Third Networks And Services
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Third Networks and Services
This comprehensive new resource presents applications of MEF’s (Metro Ethernet Forum) Carrier Ethernet architecture and provides insight into building end-to-end systems with third network services like MPLS-TP, VPLS, and PBT. This book includes new use cases and explores the new MEF/CEN specifications, services, and applications. While providing a look into lifecycle service orchestration (LSO), virtualization, and cloud series, this book highlights the pros and cons of these technologies for service providers and enterprise network owners. Pseudowires architectures, control planes, mutisegment architecture, and multisegment pseudowire setup mechanisms are explained. Ethernet protection is explored, including Automatic Protection Switching (APS) entities, linear protection, ring protection, and link aggregations. This book covers Carrier Ethernet Traffic Management, Carrier Ethernet Operation Administration Management and Performance (OAMP), Circuit Emulation Services (CES), and Carrier Ethernet Local Management Interface (E-LIM). Full chapters on Provider Bridges (PB), Provider Backbone Bridges (PBB), Provider Backbone Transport (PBT), and information modeling are also included in this invaluable resource.
Third Generation Wireless Information Networks
Author: David J. Goodman
language: en
Publisher: Springer Science & Business Media
Release Date: 2012-12-06
Rutgers University launched WINLAB in 1989, just as the communications industry, the Federal government, and the financial community in the United States, were waking up to the growing public appetite for wireless communications and to the shortage of technology to feed it. The secret was already out in Europe, where no fewer than three new cordless and cellular systems were progressing from drawing board to laboratory to factory to consumers. In July 1989, the FCC held a well-attended tutorial that turned into a debate over whether second generation British or Swedish technology held the key to mass-market personal communications. Many in the audience wondered whether United States technology was out of the picture. Technology uncertainties are more acute in wireless communications than in any other information service. For example multi-gigabit optical fiber communications have followed an orderly progression from basic science leading to technology, which in turn stimulated standards, and then commercial products. Eventually applications will be found and industry and society at large will reap the benefits. By contrast, the applications of wireless communications are apparent to an eager public. A large market exists but is held in check by a shortage of capacity. The demand has led the cellular industry to formulate standards for advanced systems before the technology is in place to implement them. Everyone holds their breath waiting to observe performance of the first products. Gaps in basic science add to the uncertainty and forestall the resolution of technological debates.
Services in Wireless Sensor Networks
Author: Markus Becker
language: en
Publisher: Springer Science & Business Media
Release Date: 2014-03-27
In recent years, originally static and single purpose Wireless Sensor Networks have moved towards applications that need support for mobility and multiple purposes. These heterogeneous applications and services demand for a framework which distributes and discovers the various services, so that other pieces of equipment can use them. Markus Becker studies, extends, analytically models, simulates and employs the so called Trickle algorithm in measurements in a Wireless Sensor Network test bed for the service distribution. The obtained results apply to the application of the Trickle algorithm at lower protocol layers, e.g. for routing, as well. Given application delay requirements, the author derives the realizable distances and number of nodes for two network topologies from the 95 percentiles obtained by simulation.