Deployment of a next generation public WiFi and LTE small cell network in London s Square Mile
Metnet self-organising backhaul Multipoint-to-multipoint, mesh Self-organising, self-optimising, self-healing Carrier class QoS High 1.2 Gbps capacity per node Very low link latency Carrier grade synchronisation GPS, 1588v2 and SyncE No RF planning or antenna alignment Simple installation Commercial in confidence 2
City of London small cell network In April 2017 the City of London unveiled plans to significantly improve wireless connectivity throughout the Square Mile The City had offered around 3,000 street assets for use in a public tender for use as telecommunications infrastructure based upon 4G small cells next generation Wi-Fi network neutral host backhaul system. Contract to build and manage the network was awarded to CTIL, infrastructure joint venture between Telefonica/O2 and Vodafone. Project is one of largest single investments in wireless infrastructure ever seen in London Commercial in confidence 3
Ecosystem Players City of London Corporation CTIL O2 iwireless JB Riney TYCO Cisco Nokia CCS Virgin Media Municipality awarding wireless concession. Infrastructure joint venture between Telefónica and Vodafone. Awarded contract to build and operate network. Telefónica UK s operating subsidiary responsible for building and managing the network, involving O2 Wireless and O2 WiFi divisions. Systems integrator responsible for network design, site acquisition and installation. City of London contractor responsible for managing street furniture. City of London contractor responsible for managing CCTV locations. Aironet 1560 WiFi access point provider. Small cell provider. Metnet self-organising microwave backhaul provider Fibre backhaul provider. Commercial in confidence 4
Key network components CCS 28GHz Metnet small cell backhaul solution 1.2Gbps high QOS SON mesh backhaul Cisco Aironet 1560 Wave2 Wi-Fi small cell Gbps capable Nokia FWEA V3 (1800 Flexizone) FDD LTE small cell multi-operator capable up to 120 concurrent users Virgin media 1Gbps fibre to the kerb offering Commercial in confidence 5
mmwave backhaul challenges Dense urban canyons Neutral host for WiFi and 4G LOS and multipath issues GPS difficulties Limited sites available Sub-optimal sites Attachment restrictions Site access restrictions Commercial in confidence 6
Metnet: important features for this deployment Security and traffic shaping/qnq features for multi-operator support AC power terminated in standard isolator (no need for bulky transformers clogging columns) Simplified node design (e.g. multiple antenna types or mounting kits not required) Service availability better than 99.99% Mesh resilience vital for frequent power cuts (UKPN faults, cars hitting columns, etc.) Re-parenting nodes essential for meeting launch targets Link preferences used to influence topology (link stability, avoid LOS obstructions, etc.) 100% success rate for deploying links to each planned site (target capacity met at each site) Minimal site re-visits required for optimization Zero touch configuration Commercial in confidence 7
Telefonica London: Wi-Fi and Small-cell backhaul Commercial in confidence 8
Telefonica London: Wi-Fi and Small-cell backhaul Commercial in confidence 9
Deployment schedule 1 st CCS Nodes and Wi-Fi Aps commissioned 135 CCS Nodes commissioned 20 4G small cells deployed 40 4G small cells live 170 4G small cells live +9 wks +15 wks +23 wks +52 wks June July Aug Sept Oct Nov Dec Jan Feb Mar Apr May June 2017 +13 wks +19 wks 2018 Wi-Fi service launched 141 Nodes 20 4G small cells integrated into core Commercial in confidence 10
London Metnet part coverage Any topology MPTMP mesh, PTMP, PTP Automated Self-organising Self-optimising Self-healing No RF planning No antenna alignment Distributed Ethernet network Carrier class Lowest TCO 60k+ subscribers per day
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High capacity backhaul in challenging conditions CCS delivers backhaul for Coca- Cola London Eye s new Wi-Fi service Commercial in confidence 14
2018: Metnet next gen 60 GHz, 12 Gbps/node 60 GHz, 14 GHz bandwidth (57 GHz-71 GHz) 12 Gbps/node Same SON mesh as current gen Metnet Self-organising, zero frequency planning, interference aware with time and frequency switching agility 270ºH +-20ºV steered beam coverage Low latency range ~300m at full rate 1Gbps, 2.5 Gbps, 10 Gbps electrical/optical Ethernet AC, DC, PoE future: 100 Gbps/node future: 24-42 GHz band Demo MWC, GA Q3 2018 Commercial in confidence 15
Metnet: the world s only self-organising microwave backhaul / FWA system www.ccsl.com