monitoring + assurance alm.pdf · • 8-channel wdm coupler to be mounted next to alm16 •...
TRANSCRIPT
Monitoring + Assurance
March 2020
HeadEnd
Device
CO
FarEnd
Device
CPE
RemoteReflect
Coupler In/out
Demarcation Reflector
Two realization options:• Pluggable demarcation reflector (FC/SC)• Patchcord with integrated reflector (LC/PC)
3 WDM Coupler
Two realization options:• 1HU module w 16 integrated filters (LC/PC)• Ruggedized Y-cable (LC/PC)
2
Single Fiber Sheath
ALM Monitor Unit1
Two variants:AC and DC
ALM System Hardware2
ALM Wavelength Overview
1300 1400 1500 1600 1700
Pow
er [m
W]
Wavelength [nm]
CWDM
Gre
y In
terf
ace
DWDM
C-B
and
DWDM
L-B
and
ALM
-M
onito
r
Permanent ALM Monitoring does not interfere with any other transport wavelengths
Physical Layer Monitoring3
16ALM/PTP/AC
Parameter ValueShelf size 1HU, half size
Connector type LC/APC to ALM filter 16/1CSM+#1650
Measuring wavelength 1650 nm
Fault detection accuracy +/- 10 m
Power AC and -48VDC variants
Management connection 1x RJ45 (1x RS232 for debug)
Management system • Stand alone, HTML web interface• SNMPv1 for alarm notification
16ALM/PTP/-48VDC
ALM Monitoring Unit4
• HW is based on the ALM16, both AC and DC should be available at the same time
• Performance comparison with ALM16• Dynamic range is slightly lower (~2dB) because of higher insertion loss 1x64
switch• Scanning speed of ~4 minutes for all 64 ports (in an Access Network). Priority
ports can be defined for faster scanning speeds
R2.3 – 64-port ALM (ALM64)5
3G/4G USB dongle for remote DNC access6
• On some sites a DCN might not be available. Remote access can be realized to an ALM in that case by using a 3G/4G Dongle
• The following dongles are currently under test:• ZTE MF823• D-Link DWP-157• Huawei E3372 4G LTE
• Note: it is uncertain yet which of these dongles are going to be included in the release
• ADVA does not resell the dongles. Customers are to purchase the dongles directly
USB Dongle is connected to MGMT port
• 1HU shelf with 16 integrated WDM Couplers• Only one 16/1CSM/1HU+#1650 module
required per ALM Monitor Unit.• 16 LC/APC cables are required to connect
the ALM Monitoring Unit to the shelf
• Ruggedized Y-cable with an integrated WDM Coupler • Per ALM port a Y-cable needs to be used
(up to 16 cables per ALM monitor unit)
16/1CSM/1HU+#1650
J-Y/SM/1CS+#1650/LC/0310
Y-Cable
Coupler Shelf
ALM Coupler Options7
A 32x WDM Coupler shelf will be developed in 1RU with LC/PC connectors. In essence this is the same as the 16x WDM Coupler shelf, but then at double the density.
ALM Connections Data in Data out
32x WDM Coupler (32/1CSM/1HU+#1650)8
• 8-channel WDM Coupler to be mounted next to ALM16• Standard ALM16 mounting brackets can be used• Mountable in 19”, 21” and 23” racks• Ideal for use with non-ADVA DWDM Transmission systems where the
required port count is typically not very high
8x WDM Coupler9
• Single demarcation reflector packaged in a stub enclosure with 310 cm fibers and LC connectors
• A demarcation reflector needs to be used per ALM(up to 16 cables per ALM monitor unit)
• Industrial Temperature Component (-40°C … +85°C)
• Pluggable SC enclosure (the same enclosurecommonly used for attenuators)
• A demarcation reflector needs to be used per ALM(up to 16 cables per ALM monitor unit)
• Industrial Temperature Component (-40°C … +85°C)
J/SM/DR/PTP/LC/03109
DR/PTP/SC
Pluggable Reflector
Patchcord Reflector
ALM Demarcation Reflector Options10
Partname #Refl Conn.1 FormFact Insertion Loss (Av+2S)
Pass Through BW (nm)
Isolation Comments
J/1/LBL/DR/PTP/NC/0155 1 G.657.A2fibre
Cable 1.0 dB 1262-1618 nm 55 dB No longer in GPL, reflektor formidspan monitoring and lowpower
F7/16/DR/PTP/SC/1HU 16 SC/PC f 1U Chassis 1.1 dB 1262-1618 nm 55 dB 16 reflectors in chassis
F7/4/DR/PTP/SC/1HU 4 SC/PC f ½ 1U Chassis 1.1 dB 1262-1618 nm 55 dB 4 reflectors in chassis
J/2/SM/DR/PTP/SC/0092 2 SC m Box 1.3 dB 1262-1618 nm 55 dB 2 reflectors in a box with pigtails
J/SM/DR/PTP/LC/0310 1 LC m Cable 0.8 dB 1262-1618 nm 40 dB
J/SM/DR/PTP/LA/0075 1 LC/APC m Cable 0.8 dB 1262-1618 nm 40 dB was wrongly in pricelist as J/SM/DR/PTP/SA/0310 and J/SM/DR/PTP/LC/0310.
