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    Journal: Complexity

    Volume 1, Issue 6

    7 -- 8Harold J. Morowitz. Charting the future of medical modeling
    9 -- 12Daniel C. Dennett. A tale of cognitive pursuit
    13 -- 28Jeffrey Johnson, Phil D. Picton. An introduction to the new computational paradigm
    29 -- 35Howard Gutowitz. Cellular automata and the sciences of complexity (part II)
    36 -- 37Tom Kepler. In the eye of the beholder
    37 -- 38Harold J. Morowitz. Back to the future
    38 -- 39Gavan Lintern. Complexity stimulates theories of cognition and action
    40 -- 44Ricard V. Solé. On macroevolution, extinctions and critical phenomena
    45 -- 63Roland Somogyi, Carol Sniegoski. Modeling the complexity of genetic networks: Understanding multigenic and pleiotropic regulation

    Volume 1, Issue 5

    3 -- 5Murray Gell-Mann. Complexity at large
    7 -- 10John L. Casti. A look at the most important problem in complex systems theory
    11 -- 15Brian C. Goodwin. Understanding diversity requires dynamic theories of development and behavior
    16 -- 22Howard Gutowitz. A review of some outstanding problems in the theory of cellular automata
    23 -- 33Anastasios A. Tsonis. Dynamical systems as models for physical processes
    34 -- 0Vince Darley. Learning to live on the edge
    35 -- 36George Johnson. Romancing the brain
    36 -- 38Daniel W. McShea. A post-modern vision of artificial life
    38 -- 39James Kakalios. Fractals: More than just a pretty picture
    40 -- 46William G. Macready, David H. Wolpert. What makes an optimization problem hand?
    47 -- 50Cristian Calude, Cezar Câmpeanu. Are binary codings universal?
    51 -- 59Herbert Dawid, Alexander Mehlmann. Genetic learning in strategic form games

    Volume 1, Issue 4

    7 -- 8Harold J. Morowitz. One place to look for "complexity" is in the dictionary
    9 -- 12Murray Gell-Mann. Some arguments for a unified theory of the universe
    13 -- 26Ricard V. Solé, Susanna C. Manrubia, Bartolo Luque, Jordi Delgado, Jordi Bascompte. Simple, nonlinear models capture complex systems at the edge of chaos
    27 -- 28Stephen Lucci, Izidor Gertner. Getting started in mathematics
    29 -- 36Bernard Testa, Lemont B. Kier. Complex systems in drug research: I. The chemical levels
    37 -- 42Lemont B. Kier, Bernard Testa. Complex systems in drug research: II. The ligand - active site - water confluence as a complex system
    43 -- 54Karl Svozil. How real are virtual realities, how virtual is reality? - Constructive re-interpretation of physical undecidability
    55 -- 59Gregory J. Chaitin. A new version of algorithmic information theory

    Volume 1, Issue 3

    2 -- 0Harold J. Morowitz. Classified complexity
    5 -- 8John L. Casti. How computers have changed the face of science
    9 -- 13George A. Cowan. In 1984, a group of scientists embarked on a bold new approach to science
    15 -- 21Harald Atmanspacher, Gerda Wiedenmann, Anton Amann. The endo-exo-distinction and its relevance for the study of complex systems
    22 -- 29Jeffrey Johnson. A language of structure in the science of complexity
    30 -- 34Burton Voorhees. "Do androids dream of electric sheep?"
    35 -- 37Blake LeBaron. Confusion and misinformation on financial chaos
    37 -- 38Steven Durlauf. Remembrance of things past
    39 -- 0Terry Jones. In praise of simplicity
    40 -- 55Newton C. A. da Costa, Francisco A. Doria. Gödel incompleteness, explicit expressions for complete arithmetic degrees and applications
    56 -- 60Octavio Miramontes. Order-disorder transitions in the behavior of ant societies

    Volume 1, Issue 2

    2 -- 3John L. Casti. Complexity and simplicity, in the eye of the beholder
    7 -- 8Harold J. Morowitz. The simplest genome may be the place to begin looking at complex phenomena
    9 -- 13David A. Lane. Making sense of our worlds of experience
    14 -- 17E. Atlee Jackson. There's more to scientific "understanding" than logical reasoning
    18 -- 25Lee A. Segel. Problems in physics and biology yield general principles for understanding complex systems
    26 -- 43Stuart A. Kauffman, William G. Macready. Ideas from biology may find applications in economics
    44 -- 46E. Atlee Jackson. Great expectations
    46 -- 47Joseph D. Bryngelson. Provocative questions, problematic answers
    47 -- 48Benjamin Luce. Power-packed dynamical systems software
    48 -- 0Alexander Scheeline, Nicholas Weber. Send in the clones
    49 -- 57Aviv Bergman, Sarah P. Otto, Marcus W. Feldman. On the evolution of recombination in haploids and diploids: II. Stochastic models
    58 -- 63Randall Morck, Harold J. Morowitz. Value and information: A profit maximizing strategy for Maxwell's demon
    64 -- 0Wojciech H. Zurek. The many faces of information

    Volume 1, Issue 1

    4 -- 5Harold J. Morowitz. complexity
    12 -- 15John L. Casti. When do empirical relations become a law of nature?
    16 -- 19Murray Gell-Mann. Remarks on simplicity and complexity by the Nobel Prize-winning author of The Quark and the Jaguar
    20 -- 25W. Brian Arthur. Behind the physical institutions and technologies of the marketplace lie the beliefs and expectations of real human beings
    26 -- 30Gregory J. Chaitin. The Berry paradox
    31 -- 39Melanie Mitchell. Genetic algorithms: An overview
    40 -- 44Karl Sigmund. Darwin's "circles of complexity": Assembling ecological communities
    45 -- 46Randall Tagg. A field guide to chaos
    46 -- 48Harvey Shepard. Why the world is simple
    48 -- 0Alexander Scheeline, Yeou-Teh Liu. Chaos limited
    49 -- 56Shuguang Zhang, Martin Egli. A proposed complementary pairing mode between single-stranded nucleic acids and β-stranded peptides: A possible pathway for generating complex biological molecules
    57 -- 67Aviv Bergman, Sarah P. Otto, Marcus W. Feldman. On the evolution of recombination in haploids and diploids: I. Deterministic models
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