Social and Organizational Effectiveness, pp. 62-93. Mansfield, MA: ISCE Publishing.
Guastello, S. (1995). Chaos, Catastrophe, and Human Affairs: Applications of Nonlinear Dynamics To Work, Organizations, and Social Evolution. Mahwah, NJ: Lawrence Erlbaum Associates.
Guastello, S. (2001). Managing Emergent Phenomena: Nonlinear Dynamics in Work Organizations. Mahwah, NJ: Lawrence Erlbaum Associates.
Griffeath, D. & Moore, C. (2003). New Constructions in Cellular Automata. (Santa Fe Institute Studies in the Sciences of Complexity. NY: Oxford University Press.
Haken, H. (1981). The Science of Structure: Synergetics. NY: Van Nostrand Reinhold.
Hazy, J., Goldstein, J., & Lichtenstein, B. (2007). Complex Systems Leadership Theory: New Perspectives from Complexity Science on Social and Organizational Effectiveness. Mansfield, MA: ISCE Publishing.
Holland, John. (1994). Hidden order: How adaptation builds complexity. Reading, MA: Addison-Wesley.
Holland, J. (1998). Emergence: From Chaos to Order. Reading, MA: Addison-Wesley.
Kauffman, S. (1993), The Origins of Order: Self-organization and Selection in Evolution. NY: Oxford University Press.
Kauffman, S. (1995), At Home in the Universe: The Search for Laws of Self-organization and Complexity. NY: Oxford University Press.
Kelly K. (1995). Out of Control: The New Biology of Machines, Social Systems, and the Economic World, 528 pp. Reading, MA, USA: Addison Wesley Longman.
Kilduff, M. & Tsai, W. (2003). Social Networks and Organizations. Thousand Oaks, CA: Sage.
Langton, C.G. 1986. Studying Artificial Life with Cellular Automata, In D. Farmer, A Lapedes, N. Packard, and B. Wendroff (Eds.) Evolution, Games, and Learning: Models for Adaptation in Machines and Nature, Proceedings of the Fifth Annual Conference of the Center for Nonlinear Studies, Los Alamos, NM, May 20-24, pp. 120-149. 1985. Amsterdam: North- Holland.
Laughlin, R. (2006) A Different Universe: Reinventing Physics from the Bottom Down. NY: Basic Books.
Luhmann, N., Bednarz, J., & Baecker, D. (1996). Social Systems. Palo Alto, CA: Stanford University Press.
Mandelbrot, B.B. (1977). Fractals, Form, Chance and Dimension, W.H. Freeman and Co., San Francisco.
Mandelbrot, B.B. (1982). The Fractal Geometry of Nature, W.H. Freeman and Co., San Francisco.
Margulis, L., & Sagan, D. (2002). Acquiring Genomes: A Theory of the Origins of Species. NY: Basic Books.
Maturana, H. and Varela, F.(1980). Autopoeisis and Cognition. Boston: D. Reidel.
Mead, G. H. (2002). The Philosophy of the Present. Prometheus Books.
Morgan, G. (1997). Images of Organization. Thousand Oaks, CA: Sage.
Newman, M., Barabasi, A., Watts, D. (Eds.). (2006). The Structure and Dynamics of Networks. Princeton, NJ: Princeton University Press.
Nicolis, G. (1989). Physics of Far-from-equilibrium Systems, In P. Davies (Ed.) The New Physics. Cambridge, England: Cambridge University Press.
Nicolis, G. and Prigogine, I. (1989). Exploring complexity: An introduction. NY: W. H. Freeman and Company.
Ott, E. (2003). Chaos in Dynamical Systems. NY: Cambridge University Press.
Ott, E., Sauer, T., Yorke, J. (1994). Coping with Chaos: Analysis of Chaotic Data and The Exploitation of Chaotic Systems. Somerset, NJ: Wiley-Interscience.
Page, S. (2007). The Difference: How the Power of Diversity Creates Better Groups, Firms, Schools, and Societies. Princeton, NJ: Princeton University Press.
Poundstone, W. (1985). The Recursive Universe: Cosmic Complexity and the Limits of Scientific Knowledge. Chicago: Contemporary Books.
Reid, R. G. B. (2007). Biological Emergences: Evolution by Natural Experiment. Cambridge, MA: MIT Press.