DR/PTP/SC 1 SC/PC m Plug 1.0 dB 1262-1618 nm 40 dB
DR/PTP/SC/GREY 1 SC m Plug 1.2 dB 1262-1581 nm 40 dB Not suitable for CWDM traffic with 1590-1610nm lambdas.
DR/PTP/SC/APC/GREY 1 SC/APC m Plug 1.2 dB 1262-1581 nm 40 dB Not suitable for CWDM traffic with 1590-1610nm lambdas.
DR/OSFMA/LA 1 LC/APC m Plug na none na Reflector reflects full bandwidth to be used on monitor port of coupler (typical with OSFMA card).
Overview Demarcation Reflectors (see user guide for all specs.)
11
200km = not an optical specification but a result of the software implementation
Dynamic Range (SNR=1) 1 μs pulse -> 25 dB1650nm
20 μs pulse -> 32 dB1650nm
Max. pulse fingerprint 3 μsDynamic range not specifiedEstimated to be ~ 27 dB1650nm
200 km max (manual)
Overall Performance 2.1.2 (16ALM/#1650D)12
can be measured
Assume fiber break in last ‘10 dB’ distance
38 dB1650nm = fiber loss we can bridge
145 km max (automatic mode)
Power and distance can be monitored.
(System can try upto 160 km)
Performance Fingerprint/Fault Analysis13
• In CO propagating the total launch power limited to a fixed 14 dBm.• In COUNTER propagating launch power can be higher if the span is long
enough.• Please refer to dedicated slides on DWDM power limits for more details
ALM16
...
OSFM-AAU X
O SC
AU X
O SC
Refl.
Refl.
OSFM-AAU X
O SC
AU X
O SC
EDFAE
EDFAE
Co Propagating
Counter Propagating
LaunchPower
LaunchPower
Max
Lau
nch
Pow
er [d
Bm]
Max 145km
DWDM Power limitsFor Release R2.1.2
14
• What is it?New reflector in an LC/APC plug form factor
• Reason for introduction:Pluggable reflector that can directly be connected to the AUX port of the OSFMA and newer amplifiers with internal ALM couplers.
• Supported wavelengths:Reflects full c-band so can only be used in combination with coupler or for cable monitoring, can not be used as reflector with data passing trough it.
