Theory of Modelling and Simulation
Theory of Modelling and Simulation
The simulation of a distributed control model for resource allocation and the implied pricing
ACM SIGSIM Simulation Digest
Modeling the cost of resource allocation in distributed control
ANSS '90 Proceedings of the 23rd annual symposium on Simulation
Auction allocation of computing resources
Communications of the ACM
The simulation of a distributed control model for resource allocation and the implied pricing
ANSS '89 Proceedings of the 22nd annual symposium on Simulation
Research methods in computing: what are they, and how should we teach them?
ITiCSE-WGR '06 Working group reports on ITiCSE on Innovation and technology in computer science education
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Previously, a simulation model was proposed for the purpose of investigating synchronization, a phenomenon which is demonstrated in the well-known Rope Game (or Tug-of-War). Synchronous activity is evident in so-called self-organizing systems, particularly muscle and brain tissues. This paper gives an exact matrix description of the rope model and shows that study of the synchronous behavior of this model can be done by applying Markov chain analysis. In modeling neural networks, however, such features as refraction, inhibition, noise, and discrete neuron responses frequently are incorporated in simulation models. Simulations are presented that indicate certain neural network models can be more simply modeled in part using a matrix representation similar to that for the rope game. A lemma is proved and used to obtain a formula for neuron firing expected in steady state.