Richardson, K. & Goldstein, J. (Eds.). (2007). Classic Complexity: From the Abstract to the Concrete (Exploring Complexity, Volume 2). Mansfield, MA: ISCE Publishing.
Rogers, E. (2003). Diffusion of Innovation (5th Edition). NY: Free Press.
Scott, A., (Ed). (2005). Encyclopedia of Nonlinear Science. NY: Routledge.
Schroeder, M. (1991). Fractals, Chaos, Power Laws: Minutes from an Infinite Paradise. NY: W. H. Freeman & Co.
Sole, R. & Goodwin, B. (2000). Signs of Life: How Complexity Pervades Biology. NY: Basic Books.
Stacey, R. (2001). Complex Responsive Processes in Organizations: Learning and Knowledge Creation (Complexity and Emergence in Organizations). London, UK: Routledge.
Stacey, R. (2007). Strategic Management and Organisational Dynamics: The Challenge of Complexity to Ways of Thinking About Organisations, 5th Ed., London: Pearson Education.
Sternin, J. & Choo, R. (2000). The Power of Positive Deviance. Harvard Business Review. January – February 2000, 14, 15. (available at http://www.positivedeviance.org/)
Sternin, J. (2003). Positive Deviance for Extraordinary Social and Organizational Change. In D. Ulrich, M. Goldsmith, L. Carter, J. Bolt, N. Smallwood (Eds.). The Change Champion’s Fieldguide. 20-37. NY: Best Practice Publications LLC.
Strogatz, S. (2003). Sync: The Emerging Science of Spontaneous Order. NY: Hyperion.
Trudeau, R. (1993). Introduction to Graph Theory. NY: Dover Publications.
Van de Ven, A. & Garud, R. (1994). The Coevolution of Technical and Institutional Events in the Development of an Innovation. In J. Baum & J. Singh (Eds.), Evolutionary Dynamics of Organizations. pp. 425-443. NY: Oxford University Press.
Watts, D. (1999). Small Worlds: The Dynamics of Networks between Order and Randomness. Princeton, NJ: Princeton University Press.
Weber, D., & Depew, B. W. (1994). Darwinism Evolving: System Dynamics and the Genealogy of Natural Selection. Cambridge, MA: MIT Press.
West, B. J. (1990). Fractal Physiology and Chaos in Medicine (Studies of Nonlinear Phenomena in Life Science, Vol.1), Singapore: World Scientific.
West, B. J., (2006). Where Medicine Went Wrong; Rediscovering the Path to Complexity, Singapore: World Scientific.
Zimmerman, B., Lindberg, C., Plsek, P. (2001). Edgeware: Insights from Complexity Science for Health Care Leaders. VHA.
Bibliographical References to Glossary
(not included elsewhere)
- Bak, P. (1996). How Nature Works: The Science of Self-organized Criticality. NY: Springer-Verlag
- Bennett, C. (1982). The Thermodynamics of Computation: A Review. International Journal of Theoretical Physics, 21: 905-940.
- Campbell, J. (1982). Grammatical Man: Information Theory, Entropy, Languages, and Life. NY: Simon and Shuster.
- Chaitin, G. (1987). Algorithmic Information Theory. NY: Cambridge University Press.;
- Haken, H. (1981). The Science of Structure: Synergetics. NY: Van Nostrand Reinhold.
- Langton, C.G. 1986. Studying Artificial Life with Cellular Automata, In D. Farmer, A Lapedes, N. Packard, and B. Wendroff (Eds.) Evolution, Games, and Learning: Models for Adaptation in Machines and Nature, Proceedings of the Fifth Annual Conference of the Center for Nonlinear Studies, Los Alamos, NM, May 20-24, pp. 120-149. 1985. Amsterdam: North- Holland. Maturana, H. & Varela, F. (1992). The Tree of Knowledge. Boston: Shambhala
- Penrose, R. (1989). The Emperor’s New Mind. NY: Oxford University Press.
- Poundstone, W. (1985). The Recursive Universe: Cosmic Complexity and the Limits of Scientific Knowledge. Chicago: Contemporary Books.
- Senge, P. (1990). The Fifth Discipline. NY: Doubleday.
- Van de Ven, A. & Garud, R. (1994). The Coevolution of Technical and Institutional Events in the Development of an Innovation. In J. Baum & J. Singh (Eds.) Evolutionary Dynamics of Organizations. pp. 425-443. NY: Oxford University Press.