Note: Has a simplex fiber connector so you need two if you want to reflect both fibers of the duplex AUX port
New Reflector for OSFMADR/OSFMA/LA
15
HTML Web-ServerSNMP
WEB-GUIHTML interface
FSP NM or 3rd PartySNMP Server
Management Communication
• HTML web-interface for direct control over the ALM and review of network status
• Communication using SNMP commands (including SNMP Traps)
• RS232 interface (for CLI)
• RJ45 interface 10/100MB
• Shipped with default IP address
• Web browser management tool
• Login/password required
ALM ManagementControl Options for Monitor Unit
16
• Human readable email format• Initial email implementation of the ALM was XML-format only• Some customers want to receive human readable emails• Email type to be sent can be configured in the ALM GUI
• SMS capability• In addition some customers request SMS notification• In order to send an SMS an “email-to-SMS” gateway is needed• Many gateways exist (some for free, some for a low fee)
• https://martinfitzpatrick.name/list-of-email-to-sms-gateways/• https://www.textmagic.com/email-to-sms/
SMS Gateway
Human Readable Email Format / SMS capability17
OTDR curve to BASELINE comparison
On-Demand TestingAutomated Testing
Automated/Polledfiber link loss testScan every 1 min
On-demand fiber link OTDR analysis test
IP-based web interface
Automatic fiber link OTDR
analysis testBASELINE fiber measurements
Total insertion-loss to BASELINE comparison
Alarm Generation:Comparison exceeds error thresholds
ALM Operation Modes18
Management ALM (Examples)19
• In R2.3 fiber faults are detected automatically in bi-directional operation using a central NTP clock for synchronization
• The ALMs take turns measuring co/counter propagating fibers
NTPTimeslot 1 (15min)
Timeslot 2 (15min)
Timeslot 115min
Timeslot 215min
Timeslot 115min
Timeslot 215min
• A cable cut will cut both transmission fibers and thus will regardless of the timeslot be detected
Time
Bi-directional Operation - Active20
Fiber-cutdetected
Connectivity Assurance
Waterdetected
Intrusiondetected
ADVA SmartNOC
Intrusiondetected
Waterdetected
Fiber-cutdetected
CustomerNotification
DispatchRepair Service
GIS-based Assurance Service Offering21
• AutoCAD Map 3D based environment
• Geo Manager Plugin installed for editing
• Wide range of import/export functions
• Available “as-a-service” as well
Administrator
• Web-browser GUI
• Runs on PCs, tablets and phones
• Access to all service-relevant functions
• No special installation required
Service Engineer
Fiber-Optic Network
ALM
ALM
ALM
ALM
Geo Manager Server
SNMP
WebHost
Geo Manager Structure22
• Gaus-Krüger Formats• RD Data• KML/KMZ Files• Shape Format• WGS-84• Many others
Import functions are offered for a wide range of data formats
Import Functions
Geo Manager Server
Fiber Data
ImportFunctions
Geo Manager Plugin for AutoCAD23
Comprehensive Data Import functions
Here’s how GIS Mapping works24
© 2016 ADVA Optical Networking. All rights reserved. Confidential.
GIS integration status• OSPInsight (available)• ConnectMaster (available)• Cocon (R2.2)• Smallworld (evaluation stage)• ArcGIS (evaluation stage)• NetGeo (evaluation stage)
Scalable ADVA GIS (under development)• Conversion tools• User management
GIS: Geographical Information System
• GIS integration with Cocon and NetGEO has been realized through a REST interface
• Please refer to the dedicated slidedeck on Cocon for more information
Connection verification Link verification Fault identification
GIS Integration: Cocon and NetGEO25
OSPInsight orConnectMaster
• OSPInsight support is present since ALM release R1.4
• In R2.1.1 support of ConnectMaster is added. It should be noted that ConnectMaster verified the Email functionality of the ALM16, but still has to do some work to complete integration on their end.
GIS Integration
XML-formatted email
Geographics Information System (GIS)26
Fibernet-of-Things
Investment protection via passive fiber sensors
Overcoming WiFi limitations with Fibernet-of-Things• Long reach of 100km and beyond
• Energy efficient communication over fiber
• Frequency jammers have no impact on the system
• No electricity required at sensor locations
Fibernet-of-Things allows secure surveillance and investment protection of a fiber-optic network
Pictures by: Eolismedia
Water
Intrusion
Temperature/FireFuture:
Fibernet-of-Things28
Manhole product style29
Sensor in normal / off condition Sensor in activated / on condition
ALM
95/5Optical Coupler
PC Connector orOptical Reflector
Sensor
Generates a reflection peak
ALM
95/5Optical Coupler
PC Connector orOptical Reflector
Sensor
Sensor attenuates reflection peak
Passive Reflection Concept30
Step 1: run finger print. The passive sensors can be easily detected by looking at the reflection peaks
Location of a passive sensor
Configuration of Passive Monitors31
Step 2: select the reflection peaks from the sensors that are to be monitored
Select reflection peaksfrom sensors to be
monitored
Configuration of Passive Monitors32
Door is closed
Door is opened -> alarm raised
In case an enclosure is opened, the reflection peak dissapears and an alarm is raised
Configuration of Passive Monitors32
Спасибо
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