IEEE Future Networks Initiative
IEEE Future Networks InitiativeEnabling 5G and BeyondCo-Chairs: Ashutosh Dutta (JHU/APL), Gerhard Fettweis (TUD), Timothy Lee (Boeing)Harold Tepper, IEEE Senior Program DirectorPresented by: Ashutosh Dutta, Ph.D.October 23, 20181
Emerging Services TrendsOur Connected World is Evolving!VideoBYODSecurityAsset TrackingInternet of ThingsSmart WorkplaceSmart Meter Digital Content Smart CityWebTVMobilize EverythingRoboticsSemantic WebBig Data SmartGridAugmented Reality M2M Digital LearningSensor Network Wearable ComputingVoice Recognition Digital Life Gesture VirtualizationComputingEntertainment Gamification Gaming Connected CarSocial InternetLocation Based Services Mobile PaymentmHealth Knowledge ManagementMobile AdvertisementVirtual Personal Assistant User Generate ContentSoftware Defined Anything2
Key Characteristics of 5G3 Massive MIMO D2D Communications RAN Transmission –Centimeter andMillimeter Waves Efficient Small DataTransmission New Waveforms Densification of SmallCells Shared SpectrumAccess Wireless Backhaul /Access Integration Advanced Inter-NodeCoordination Flexible Networks SimultaneousTransmissionReception Context AwareNetworking Multi-RAT Integration& Management Flexible Mobility Information CentricNetworking Moving Networks
5G Dimensions and Types of 5G ApplicationsEnhanced Mobile Broadband- Mobile Broadband, UHD / Hologram, High-mobility,Virtual PresenceCritical Communications- Interactive Game / Sports, Industrial Control, Drone /Robot / Vehicle, EmergencyMassive Machine Type Communications- Subway / Stadium Service, eHealth, Wearables,Inventory ControlNetwork Operation- Network Slicing, Routing, Migration and Interworking,Energy SavingEnhancement of Vehicle-to-Everything- Autonomous Driving, safety and non-safety features4Courtesy: Gerhard Fettweis
5What “5G and Advanced Communication Systems” is About
IEEE Membership By RegionTotal Membership421,355R1 to 6 — 194,167R7 — 17,163R8 — 77,883R9 — 18,569R10 — 113,573IEEE Offices6
2018 FDC Initiatives & ActivitiesSmall ProjectsEnvironmentalEngineeringRoadmaps Strategyand Governance(IRSG)Quantum Computingieee.org/futuredirections7Graduated Initiatives
IntroductionInitiative OverviewGoals/Objectives Foster collaboration and connect technical & businessIEEE 5G Initiative (Now known as Futurecommunities to IEEE 5G experts and resourcesNetworks Initiative) engages professionalsworldwide from industry, government and academia Be the catalyst for IEEE cross-society activities on 5Gto work together to solve the challenges associated Establish IEEE as a thought leader and essential to thewith 5G and beyond and lay the foundation to5G communityrealize its many opportunities. To be recognized as the go-to resource for engineering The IEEE 5G Initiative, which includes contributions and technology professionals in industry, academia andfrom over 22 IEEE societies, has several workinggovernment working on 5Ggroups focused around specific activities Develop and promote valued programs, products and These include its 5G and Beyondservices for the 5G communityTechnology Roadmap, testbeds project, standards, Present a single IEEE face/voice to the 5G marketplaceevents and conferences such as the IEEE 5GWorld Forum, educational materials Be a true global 5G initiative capturing the needs of allincluding IEEE 5G Transmissions Podcasts,global regionsthe IEEE 5G Tech Focuspublication, IEEE 5G Webinar series, and IEEE 5G Create a neutral platform/forum where those interestedin 5G can engage and collaborateLearning Series of tutorials. The
Key StakeholdersIEEE Societies (22 so far)IndustryAcademia, StudentsIEEE OUsIEEE EDUCATIONAL ACTIVITIESInitiative Profile Launched August 2016 Technical Activities Board Funded 20 Participating Societies/OUs
5G.IEEE.ORG10
Led by a steering committee of30 leaders from a diverse set of5G-related IEEE SocietiesThe global team of experts involved in IEEE 5G areproducing programs and activities including The 5G TechnologyRoadmapshort-term ( 3 years), midterm ( 5 years), and longterm ( 10 years)research, innovation, andtechnology trendsPublicationsIEEE 5G Transmissionspodcast seriesIEEE Tech FocusIEEE Talks 5G Q&A articleseriesConferences &Events1st Annual IEEE 5G WorldForum in 20185G-related IEEE conferences5G SummitsEducationExpert ArticlesStandardsIEEE 5G Learning SeriesIEEE Live Online CoursesWebinar seriesPublished on IEEE 5G webportal and in industry mediaGlobal, open, andcollaborative
