Metropolitan Area NetworksWith the continuing success of Local Area Networks (IANs), there is an increasing demand to extend their capabilities towards higher data rates and wider areas. This, together with the progress in fiber-optic technology, has given rise to the so-called Metropolitan Area Networks (MANs). MANs can span much greater distances than current LAN s, and offer data rates on the order of hundreds of Megabits/sec (Mbps). The success of MANs is mainly due to the opportunity they provide to develop new networking products capable of providing high-speed commu nications between applications at competitive prices, which nonetheless give an adequate return on the manufacturers' investments. A major factor in of appropriate networking standards. achieving this goal is the availability Fiber Distributed Data Interface (FDDl) and Distributed Queue Dual Bus (DQDB) are the two standard technologies for MANs for which industrial products are already available. For this reason, this book focuses mainly on these two standards. Nowadays there are several books dealing with MANs, and these look mainly at FDDI (e.g., [2], [92], [118], [141]). These books focus primarily on the architectures and protocols, whereas they pay little attention to per formance analysis. Due to the capability of MANs to integrate services, a quantitative analysis of the Quality of Service (QoS) provided by these tech nologies is a relevant issue, and is thus covered in depth in this book. |
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Contents
INTRODUCTION | 1 |
STOCHASTIC PROCESSES FOR MODELING METROPOLI | 21 |
METHODS FOR THE ANALYSIS OF NODEINISOLATION | 81 |
Copyright | |
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Metropolitan Area Networks Marco Pellegrini,Enrico Gregori,Luciano Lenzini No preview available - 2012 |
Common terms and phrases
A₁ algorithm analysis approximation arrival process arrives at Q assumed asynchronous frames asynchronous traffic average number average waiting B₁ bandwidth Bernoulli process bus access delay BWB_MOD C₁ computation cycle length denotes derived distributed queue DQDB embedded Markov chain embedding point empty slot equations exponential distribution FDDI function Hence IEEE L_NET Layer LEMMA M/G/1 system MAC protocol Markov chain matrix Mbps Metropolitan Area Networks n-th Node Index node{i number of packets observed obtained offered load P₁ Pmax polling system protocol capacity pseudo-conservation law Q₁ queue length queued queueing model queueing system random point random variables ring latency Ring_Latency S₁ scanning epoch Section segment Server arrives service discipline service period shown in Figure steady-state probabilities switching tagged node tagged packet arrives tagged station Theorem throughput tion token arrival Token Ring token rotation transmitted TTRT vacation vector z-transform