Stochastic ordering for Markov processes on partially ordered spaces
Mathematics of Operations Research
Learning in the recurrent random neural network
Neural Computation
G-networks with multiple classes of negative and positive customers
Theoretical Computer Science
Performance Evaluation
Turning back time in Markovian process algebra
Theoretical Computer Science
Compositional reversed Markov processes, with applications to G-networks
Performance Evaluation
Closed G-networks with Resets: product form solution
QEST '07 Proceedings of the Fourth International Conference on Quantitative Evaluation of Systems
Discrete Event Dynamic Systems
Stochastic Automata Networks with Master/Slave Synchronization: Product Form and Tensor
ASMTA '09 Proceedings of the 16th International Conference on Analytical and Stochastic Modeling Techniques and Applications
Short communication: Product-forms and functional rates
Performance Evaluation
A unifying approach to product-forms in networks with finite capacity constraints
Proceedings of the ACM SIGMETRICS international conference on Measurement and modeling of computer systems
Analysis and Synthesis of Computer Systems: Texts)
Analysis and Synthesis of Computer Systems: Texts)
EPEW'05/WS-FM'05 Proceedings of the 2005 international conference on European Performance Engineering, and Web Services and Formal Methods, international conference on Formal Techniques for Computer Systems and Business Processes
Multi-class network with phase type service time and group deletion signal
EPEW'11 Proceedings of the 8th European conference on Computer Performance Engineering
Analysis of stochastic Petri nets with signals
Performance Evaluation
Multiple class G-networks with restart
Proceedings of the 4th ACM/SPEC International Conference on Performance Engineering
Hi-index | 0.00 |
We consider G-networks in which customers arrive simultaneously in several queues. We denote this new signal as synchronised arrivals. Under some conditions on the arrivals on the boundary of the state space, and the ergodicity condition, we prove that these networks have a product-form steady-state distribution. We show the link between this new signal and the positive signals introduced by Chao, Miyazawa and Pinedo.