5G Initiative StructureSteeringCommitteeCo-ChairsAshutosh DuttaStaffProgramDirectorGerhard FettweisHarold TepperTim LeeTechnologyRoadmapChi-Ming ChenMajor Project TwoRose HuMischa DohlerEducationTrackEducation Working GroupRavi AnnaswanyRulei TingPublicationsTrackWeb PortalTrackConferencesTrackPublications WorkingGroupWeb Portal WorkingGroupConferences WorkingGroupChi-Lin IAlex WyglinskiAshutosh DuttaAlex GelmanGeoffrey LiKomlan EgohLatif LadidMehmet UlemaProject A12StandardsTrackProject BStandards WorkingGroupContentDevelopmentTrackContent DevelopmentWorking GroupCommunityDevelopmentTrackCommunity DevelopmentWorking GroupJames IrvineAlex WyglinskiIndustryOutreachTrackIndustry OutreachWorking GroupMeng LuSudhir Dixit
13Getting involvedWorkingGroupScopeEducation Track(R. Ting, R. Annaswamy)Define, develop andmanage portfolio ofofferings/activitiesincluding: eLearning Modules Tutorials Webinars Podcasts Google HangoutsPublications Track(C-L. I, G. Li)Web Portal TrackDefine, develop andmanage portfolio ofofferings/activitiesincluding: eNewsletter Journal,Transactions Magazine Supplements toother publications Special issues inother publicationsDetermine, sourceand manage contentplaced on portalEnsure that portal isrefreshed on acontinuous basis(J. Irvine)Conferences Track(A. Dutta, L. Ladid)Manage Initiativeevents Conferences WorkshopsDetermine andmanage participationin other events Patron Exhibitor Panelist Keynote
14Getting InvolvedWorkingGroupScopeStandards Track(A. Gelman, P. Nikolich)ContentDevelopment Track(B.Das)Manage portfolio ofactivities including: New projects Workshops forneeds definition andconnection withtechnologydevelopers Roundtable programfor industry leaders Engagement withSDOs and otherexternalorganizationsDevelop and sourcecontent for posting /publication including: By-lined articles Q&As Expert Interviews Whitepapers Scenarios/Use Cases Media Interviews Analyst BriefingsCommunityDevelopment Track(J. Irvine, A. Wyglinski)Establish and grow abroad IEEE 5GCommunity including: IEEE TechnicalCommunity Collabratec Twitter LinkedIn Facebook FlipBoardIndustry OutreachTrack(M. Lu, M. Condry)Drive engagement withindustry including: Partnerships Training Career Development
5G and Beyond Roadmap Working (PaulLittlewood,Feras AbuGalalaDeploymentDavidWitkowski
IEEE Standards AssociationDrives the functionality, capability, and interoperability of a range of productsand services that affect the way people live, work, and communicate.6,879Maintainingthe StandardInitiating theProjectIndividual Membersin 90 countries187Corporate Membersin 23 countries16Gaining FinalApprovalBalloting theStandardMobilizing theWorking GroupDrafting theStandard
IEEE: Standards and Global Collaboration for 5GIEEE provides a complete, end-to-end, collaborative framework today for accelerating the realization of5G and its revolutionary use cases tomorrow.IEEE 802.11standard supported by almost any mobile device in the market todayMobile Edge Cloud brings SDN/NFV frameworks anddata path programmability to the proximity of end usersas key enablers for service differentiationWiFiOpenMECSoftRAN is to create a SD RAN flexible enough tocontrol applications with the wireline centricconcepts of “fog” in a SD-controllerNGFIIEEE 1914/1904flexible, efficient and scalable packet-based fronthaultransport networksIEEE 1918SoftRANIEEE FogTactileInternetnon/mission-critical applications (e.g. manufacturing, transportation,healthcare, mobility, edutainment, events)IEEE 11073IEEE P1589/P1587.6/P1857.9/P3333.2.4 Industry Connectionsthe integration of computer-generated sensory content withthe physical worldAReHealthprovides a global platform for eHealth stakeholdersIoTIEEE P2413 / 1471 / 4201017
