3. 3
Challenges of current Optical cabling System
Three
Challenges
Optimize the OAM
Massive fiber resource
Devices and ports increasing
Massive stickers and labels
1 service provisioning efficiency
Traditional complicated procedure
Paper work-order, low efficiency
Incorrect information, many mistake
2
Inaccurate Resource Management
Connect with resource management system
Device scattered distributed, hard to locate
Separate management
3
6. 6
Smart ODN functions
Smart ODN
Identification
eID, RFID technology
patch cord ID
Adapter ID
Splitter port ID
Engineering
Instruction
Visible operation
instruction
Real-time refresh
Automatic collation
Network
OAM
Get topology info.
Work order sent by NMS.
Locating with GIS.
Quick trouble-shooting by
convergence of PON NMS and
OTDR
Port status
Port linked up or not
Patch cords connection
correct or not
8. 8
Smart ODN Network Topology
Resource
Management
system
Smart ODN NMS
OLT
ODF
FDH FTB or DP ONU
Fiber Outlet
OSS
BSS
Smart Section
Traditional Section
Improve/upgrade based on traditional
ODN devices
Integrated with PON NMS
Remote operation system:
Smart phones, tablet PC, laptops, etc.
DCN (SNMP)
2G/3G/WIFI
Radio Frequency
9. 9
Smart ODN Hardware
-- New Construction
Electronic Tag Type Advantages Description
eID
Small Size Fast install and replace
Automatic Identification
Electrical access, automatic & fast
identification for adapters and connectors
Real-time Monitoring Connect with NMS
Engineer Instruction
LED lamp instruct engineer to do
implementation
10. 10
Smart ODN Hardware
-- Existing Network Evolution
Electronic Tag Type Advantages Description
Passive RFID
Simple design Radio access
High Reliability
No electric component, entire passive
system, high environment adaptability
Easy Evolution
Assemble on the connector, no affect to
service
Low OPEX
Remain existing ODN devices and no active
component
11. Features
Applied in active environment, massive fiber ports
Remain all the functions of traditional ODF
Up to 576 cores capacity
eID technology adopted, rapid automatic information collection ,LED
indicator for engineer instruction
DC, AC or USB power supply
Real time monitoring or on-site information collection
Power consumption: ≤5w (≤576 cores)
Working temperature: -5℃~+50℃
Smart ODF
12. Features
Applied in OSP environment
Remain all the functions of traditional FDH
Up to 576 cores capacity
eID technology adopted, rapid automatic information collection (576
ports information collected within 10s)
LED indicator for engineer instruction
AC, DC or USB power supply
On-site information collection
Power consumption: ≤5w (≤576 cores)
Working temperature: -40℃~+85℃
Smart FDH
13. Features
Applied in indoor or outdoor environment
24/48 cores capacity
eID technology adopted, rapid automatic information collection
On-site information collection
LED indicator for engineer instruction
USB power supply
IL≤0.5dB; RL≥50dB(UPC), ≥60dB(APC)
Smart FDP
13
24 cores smart FDP
330(W) x 400(H) x 100(D) mm
48 cores smart FDP
410(W) x 490(H) x 145(D) mm
18. 18
Resource becomes visible and manageable
More complex
network
& More fiber
Increasing
OPEX
Manual work
Hard to
manage
Excel
• Device resource can be
real-time monitored
• Different color alarm
• Fault alarm, remain
engineer to treat
• On-site
information
collection
Device information
remote collection
Real-time management Port status update
Fiber route management
• Fiber Route
created
automatica
lly
19. 19
Implementation becomes much easer
Sticker and manual work
Traditional labeling is not clear, easy to
break, the information cannot be 100%
accurate
None effective inspection method after
implementation finished
Electronic port management
Information collected automatically
Visible and audio instruction are provided
by smart remote operation system
The information could be synchronized to
NMS once implementation finished
20. 20
Service provisioning becomes more manageable
Patching
Manual record
Feedback data
by paper work
Service provisioning
OAM & Expansion
Operator
Subcontractor
Correct or not
Correct or not
Low efficiency
Too slow
Current process and problem Smart ODN process- Closed Cycle
Closed cycle management could be realized by
using smart ODN NMS and remote smart tools
Work order is sent by call center, after
implementation finished NMS receive feedback
Operators management
system
UNM2000
21. 21
OAM efficiency becomes higher
Integrated with GIS, fast fault locating
Port status monitoring
SODF SFDT
UNM2000 ODN
Trouble
shooting
Real-time monitor optical cable,
report optical link status and
attenuation change, realize active
OAM, enhance the network security
Optical Link Monitoring system
SFDT SODF
eID change
eID fault
Fiber fall
Board alarm
Port
Monitoring
Real-time monitor fiber and port
status, passive network fault could be
reported rapidly
Network
Inspection
ONU
OLT
OSS NMS
FTTX network
Smart ODN
OSW+WDM
OTDR
PON-OLM