Synchronous Transport Engineering: Practical Design and Optimization of Digital Hierarchies for Modern Optical Networks (eBook, ePUB)
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Synchronous Transport Engineering: Practical Design and Optimization of Digital Hierarchies for Modern Optical Networks is a technically rigorous guide that traces the evolution from PDH to SDH and beyond, explaining why synchronous transport became the backbone of carrier-grade networks. It clearly differentiates SDH and SONET, unpacks the governing international standards, and presents a coherent architectural view of synchronous multiplexing, frame structures, overhead, payload mapping and timing distribution. Readers gain a solid theoretical foundation in digital hierarchy principles and i...
Synchronous Transport Engineering: Practical Design and Optimization of Digital Hierarchies for Modern Optical Networks is a technically rigorous guide that traces the evolution from PDH to SDH and beyond, explaining why synchronous transport became the backbone of carrier-grade networks. It clearly differentiates SDH and SONET, unpacks the governing international standards, and presents a coherent architectural view of synchronous multiplexing, frame structures, overhead, payload mapping and timing distribution. Readers gain a solid theoretical foundation in digital hierarchy principles and interoperability requirements that underpin modern optical transport.
The book moves seamlessly from theory to practice, detailing the physical infrastructure and devices-multiplexers, cross-connects, OEO interfaces and optical transmission equipment-and providing step-by-step treatment of frame engineering, synchronization strategies and payload adaptation for multi-service traffic. Practical chapters address network design, capacity planning, resiliency mechanisms, quality of service and traffic management, illustrated with real-world deployment case studies. Integration topics cover WDM, OTN and SDN-enabled control planes, as well as packet-on-transport techniques that bridge legacy synchronous networks with packet-centric architectures.
Beyond engineering mechanics, the text confronts operational realities: OAM, performance assurance, fault management, testing methodologies, regulatory compliance and security hardening for transport networks. It offers guidance on sustainable, energy-efficient designs and pragmatic migration strategies to next-generation platforms, and explores automation and AI-driven operational models. With forward-looking discussions of research challenges and practical recipes for robust, scalable deployments, this book is an essential reference for network engineers, architects, operators and students designing and optimizing digital hierarchies in modern optical networks.
The book moves seamlessly from theory to practice, detailing the physical infrastructure and devices-multiplexers, cross-connects, OEO interfaces and optical transmission equipment-and providing step-by-step treatment of frame engineering, synchronization strategies and payload adaptation for multi-service traffic. Practical chapters address network design, capacity planning, resiliency mechanisms, quality of service and traffic management, illustrated with real-world deployment case studies. Integration topics cover WDM, OTN and SDN-enabled control planes, as well as packet-on-transport techniques that bridge legacy synchronous networks with packet-centric architectures.
Beyond engineering mechanics, the text confronts operational realities: OAM, performance assurance, fault management, testing methodologies, regulatory compliance and security hardening for transport networks. It offers guidance on sustainable, energy-efficient designs and pragmatic migration strategies to next-generation platforms, and explores automation and AI-driven operational models. With forward-looking discussions of research challenges and practical recipes for robust, scalable deployments, this book is an essential reference for network engineers, architects, operators and students designing and optimizing digital hierarchies in modern optical networks.
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