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Smart Cities, Smart Leaders,Smart Technology ,
and the role ofPassive Optical LANsGilberto “GG”Guitarte
COMMSCOPE FTTX Business Development AMERICASFTTH COUNCIL AMERICAS-LATAM Chapter Master Instructor
Smart Cities, Smart Leaders, Smart Technology
Promueven Crecimiento Sostenible
Con Innovación
e Integraciónde Sistemas
Críticos
MedianteINTERACCIÓN
de
PERSONASINFORMACIÓ
NTECNOLOGÍA
y MEDIOAMBIENTE
SuperFast Broadband IP Network
Water GasElectricEnergyDistrib.
Sewer Traffic PublicLigthing
PublicSafety
Mobility
Curent Elements of definition and presence in a Smart City:
• Smart Wearables(Accesorios de moda Inteligentes)
• Smart Homes(Hogares Inteligentes)
• Intelligent Buildings(Edificios Inteligentes)
• Smart Grids(Grillas Inteligentes)
• Edificios Inteligentes
Baseline IP
Bursty
VoIP
WAP
Security
LightingHVAC
Total IP Convergence Smart Building
More Networked Devices
drive additional
Equipment in Data Center
Information is TE Confidential & ProprietaryDo not Reproduce or Distribute
Bandwidth, Bandwidth, and finally, more Bandwidth
Bandwidth, Bandwidth, and finally, more Bandwidth
Smart MeterTransformerSubStation MT/LT
SmartGrids
Promedio de Flujo de Información de subida en el Sistema
12312
GPON ONT
DATA COLLECTOR
Smart Meter
12312
Smart Meter
12312
Smart Meter
12312
#64
ODNPON
100Kbps 10Kbps10Mbps
ZigbeePLC/WIFI Mesh
GPON
MDMGPONOLT
PON
WAN
Convergence of OT & IT• Operational Technology & Information
Technology need to work together
• The proprietary interfaces and connectivity methods need to be changed
• Conversion from specific to generic interfaces is required (Ethernet & Wireless)
• Communication of non-networkable sensors into TCP/IP is the key
• OT and IT technologies must converge, allowing connection and communication.
Physical Connectivity Considerations•Location & Placement•Environmental conditions
− Indoor copper and fiber cable types
− Outdoor rated cables and IP-rated enclosures/accessories
•Easy space & cable management− Floor, Ceiling, Wall, Pole & Street Cabinets
− Accommodating different devices & equipment
•High bandwidth support − for the optimal/longer distances
− Media Selection
•Network & Power at remote locations•Personnel Safety
− Bonding & Grounding
•Standard compliance
Planning for IoT Connectivity• Number Of Devices (Things)
– Anticipation for at least next 10 years– Machines, sensors, cameras, controllers, drives etc.
• Bandwidth Consumers– Traffic flow help determine Bandwidth needs– Device capacities & data rates
• Downtime– What is the cost of downtime?– Resiliency and protection
• Management– Up-to- date documentation– Easy Move Add Changes, Security alerts etc.
Cabling standards & Recommendations
TIA TSB-184-A
PoE
TIA 1179
Healthcare
TIA 4966
Education
TIA 942-A
Data Centers
TIA TSB-162
WiFi
TIA 862-B draft
Intelligent Buildings
Planning for Wireless
Applications Standards
Cabling Standards
2G/3G/4G/5G WiFi
It’s Time to Consider Wireless as the Next
Utility
The Fiber Network is the Key
FIBER to the TOWER
FIBER to the BUSINESS
FIBER in the DATA CENTER
FIBER to the NODE
FIBER to the SMALL CELLS
FIBER to the HOME
FIBER in the CENTRAL OFFICE
FIBER to the OFFICE
FIBER to the CONTINENT
Intelligent Management of Things on the Physical Layer
TCP/IP
Intelligent Systems Server
Remote USER “Browser
Interface”
Servers
Server Panel to Network Panel Connectivity
Patch Cord to Server
Patch Cord Cross Connect
DC Network Rack
Server Rack
Server Room
Office
Patch Cord InterConnect
IDF Rack
Patch Cord Inter Connect
Physical Connectivity; The Intelligent Way
Key Takeaways – IoT Connectivity SolutionsConnectivity is Critical for IoTWired or Wireless
PoE+, 4 Pair PoE
Data Center Infrastructure
So many Things, So many Connections
Wireless, 802.11ac-Wave 2 Cat 6A is for 10GBASE-T
Cat 6A is for robust Infrastructure
High Speed Pre-Term Fiber
AIM (Intelligence on Physical Layer)
Applications Infrastructure Recommendations
Actual LAN High Speed Resilient EPON (IEEE) or GPON (ITU)
FIBER to the TOWER
FIBER to the BUSINESS
FIBER in the DATA CENTER
FIBER to the NODE
FIBER to the SMALL CELLS
FIBER to the HOME
FIBER in the CENTRAL OFFICE
FIBER to the OFFICE
FIBER to the CONTINENT
• The Challenge: The Forces at play on FTTH • o Fiber Access massive deployment:
• User friendliness,• Vs. Speed of Deployment, • Vs. Quality of work,• Vs. network reliability
You are here
Your optionsin the
last mile
Huh? …
• How different networks require different deployment people… in number and in quality
CO1 CO2
CO3
Trunk Cable
AccessFeeder Cable
FDHDistribution
Node
SecondaryDistribution
cable
NAPSubscriber
Drop or finalDistribution
CO4
CO5
A typical Core Fiber Ntwk has ~ 1 connection per Fiber-kilometerA typical Access Fiber Ntwk has ~ 6 connections per Fiber-kilometer
Construction phase = FO specialistsService commissionning = multi-task x18
x5
SecondaryDistribution
cable
Drop or finalDistribution
SubcriiberNAP
TECHNOLOGIES of Fiber Access NETWORKS:Hardened Connectors
Rapid Deployment Technology
Fiber Indexing Technology
HMFOC
reverse feedport
Direct Drop CWDM
Drop Terminal
Drop Terminal
1:4
forward feed
GPON
Resist all weatherResist all environmentsFactory polished &Factory terminated100% reliable network
faster to deploy networkCuts time in half !
Intelligent fiber utilizationInside network elements optimizes
CAPEX, CASH FLOW, MULTISERVICEUsage of same nework!
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