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MICROWAVE & RF RF - Hyper et Fibre dans la fracture numérique : une chance pour la filière des « hypers » 1
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Les attentes et les logiques La 4 G: pas de capacité sans déploiement de petites cellules et 80% du backhaul se fera en sans-fil (enquête SARABAND auprès de 20 opérateurs hors France) L’accès en périurbain, résidentiel et rural on attend toujours les promesses de la fibre mais: – On ne saurait utiliser 100Mbps dans un foyer, et une PME high- tech de 30 personnes consomment 30Mbps “peak”, – La fibre est très chère et contraignante en capillaire, ni les opérateurs ni les collectivités n’ont les moyens à court ou moyen terme – La radio et les hyperféquences font des progrès rapides et constants ouvrant de plus en plus de spectre donc de capacité utilisable sans travaux (Fréquences, GaN, modems, antennes) 2
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Economie des hyperfréquences en accès et backhaul Programme Européen SARABAND - François Magne – Bluwan. Accès et backhaul avec la technologie LTE: Serge Hethuin Thales Les antennes Sub-λ et multibeam composants clé du backahul - Programme Européen SARABAND - M. Alain Lefevre - Thales Research & Technology. La radio sur fibre : solution pour exploiter les réseaux en Délégation de Service Public - M. Jean Luc Polleux- ESYCOM. 3 Divers aspects des progrès et solutions
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Access & Backhaul economy with PmP mm Wave deployments RF & Microwave April 2015 François Magne WHEN-ab SARABAND ECONOMY4
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Content Architecture & services Topology and capacity dimensioning Backhaul ingeneering options Cost evaluation Comparison with fibre Conclusion Saraband Economy5
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SARABAND PROGRAM: mm Wave RADIOS MODULES AND SMART ANTENNAS FOR BACKHAUL of Gbps capacity. Spectrum of 500MHz or more 3 Tier Architecture mixing technologies: Hetnets & services Saraband Economy6
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FiberEntreprisesPtMP mm-wave hubSmall CellAP LTEMulti DwellingResidential ACCESS TIER Sub6 Wireless & Ethernet 300m BACKHAUL TIER PmP mm-wave 120Mbps 1,5 -30 Km INFRASTRUCTURE TIER Fibrer optics >Gbps 10 -100 Km 3 tier Architecture - Applications deployment PtMP capacity distribution PtP fiber extension PtP fiber extension SARABAND ECONOMY7 SARABAND TOPIC
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Tier 1 Infrastructure Backbone Fiber Extensions Tier 1 Infrastructure Backbone Fiber Extensions Tier 2 Backhaul PtMP µwave Tier 2 Backhaul PtMP µwave Tier 3 Access Hotspots & MDU & LAN Sub 6 & Ethernet Tier 3 Access Hotspots & MDU & LAN Sub 6 & Ethernet Gigabit Ethernet Gigabit Ethernet Gigabit Ethernet Gigabit Ethernet Limited building & engineering efforts 100Km100Km1.5km(Q)-30km(Ku)1.5km(Q)-30km(Ku)300m300m Easy upgrades & low maintenance efforts (µwave MTBF) System concern: End-to-End solution mixing technologies 3 tier Hierarchically Organized Architecture Efficient & Flexible capacity distribution Cost Efficiency optimization Saraband Economy8
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Topology and capacity evaluation on Tier 3 SARABAND MODEL: Parameters : DL/UL ratio, users’ provisioning, penetration rate, surface & spectrum with hexagonal deployment Best technology and approach on Tier 3: LTE sub6GHz & small cells. Saraband Economy9
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Input 1 Capacity distribution Inputs 2 Needs LTE 3sectors Spectrum 20MHz x 2 Capacity 160Mbps LTE 3sectors Spectrum 20MHz x 2 Capacity 160Mbps Density = Inhabitants/AREA Penetration rate Provisioning per user Usage: DL/UL Density = Inhabitants/AREA Penetration rate Provisioning per user Usage: DL/UL MODEL module 1:Inputs >> Capacity, needs >> size cell on Tier 3 LTE technology on S or C band (2 to 6GHz) Cell radius and numbers of subscribers per cell f 1 f’ 1 f 3 f’ 3 f 2 f’ 2 a=0,x km Uc =yyy SARABAND ECONOMY10
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Cell range and # subscibers depending on provisioning and density H/KM²11 Mbps
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INPUTS INPUTS Area: S # inhabitants or density Cells radius: a Provisioning ex 0,5Mbps Penetration rate % INPUTS INPUTS Area: S # inhabitants or density Cells radius: a Provisioning ex 0,5Mbps Penetration rate % OUTPUTS # OF CELLS: N Total CAPACITY: C Gbps # OF SUBSCRIBERS: U = ΣUc OUTPUTS # OF CELLS: N Total CAPACITY: C Gbps # OF SUBSCRIBERS: U = ΣUc MODEL module 2: Inputs as Area Surface,# Inhabitants >> number of cells and total Capacity Backhaul needs Backhaul coverage optimisation 12
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Dimensioning on 10 cities k SARABAND ECONOMY13 ~2Gbps/km²
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Topology and capacity evaluation on Tier 2 SARABAND MODEL: Parameters : spectrum, channel width, multiplex, modulation order, sectors, antennas aperture and gain, µwave modules P1 & NF… Best technology and approach on Tier 2: mm wave PmP & MULTIBEAM. Saraband Economy14
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Standard 90° sectors Multibeams 2 or 3 beams in 9O° sector Multibeams 2 or 3 beams in 9O° sector MODEL module 3: Backhaul options on Tier 2 deployment PmP mm Wave for capacity Spectrum 1GHz re-usable Optimising backhaul with PmP sectors with multibeam µwave radios R=1km R=1,6km On TH ODU Double or triple MMICS + multibeam antennas SARABAND ECONOMY15
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Capex & TCO/ Multibeam & 4sectors Capex bckhl /subscibers 4 Sectors 25€ Multibeam 19,5€ Price reduction 22% Adding µwave cpts reduces infrastructure k Simulation on 500MHz sub-band 16
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CAPEX & TCO OPTIMISATION/DENSITY For high densities > 8k inhabitants/km² 4 sectors distribution is cheaper Under 8k density Multibeam is better Case Cities of 100k inhabitants With various densities 17
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TCO Comparison with FO k 18
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Conclusion EU program SARABAND emphasis on mm Wave modules and smart antennas for wireless networks delivering 2Gbps/km² to multiple PoPs Upon Hetnet architecture for access & backhaul, SARABAND developed a model on Backhaul topology and economy This model optimises dimensioning and deployment on sectors with an innovative concept of multibeam per sectors Implementation of multibeam provides 22% cost reduction on Capex and CTO. Fibre Optics CTO is 3,5 times more expensive (+so slow +not as sure) than mm PmP Multibeam, Saraband Economy19
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SARABAND SITE: www.sarabandfp7.eu Saraband economy20
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