Standards Applicable to 5GComputer Society:IEEE 802.1 - Higher Layer LAN Protocols Working Group IEEE P802.1CM IEEE P802.1CFProfile of Ethernet networks utilizing Time Sensitive NetworkingNetw. Ref. Model, and Func. Description of IEEE 802 Access NetworkIEEE 802.3 - Ethernet Working Group IEEE P802.3bsIEEE P802.3caIEEE P802.3ccIEEE P802.3cd200 Gb/s and 400 Gb/s Ethernet25 Gb/s, 50 Gb/s, and 100 Gb/s Ethernet Passive Optical Networks (EPON)25 Gb/s Ethernet over Single-Mode Fiber50Gb/s, 100 Gb/s, and 200 Gb/s EthernetIEEE 802.11 - Wireless LAN (aka Wi-Fi) Working Group 18IEEE 802.11ac-2013IEEE 802.11ad-2012IEEE P802.11axIEEE P802.11ayIEEE 802.11ah-2016Up to 7 Gbps in 5 GHzUp to 7 Gbps in 60 GHzUp to 10 Gbps in the 5 GHzUp to 20 Gbps in the 60 GHz band“HaLow”: Massive Machine Type Communications
Standards Applicable to 5G (Cont’d)Computer Society: IEEE 1903–2011 Standard for the Function Architecture of Next Generation Overlay NetworkIEEE 802.15 - Wireless Personal Area Network (WPAN) Working Groupo IEEE 802.15.6o IEEE 802.15.7o IEEE 802.15.12Wireless Body Area Networks (BAN)Visible Light CommunicationsUpper Layer Interface (ULI)IEEE 802.16 - Broadband Wireless Access Working GroupIEEE 802.18 - Radio Regulatory Technical Advisory GroupIEEE 802.19 - Wireless Coexistence Working Groupo IEEE 802.19.1TV White Space Coexistence MethodsIEEE 802.21 - Media Independent Handover Services Working Group IEEE 802.22Point-to-Multipoint Wireless Broadband IEEE 802.11PVehicular Communication System (amendment to 802.11)19
Standards Applicable to 5G (Cont’d)IEEE Vehicular Technology Society/Intelligent Transportation Systems:- 1609 Series - IEEE Wireless Access inVehicular Environments (WAVE)IEEE Antennas and PropagationSociety/Antennas and Propagation:Wireless Communications Devices: MeasurementTechniquesInstruments & Measurements: 1451 Series - Smart Transducer Interface for Sensorsand Actuator Wireless Communication Protocols andTransducer Electronic Data Sheet (TEDS) Formats P211 - Standard Definitions of Terms forRadio Wave PropagationAudio Video Coding Working Group: P149 - Recommended Practice for AntennaMeasurements IEEE P1857.9 - Standard for Immersive VisualContent Coding 1720-2012 - IEEE Recommended Practice for NearField Antenna Measurements3D Based Medical Application WorkingGroup:SASB/SCC39-SCC39 - InternationalCommittee on Electromagnetic Safety: 1528-2013 - IEEE Recommended Practice forDetermining the Peak Spatial-Average SpecificAbsorption Rate (SAR) in the Human Head from20 IEEE P1857.6 - Standard for Digital Media Content IEEE P3333.2.4 - Standard for Three-Dimensional(3D) Medical Simulation
Standards in Development Applicable to 5G (Cont’d)IEEE SA Design Automation Standards Committee (DASC) 21IEEE 1666IEEE 1666.1IEEE 1800IEEE 1076IEEE 1076.1.1IEEE 1647IEEE P1800.2IEEE 1801IEEE 1685IEEE 1734IEEE 1735(SystemC) Modeling of 5G designs at a pre-implementation levelSystemC AMS)(SystemVerilog) Design/Verification of 5G devices(VHDL)(VHDL AMS)(the e language)(UVM)(UPF) Low power hardware analysis 5G hardware designs(IPXACT) 5G Semiconductor IP design(IP quality)(IP encryption)
Standards in Development Applicable to 5G (Cont’d)Communications Society-22IEEE P1903.1IEEE P1903.2IEEE P1903.3IEEE P2413IEEE P1914.1IEEE P1915.1IEEE P1916.1IEEE P1917.1IEEE P1918.1IEEE P1918.1.1IEEE P1921.1IEEE P1930.1IEEE 1931.1Content Delivery Protocols of Next Generation Service Overlay Network (NGSON)Service Composition Protocols of NGSONSelf-Organizing Management Protocols of NGSONArchitectural Framework for the Internet of ThingsStandard for Packet-based Fronthaul Transport NetworksSDN and NFV SecuritySDN and NFV PerformanceSDN and NFV ReliabilityTactile InternetHaptic Codecs for the Tactile InternetSDN Bootstrapping ProceduresRecommended Practice for (SDN) MiddlewareArchitectural “ROOF ”Framework for the IoT
Standards in Development Applicable to 5G (Cont’d)IEEE Microwave Theory and Techniques: IEEE P1765 Recommended Practice for Estimating the Uncertainty In Measurementsof Modulated Signals for Wireless Communications with Application toError Vector Magnitude and Other System-Level Distortion Metrics IEEE P1770 Recommended Practice for The Usage of Terms Commonly Employed Inthe Field of Large-Signal Vector Network Analysis IEEE P1785 IEEE Frequency Bands and Waveguide DimensionsIEEE Instrumentation and Measurement Society: IEEE P287 Standard for Precision Coaxial Connectors at RF, Microwave andMillimeter-wave Frequencies IEEE P1415-99 Harmonization of Internet of Things (IoT) Devices and SystemsAugmented Reality Learning Experience Model: IEEE P1589 Standard for an Augmented Reality Learning Experience Model23
