Smart Cities, Smart Leaders, Smart Technology, and the role of Passive Optical LANs Gilberto GG Guitarte COMMSCOPE FTTX Business Development AMERICAS FTTH COUNCIL AMERICAS-LATAM Chapter Master Instructor
Smart Cities, Smart Leaders, Smart Technology SMART CITIES!!!!
Smart Cities, Smart Leaders, Smart Technology PERSONAS INFORMACIÓ N TECNOLOGÍA y MEDIO AMBIENTE Promueven Crecimiento Sostenible Mediante INTERACCIÓN de Water Gas Electric Energy Distrib. Sewer Traffic Public Ligthing Public Safety Mobility Con Innovación e Integración de Sistemas Críticos SuperFast Broadband IP Network
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 Total IP Convergence Smart Building HVAC Lighting Security WAP VoIP Bursty More Networked Devices drive additional Equipment in Data Center Baseline IP Bandwidth, Bandwidth, and finally, more Bandwidth Information is TE Confidential & Proprietary Do not Reproduce or Distribute
SmartGrids Promedio de Flujo de Información de subida en el Sistema #64 DATA COLLECTOR 12312 Smart Meter 12312 Smart Meter MDM W A N GPON OLT P O N ODN PON GPON ONT Transformer SubStation MT/LT 12312 Smart Meter 12312 Smart Meter 10Mbps GPON 100Kbps PLC/WIFI Mesh 10Kbps Zigbee
Mobility
The IOT-enabled Enterprise
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
The Heterogeneous Networks LiFi Bluetooth DAS WiFi Small Cell
Devices with Sensors Network Connection IoT and Connectivity Data Center Storage & Processing
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 Planning for Wireless Education Healthcare Intelligent Buildings It s Time to Consider Wireless as the Next Utility Applications Standards TIA 4966 TIA 1179 TIA 862-B draft 2G/3G/4G/5G WiFi Cabling Standards WiFi PoE Data Centers TIA TSB-162 TIA TSB-184-A TIA 942-A
The Fiber Network is the Key FIBER to the OFFICE FIBER to the HOME FIBER to the CONTINENT FIBER to the SMALL CELLS FIBER to the BUSINESS FIBER to the NODE FIBER to the TOWER FIBER in the CENTRAL OFFICE FIBER in the DATA CENTER
Intelligent Management of Things on the Physical Layer Patch Cord InterConne ct Physical Connectivity; The Intelligent Way Office Server Room Server Panel to Network Panel Connectivity Patch Cord Cross Connect IDF Rack TCP/IP Remote USER Browser Interface Patch Cord to Server Patch Cord Inter Connect Intelligent Systems Server Servers Server Rack DC Network Rack
Key Takeaways IoT Connectivity Solutions Connectivity is Critical for IoT Wired or Wireless Applications Wireless, 802.11ac-Wave 2 PoE+, 4 Pair PoE Actual LAN Infrastructure Recommendations Cat 6A is for 10GBASE-T Cat 6A is for robust Infrastructure High Speed Resilient EPON (IEEE) or GPON (ITU) Data Center Infrastructure High Speed Pre-Term Fiber So many Things, So many Connections AIM (Intelligence on Physical Layer)
FIBER to the OFFICE FIBER to the HOME FIBER to the CONTINENT FIBER to the SMALL CELLS FIBER to the BUSINESS FIBER to the NODE FIBER to the TOWER FIBER in the CENTRAL OFFICE FIBER in the DATA CENTER
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 options in the last mile Huh?
How different networks require different deployment people in number and in quality A typical Core Fiber Ntwk has ~ 1 connection per Fiber-kilometer A typical Access Fiber Ntwk has ~ 6 connections per Fiber-kilometer CO5 CO1 CO2 Trunk Cable Access Feeder Cable Secondary Distribution cable NAP Drop or final Distribution Subscriber CO4 CO3 FDH Distribution Node Secondary Distribution cable NAP Drop or final Distribution Subcriiber Construction phase = FO specialists Service commissionning = multi-task x5 x18
TECHNOLOGIES of Fiber Access NETWORKS: Hardened Connectors Resist all weather Resist all environments Factory polished & Factory terminated 100% reliable network 1:4 GPON Drop Terminal Fiber Indexing Technology Direct Drop CWDM Drop Terminal forward feed Rapid Deployment Technology HMFOC faster to deploy network Cuts time in half! reverse feed port Intelligent fiber utilization Inside network elements optimizes CAPEX, CASH FLOW, MULTISERVICE Usage of same nework!
Smart Cities, Smart Leaders, Smart Technology Gracias! Ciudades Inteligentes, Líderes Inteligentes, Tecnología Inteligente! gilberto.guitarte@commscope.com