41 results on '"Grover, Wayne D."'
Search Results
2. Next Generation Transport Networks
3. Design of Protected Working Capacity Envelopes Based on p-Cycles: An Alternative Framework for Survivable Automated Lightpath Provisioning
4. Design of Survivable Networks Based on p-Cycles
5. p-Cycle protection at the glass fiber level
6. A Simple Generalized Approach to Node Failure Recovery with Span-Protecting p-Cycles
7. A Two-Hop Segment Protecting Paradigm that Unifies Node and Span Failure Recovery under p-Cycles
8. Altering Grooming Decisions to Enhance p-Cycle Design Efficiency
9. Near-optimal FIPP p-cycle network designs using general path-protecting p-cycles and combined GA-ILP methods
10. Whole fiber switched p-cycles
11. A new approach to node-failure protection with span-protecting p-cycles
12. Approaches to p-cycle network design with controlled optical path lengths in the restored network state
13. Toward jointly optimized design of failure-independent path-protecting p-cycle networks
14. Factors affecting the efficiency of Demand-wise Shared Protection
15. Comparative study of fully pre-cross-connected protection architectures for transparent optical networks
16. Globally optimal distributed synchronous batch reconfiguration for efficient hazard-free dynamic provisioning: How an entire network can “think globally and act locally”
17. High availability survivable networks: When is reducing MTTR better than adding protection capacity?
18. p-cycle network design: From fewest in number to smallest in size
19. Comparison of p-cycles and p-trees in a unified mathematical framework
20. Dynamic path-protected service provisioning in optical transport networks with a limited number of add/drop ports and transmitter tunability
21. How a Network Can "Think Globally and Act Locally" and Avoid the Hazards of Incoherence in Distributed State Information
22. Improved method for survivable network design based on pre-cross-connected trails
23. High Availability in Optical Networks: introduction to the feature issue
24. Testing the accuracy of analytical estimates of spare capacity in protected-mesh networks
25. Path-protecting p -cycles and the protected working capacity envelope concept: addressing the needs of dynamic transparent optical networks
26. The threshold hop-limit effect in -cycles: Comparing hop- and circumference-limited design
27. Capacity Planning of Survivable Mesh-based Transport Networks under Demand Uncertainty
28. Availability Analysis and Enhanced Availability Design in p-Cycle-Based Networks
29. Performance of protected working capacity envelopes based on p -Cycles: fast, simple, and scalable dynamic service provisioning of survivable services
30. Design and performance of protected working capacity envelopes based on p-cycles for dynamic provisioning of survivable services
31. Mesh-Restorable Networks with Enhanced Dual-Failure Restorability Properties
32. Span-Restorable Mesh Networks with Multiple Quality of Protection (QoP) Service Classes
33. Shared-Risk Logical Span Groups in Span-Restorable Optical Networks: Analysis and Capacity Planning Model
34. Exploiting forcer structure to serve uncertain demands and minimize redundancy of p -cycle networks
35. Segment-based approaches to survivable translucent network design under various ultra-long-haul system reach capabilities [Invited]
36. Understanding p-Cycles, Enhanced Rings, and Oriented Cycle Covers (invited paper)
37. Span-Restorable Mesh Network Design to Support Multiple Quality of Protection (QoP) Service-Classes
38. Mesh-restorable networks with complete dual failure restorability and with selectively enhanced dual-failure restorability properties
39. Capacity design studies of span-restorable mesh transport networks with shared-risk link group (SRLG) effects
40. Bi-criteria studies of mesh network restoration path-length versus capacity tradeoffs
41. Quasi-orthogonal subcarrier multiplexing for high-capacity optical data links
Catalog
Books, media, physical & digital resources
Discovery Service for Jio Institute Digital Library
For full access to our library's resources, please sign in.