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OFC’07 Summary

OFC’07 Summary. Lei Song Huan Song. OFC’07 Tracks. Category 9: Networks OMO, OCDMA OTuE, Network Architecture OWC, OPS/OBS OWK, Network Control and Management OWR, Cross-Layer Design OThF, Optical Packet Switching Networks OThJ, Optical Network Survivability OThQ, Carrier Services.

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OFC’07 Summary

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  1. OFC’07 Summary Lei Song Huan Song

  2. OFC’07 Tracks Category 9: Networks OMO, OCDMA OTuE, Network Architecture OWC, OPS/OBS OWK, Network Control and Management OWR, Cross-Layer Design OThF, Optical Packet Switching Networks OThJ, Optical Network Survivability OThQ, Carrier Services

  3. OFC’07 Tracks (Contd.) • Category 10: Emerging applications and access solutions • OMJ, Optical Network Applications • OMR, Ultra-Short Reach Interconnects • OTuG, Colorless ONU’s • OWD, PON Modulation Schemes • OWL, WDM PON • OWS, Future PON Technology • OThE, Service and Network Management • OThM, Hybrid Optical Wireless

  4. Network Architecture

  5. Network Architecture

  6. OPS/OBS

  7. OPS/OBS

  8. Network Control and Management

  9. Network Control and Management

  10. Cross-Layer Design

  11. Cross-Layer Design

  12. Optical Packet Switching

  13. Optical Packet Switching

  14. Optical Network Survivability

  15. Optical Network Survivability

  16. Carrier Services

  17. OCDMA

  18. OCDMA

  19. Conclusions Trends Survivability in NG networks SLA guaranteed service provisioning traffic grooming and “Bandwidth on-demand” Cross-Layer design Impairment-aware routing techniques Optical packet switching / optical burst switching OPS switches and routers TCP / Ethernet over OPS OBS for access and metro networks

  20. Conclusions (Contd.) Trends Optical network architectures Waveband switching and efficient provisioning Role of ROADMs Network control and management Ethernet over WDM Carrier services MPLS and interworking

  21. Service Provider Summit Attendees Korea Telecom NTT Verizon Telcordia, etc Trends Expand from core competency to neighboring field IP is a clear winner in triple-play Broadband home router (BHR) for service convergence PON evolution Security

  22. WDM PON

  23. WDM PON (Contd.)

  24. Hybrid Optical Wireless

  25. Hybrid Optical Wireless (Contd.)

  26. Hybrid Optical Wireless (Contd.)

  27. Conclusions • Trends • Colorless WDM-PON • Possible physical layer devices • Injection locked FD-LD • R-SOA • ECL • Wavelength converter • Long-Reach Access • Novel amplifier • SOA-ROMAN • Bidirectional EDFA • Hybrid Access • Radio on Fiber (ROF)

  28. OFC’07 Summary --- WDM-PON Huan Song Group Discussion April 20, 2007

  29. Recent Research Activities of WDM-PON in Korea

  30. Recent Research Activities of WDM-PON in Korea MDU (Multiple Dwelling Unit environment) remote node (ONU) is outdoor and powered up to 24 user port at ONU SDU (Single Dwelling Unit environment) wavelength is splitted

  31. A hybrid-amplified PON with 75-mn downstream bandwidth, 60 km reach, 1:64 split and multiple video services Fig. 7. Experimental setup of extended and service-upgraded PON using an extender box SOA-Raman Hybrid Amplifier (SRHA) Ultra broadband gain (up to 80-nm bandwidth)

  32. A Cost-Effective WDM-PON Configuration EmployingInnovative Bi-directional Amplification Fig. 8. Bi-directional Amplifier Fig. 9. System Architecture After 100-km SSMF transmission, the powerpenalty for all channels at 10Gbit/s is less than 0.8 dB.

  33. Experimental upstream demonstration of a long-reach wavelength-converting WDM-PON with DWDM backhaul Fig. 10. System Architecture • Optical transmitter with precise wavelength control needs thermal control. • Increase cost of ONU. • Un-cooled laser is cheap, but introduces wavelength drifting.

  34. Optical VPN Connecting ONUs in Different PONs Fig. 11. VPN across different PONs VPN can only connects ONUs of the same color.

  35. Economic Evolution from EPON to WDM-overlaid PONEmploying a Wavelength Conversion Node Fig. 12. System Architecture Fig. 13. Structure of RN • Uniform ONU, working on the same upstream wavelength. • Smooth upgrade from EPON Powered outdoor WCN

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