Interactive foundations of computing
Theoretical Computer Science - Special issue: theoretical aspects of coordination languages
Complexity - Special issue on uncoventional models of computation
Neural networks and analog computation: beyond the Turing limit
Neural networks and analog computation: beyond the Turing limit
A new kind of science
Communication and Concurrency
Minds and Machines
Extensive Games as Process Models
Journal of Logic, Language and Information
Toward a Formal Philosophy of Hypercomputation
Minds and Machines
Semantics of Interaction (Abstract)
CAAP '96 Proceedings of the 21st International Colloquium on Trees in Algebra and Programming
Logic and the Dynamics of Information
Minds and Machines
On Communication and Computation
Minds and Machines
Sequentiality vs. concurrency in games and logic
Mathematical Structures in Computer Science
Natural computation and non-Turing models of computation
Theoretical Computer Science - Super-recursive algorithms and hypercomputation
Uncomputability: the problem of induction internalized
Theoretical Computer Science - Super-recursive algorithms and hypercomputation
Interactive Computation: The New Paradigm
Interactive Computation: The New Paradigm
Programming the Universe: A Quantum Computer Scientist Takes On the Cosmos
Programming the Universe: A Quantum Computer Scientist Takes On the Cosmos
Computing is a natural science
Communications of the ACM - Creating a science of games
Physical Computation: How General are Gandy's Principles for Mechanisms?
Minds and Machines
New Computational Paradigms: Changing Conceptions of What is Computable
New Computational Paradigms: Changing Conceptions of What is Computable
The many facets of natural computing
Communications of the ACM
Petri Nets, Discrete Physics, and Distributed Quantum Computation
Concurrency, Graphs and Models
Computation, Information, Cognition: The Nexus and the Liminal
Computation, Information, Cognition: The Nexus and the Liminal
Super-Recursive Algorithms
Some Philosophical Issues in Computer Science
Minds and Machines
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The increased interactivity and connectivity of computational devices along with the spreading of computational tools and computational thinking across the fields, has changed our understanding of the nature of computing. In the course of this development computing models have been extended from the initial abstract symbol manipulating mechanisms of stand-alone, discrete sequential machines, to the models of natural computing in the physical world, generally concurrent asynchronous processes capable of modelling living systems, their informational structures and dynamics on both symbolic and sub-symbolic information processing levels. Present account of models of computation highlights several topics of importance for the development of new understanding of computing and its role: natural computation and the relationship between the model and physical implementation, interactivity as fundamental for computational modelling of concurrent information processing systems such as living organisms and their networks, and the new developments in logic needed to support this generalized framework. Computing understood as information processing is closely related to natural sciences; it helps us recognize connections between sciences, and provides a unified approach for modeling and simulating of both living and non-living systems.