GLOBALISWHAT IS NEEDEDLOCALLY EVERYWHERE24
40 SummitsIEEE 5G Summit Series – 2015 - 2018(www.5gsummit.org)50 5G Summits, More than 5000 attendees (onsite and online), 400 Speakers,Streaming and Recording ArchievedHAWAII2511/5/201825AALBORG TREALHELSINKISANTA LSHANGHAIPATNATIANJINTOKYONANJINGTAIPEINEW DELHIKOLKATABHUBANESWARTRIVANDRUMCHENNAI
IEEE 5G Summit Series – 2015 – 2018 (www.ieee5gsummit.org)3 IEEE 5G Summits in 201519 IEEE 5G Summits completed in 20178 IEEE 5G Summits in 20169 IEEE 5G Summits planned in 2018
First 5G SummitPrinceton University May 2015A successful event
SANTA CLARA SUMMIT, 2015
BANGALORE SUMMIT 2017
Engaging Industry30Work-in-progress. Do not Distribute Beyond Roadmap Teams
Industry InputAN INDUSTRY-WIDE DIALOGUE You’re invited to participate in the IEEE Beyond 5GTechnology Roadmap effort to help stimulate an industrywide dialogue to outline a technology and innovation visionof the development and deployment of 5G and beyond. Your expertise as an industry subject matter expert is neededin the roadmap dialog regarding the evolution, thechallenges faced, and identification of solutions and areas ofinnovation.31Work-in-progress. Do not Distribute Beyond Roadmap Teams
Ecosystem StakeholdersEnd usersApplication developersService providersEquipment manufacturersComponent suppliersTechnology innovatorsGovernmentsStandards and guidelines producingbodies- IEEE-SA- 3GPP- ITU32Industry Interaction at Large The Roadmap effort will also include aseries of meetings to gather additionalinputs and feedback on trends relatedto: Business Technology Societal New fields Other industries
Join theTechCommunity! From IEEE 5G to IEEE Future Networks5G has promised us ultralow latency and record-breaking data speeds, which will enableadvances in everything from small cell research to virtual reality applications. This technologywill create tremendous growth opportunities, but it won't stop there. That is why, inAugust 2018, the IEEE 5G Initiative has rebranded to become the IEEE Future NetworksInitiative. The Initiative will pave a clear path through development and deployment of 5Gand beyond. We will accomplish this through the creation odcastsNewslettersRoadmapsAND MORESign up for free at futurenetworks.ieee.org
Whether you are a platform provider,operator, manufacturer, or service/content provider, there is a path foryou and your business to be seen,heard, and make an impact in 5G contribute to the inaugural IEEE 5G InitiativeRoadmap Working Groups contribute to our publication, IEEE 5G Tech Focus lead an IEEE 5G use case or infrastructure project.
THANK YOUandJOIN US FORTHE INNOVATIONREVOLUTIONLEARN MORE AT5G.IEEE.ORG
36IEEE: The Force BehindInnovationAshutosh Dutta, Ph.D., Johns Hopkins University/Applied Physics Lab, Maryland, USAIEEE 5G Initiative Co-ChairIEEE Communications Society Director of Industry OutreachIEEEE Communications Society Distinguished LecturerSeptember 17, 2018
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IEEE P802.3cc 25 Gb/s Ethernet over Single-Mode Fiber IEEE P802.3cd 50Gb/s, 100 Gb/s, and 200 Gb/s Ethernet IEEE 802.11 - Wireless LAN (aka Wi-Fi) Working Group IEEE 802.11ac-2013 Up to 7 Gbps in 5 GHz IEEE 802.11ad-2012 Up to 7 Gbps in 60 GHz IEEE P802.11ax Up to 10 Gbps in the 5 GHz IEEE P802.11ay Up to 20 Gbps in the 60 GHz .
IEEE 3 Park Avenue New York, NY 10016-5997 USA 28 December 2012 IEEE Power and Energy Society IEEE Std 81 -2012 (Revision of IEEE Std 81-1983) Authorized licensed use limited to: Australian National University. Downloaded on July 27,2018 at 14:57:43 UTC from IEEE Xplore. Restrictions apply.File Size: 2MBPage Count: 86Explore furtherIEEE 81-2012 - IEEE Guide for Measuring Earth Resistivity .standards.ieee.org81-2012 - IEEE Guide for Measuring Earth Resistivity .ieeexplore.ieee.orgAn Overview Of The IEEE Standard 81 Fall-Of-Potential .www.agiusa.com(PDF) IEEE Std 80-2000 IEEE Guide for Safety in AC .www.academia.eduTesting and Evaluation of Grounding . - IEEE Web Hostingwww.ewh.ieee.orgRecommended to you b
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