Theory of recursive functions and effective computability
Theory of recursive functions and effective computability
Model checking
The computer and the brain
Formal systems for gene assembly in ciliates
Theoretical Computer Science
Modelling biochemical pathways through enhanced π-calculus
Theoretical Computer Science - Special issue: Computational systems biology
Theory of Self-Reproducing Automata
Theory of Self-Reproducing Automata
Motor primitive and sequence self-organization in a hierarchical recurrent neural network
Neural Networks - 2004 Special issue: New developments in self-organizing systems
A note on discreteness and virtuality in analog computing
Theoretical Computer Science
Fundamenta Informaticae - New Frontiers in Scientific Discovery - Commemorating the Life and Work of Zdzislaw Pawlak
A robotic scenario for programmable fixed-weight neural networks exhibiting multiple behaviors
ICANNGA'11 Proceedings of the 10th international conference on Adaptive and natural computing algorithms - Volume Part I
Scientific Theories of Computational Systems in Model Checking
Minds and Machines
Hi-index | 5.23 |
Computational virtuality is introduced as a key distinguishing feature of genuinely computational systems. Evidence is provided that the basic cellular machinery possesses virtuality. Accordingly, one can step beyond the commonplace metaphor of computation as applied to molecular biology, and come to view the cell as a genuine computing system. The human nervous system is analyzed in the same light, setting an agenda for research on virtuality in recurrent neural networks, whose outcomes in the way of theoretical results and simulation of biological neural systems may heuristically guide neuroscientists in the search for virtual computing in the brain.