Optical Network Control is the first expert guide and single-source reference for controlling and managing optical networks. This book fills the gap between optical network engineering and routing/signaling-helping both optical and IP professionals build networks that are more robust, flexible, manageable, and profitable. Coverage includes: *Designing networks to deliver a range of on-demand services from mission-critical, time-sensitive protected services to low-cost unprotected services *Network control and operations in WDM/DWDM and SONET/SDH environments *Control principles and features for evolving mesh-based optical networks and existing ring networks-with practical examples *Emerging, proposed, and future optical routing/signaling protocols and standards including GMPLS, ASON and Optical UNI *Optical network control planes: design, scenarios, interworking, and interactions with existing network management systems *Crucial IETF, ITU-T, OIF, ANSI, Bellcore, and industry information-brought together for the first time
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Für höhere Schule und Studium
Maße
Höhe: 240 mm
Breite: 185 mm
Dicke: 20 mm
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ISBN-13
978-0-201-75301-1 (9780201753011)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Klassifikation
GREG BERNSTEIN, chief consultant with Grotto Networking, served as Senior Technology Director for CIENA, supervising network control and management architectures. At Lightera Networks, he led the software development effort for a widely deployed optical switch, applying advanced signaling and routing techniques. He holds several optical networking patents.
BALA RAJAGOPALAN, Principal Architect at Tellium, has worked extensively on IP-centric control of optical networks and optical internetworking architectures. He has also researched IP and wireless data networks for AT&T Bell Laboratories, Bellcore, and NEC, and he has made significant contributions to IETF, ATM Forum, and Optical Interworking Forum standards.
DEBANJAN SAHA is a senior researcher at IBM T.J. Watson Research Center. At IBM, Bell-Labs, and Tellium he designed and developed protocols for optical switches, IP routers, and Internet servers. He is one of the first developers of MPLS. All three authors are principal contributors to the IETF GMPLS standards.
1. Technology Overview.
Introduction. Optical Transmission Systems. Multiplexing, Grooming, and Switching. Summary.
2. SONET and SDH Basics.
Introduction. Time Division Multiplexing (TDM). Getting to Know the SONET and SDH Signals. SONET/SDH Layering.
3. SONET and SDH: Advanced Topics.
Introduction. All about Concatenation. Link Capacity Adjustment Scheme. Payload Mappings. SONET/SDH Transparency Services. When Things Go Wrong. Summary.
4. Protection, Restoration, and Diversity in Optical Networks.
Introduction. Linear Protection. Ring-Based Protection. Mesh Restoration. Summary.
5. Modern Optical Network Control Plane.
Introduction. Control Plane Architecture and Functional Model. Control Plane Aspects in IP Networks. Control of MPLS Networks. Generalized MPLS (GMPLS). Control of ATM Networks: The P-NNI Protocols. Summary.
6. Neighbor Discovery.
Introduction. Types of Adjacencies and Discovery Procedures. Protocol Mechanisms. LMP. Summary.
7. Signaling for Connection Provisioning.
Introduction. The ITU-T G.7713 Model. GMPLS Signaling. RSVP and RSVP-TE. GMPLS Extensions to RSVP-TE. P-NNI Signaling Adaptations for Optical Networks. Summary.
8. Signaling for Protection and Restoration.
Introduction. Span Protection. End-to-End Dedicated Mesh Protection. End-to-End Shared Mesh Protection. Discussion. Summary.
9. Routing Overview.
Introduction. History of Routing. Routing Protocol Basics. Internet Routing Protocols. P-NNI. Summary.
10. Intradomain Optical Routing.
Introduction. Differences between IP and Optical Routing. Routing with Physical Diversity. Routing with Constraints. Link Bundling. Source Routing. Optical Intradomain Routing. Routing across Multiple Areas. Issues. Summary.
11. Route Computation and Path Selection.
Introduction. Shortest Path Computation. Routing with Simple Constraints. Path Selection for Diversity. Network Optimization. Summary.
12. Interdomain Control.
Introduction. Interdomain Control Requirements. Domain Hierarchies. Interdomain Routing. Discovery Processes and Hierarchy. Summary.
13. Management Systems and the Control Plane.
Overview of Transport Systems Management. Information Models. Protocols for Systems Management. Relationship with the Control Plane. Summary.
14. Optical Control Plane Internetworking.
Introduction. Business Drivers and Inhibitors. Different Standards: Competing or Complementary? Interoperability Status. Deployment Issues.
Glossary.
Bibliography.
Index.
