Abstract is missing.
- Tagged Generalized Stochastic Petri NetsGianfranco Balbo, Massimiliano De Pierro, Giuliana Franceschinis. 1-15 [doi]
- Modelling Zoned RAID Systems Using Fork-Join Queueing SimulationAbigail S. Lebrecht, Nicholas J. Dingle, William J. Knottenbelt. 16-29 [doi]
- Performance of Auctions and Sealed BidsErol Gelenbe, László Györfi. 30-43 [doi]
- Applying Symbolic Techniques to the Representation of Non-Markovian Models with Continuous PH DistributionsFrancesco Longo, Marco Scarpa. 44-58 [doi]
- Mean Value Analysis for a Class of PEPA ModelsNigel Thomas, Yishi Zhao. 59-72 [doi]
- Automatic Generation of Performance Analysis Results: Requirements and DemonstrationConnie U. Smith, Catalina M. Lladó, Ramón Puigjaner. 73-78 [doi]
- Analytical Model of Traffic Compression in the UMTS NetworkMaciej Stasiak, Janusz Wiewióra, Piotr Zwierzykowski, Damian Parniewicz. 79-93 [doi]
- From DFTs to PEPA: A Model-to-Model TransformationLeïla Kloul. 94-109 [doi]
- Passage-End AnalysisAllan Clark, Adam Duguid, Stephen Gilmore. 110-115 [doi]
- Stochastic Monotonicity in Queueing NetworksHind Castel-Taleb, Nihal Pekergin. 116-130 [doi]
- Fast Generation of Scale Free Networks with Directed ArcsHuqiu Zhang, Aad P. A. van Moorsel. 131-148 [doi]
- A More Realistic Peer-to-Peer Grid Market ModelUli Harder, Fernando MartÃnez Ortuño. 149-154 [doi]
- Migrating Auctioneers on Internet Auctions for Improved Utility and PerformanceRicardo Lent. 155-169 [doi]
- Analytical Model of the Soft Handoff Mechanism in the UMTS NetworkMaciej Stasiak, Piotr Zwierzykowski, Damian Parniewicz. 170-182 [doi]
- Analytical Model of TCP NewReno through a CTMCNimbe L. Ewald, Andrew H. Kemp. 183-196 [doi]
- Packet Loss Analysis of Load-Balancing Switch with ON/OFF Input ProcessesYury Audzevich, Levente Bodrog, Yoram Ofek, Miklós Telek. 197-211 [doi]
- Approximate Analysis of a Round Robin Scheduling Scheme for Network CodingOmer H. Abdelrahman, Erol Gelenbe. 212-217 [doi]
- Analysis of Large Populations of Interacting Objects with Mean Field and Markovian AgentsMarco Gribaudo. 218-219 [doi]