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The Future of Wireless in Education Some Thoughts Peter M. Siegel CIO, University of Illinois at Urbana-Champaign cio@uiuc.edu Networking 2001 Washington, DC April 11, 2001
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One Taxonomy of Wireless - 1 Room- or building-specific –“wired” classrooms or office suites little interference, put in “what works”, security manageable by negotiation Ethernet, campus provided Campus-level (Ethernet) cost and security issues significant, but getting addressed soon –important to know who is using the network scaling to >>1000 users Ethernet, campus provided
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One Taxonomy of Wireless - 2 Community Wireless –Various protocols, industry-provided services –Universities believe/hope that negotiation with local companies can lead to seamless services for campus community off-campus (Not borne out yet for cable or DSL…) Wide-area (inter/national) Wireless –As above –Only hope is flexible, open approach to service provision
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What else? Old news: –Wireless means integrated voice and data –The Web on PDAs: not very interesting per se More Important –multimedia streaming to small devices –asynchronous and synchronous services –educational value entertainment value –Specialized services on a range of devices, not dumbed- down desktop services
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Next-Generation Wireless Campus Managed: Extension of Wired Infrastructure –>10 mbits now –integrated with wireline billing now –security, geographic location identification almost here Wide-area “3G” Wireless –100s of kilobits mobile to mbits indoors –billing standards developing –security? Geographic location to be there –Timing: Will companies recoup “2G” system investments first?
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eLearning, eCollaboration, and Wireless eLearning & eCollaboration teach us students/faculty need/want access to the best campus services even when off-campus or outside classroom settings –First wave: Comparable speeds as on campus for basic services Wired apartments, homes High-speed access to local services over web to anywhere –Second wave: Truly mobile access to services beyond the web Staying in asynchronous data contact >> synchronous voice contact Synchronous data contact: Learning communities in traditional locations (library) and non-traditional locations
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Integrated View of Wireless Services Universities must move from taking care of services they can own… …To working with industry to ensure that wide-area wireless interoperates with campus services, allowing: –a consistent view of services by end-user –a small number of interfaces and protocols –no blocking of required security (e.g. VPN) or other basic functions for “consumer” services
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Issue #1 Bottleneck: It’s very hard to get information from industry regarding technical directions and timing –Benefits of cooperating with academia early on appear less than in the past –Churn in industry has obscured earlier joint successes means company contacts often do not know company technical plans means technical plans may change without warning makes it hard for universities to develop business models
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Issue #2 If industry-provided wireless is cheaper, more pervasive, and better, will campus- level wireless have been a good investment? –Academics want consistent access everywhere: work, home, roaming campus, roaming the world –Services must work anywhere –Answer depends on timing
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Issue #3 Same technologies are used for business and personally… –cell phone, PDA, computer, broadband services –notion of managing uses by having duplicate devices and networks is not sensible, but often the case today for academics following “the rules” (e.g. state law)
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Issue #4 Ubiquitous, mobile computing is going to expand more rapidly than we think –The services may be high-end today, but will be basic to students, service workers, even faculty –Business models for paying for services are still primitive –Reliability and location-identification a major problem life safety issues, emergencies, tracking network attacks
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Issue #5 Security and Compliance is growing problem for education –Conflict between anonymous access (library) and need to identify source of attacks/threats Some university lawyers: we must show due diligence in logging activity and tracking perpetrators –Wireless, esp. from non-campus, services will exacerbate this (A variant on the “hotmail” problem) –DMCA, HIPAA ( Health Insurance Portability and Accountability Act ), CIPA ( Children’s Internet Protection Act ),...and the list goes on...
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Issue #6 Scalability –Managing over wide range of customer densities –Can we manage the wireless complex? –Can we afford it? –Can we bill for it effectively and cheaply?
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Issue #7 The digital divide is exacerbated by improvements in communications technology –Haves vs Have-nots: Haves can learn all the time at home, play, experiment Have-nots must “wait in line”, work on task, and leave scarce public sites (school seats, libraries, etc) Universities may not be able to provide “free” access to community because of security/compliance isues –Cities vs. low-density areas Services may deploy years later (or never?) at enormous cost differences –Promise of eLearning is in broad access Profitable “low-hanging” fruit is among those who can pay the premium
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Conclusion Wireless Technologies, as part of Ubiquitous Mobile Computing, becoming critical to academia Academia is technically-capable, innovation-oriented, and enthusiastic Reaching non-traditional students and communities, especially have-nots, needs more partnership among academia, government, industry Many issues remain that slow down the effective adoption/deployment of these new technologies – regulatory, cultural, financial, and technical
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ITFS, 3G, and the NPRM Preserving and Developing Education’s Spectrum for the 21 st Century EDUCAUSE Kenneth D. Salomon Dow, Lohnes & Albertson, PLLC ksalomon@dlalaw.com
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What is ITFS ITFS = Instructional Television Fixed Service FCC designated 2.5 GHz for educational use 40 years ago Use by schools, colleges, universities, and other educational groups Nearly 1300 ITFS licensees: –331 colleges & universities with 752 licenses –738 k-12 schools (public and private) with 879 licenses –9 statewide networks
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What is ITFS Used for Current Uses: Video broadcasting (used by millions of students at tens of thousands of locations) Professional development Future Uses: Wireless broadband at little or no cost to educational institutions Two-way digital video for interactive distance learning Wireless Wide Area Networking
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Role of Commercial Partners Lease excess capacity from ITFS licensees –Revenue sharing/equipment and technical support –Shared network Use excess capacity to provide video or fixed wireless broadband services –The only broadband option for some –DSL/cable modem competition for others Two way authority makes spectrum more valuable to ITFS licensees
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What is 3G Next (third) generation cell phone service Provides data at faster speeds, but is not truly broadband “Global standard” although spectrum allocation varies from country to country Several different standards evolving
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FCC NPRM on 3G 3G proponents claim an additional 160 MHz below 3GHz are “required” 2000 World Radio Conference identified 1.7 (DoD) and 2.5 (ITFS/MMDS) GHz bands as possible candidates Clinton October 2000 memorandum –NTIA and FCC Final Staff Reports March 30, 2001 http://www.fcc.gov/3G/
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What is the Problem? The 160 MHz of additional spectrum below 3 GHz is NOT available unless existing users are relocated by the FCC or NTIA A prime band under review is used by ITFS There is a very real risk that ITFS will be relocated to much less desirable frequency Threatens continued revenues/equipment support from commercial providers and roll out of high speed wireless access
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Comments on 2.5 GHz Band With regard to ITFS, the FCC asks: Could a portion of the ITFS/MMDS band be made available to new entities? If so, how much spectrum, and where in the band? Could incumbent ITFS/MMDS licensees be accommodated in other bands?
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Comments on 2.5 GHz (cont’d) If so, what procedures would apply to the relocated ITFS/MMDS licensees? –Expense reimbursement, alternative facilities, etc. Would allowing ITFS and MMDS licensees to provide mobile service be beneficial without reallocating the spectrum to other licensees?
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Who Else is Involved? Other policy makers involved: --Congress --White House -- Department of Commerce -- Department of Education
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WEB NOW Campaign Wireless Educational Broadband Now or WEB NOW Campaign –Website: www.itfs.org/webnowwww.itfs.org/webnow –NIA and ITFS Spectrum Alliance Working with Catholic Television Network –100+ National, State, Local Members EDUCAUSE –Both Washington and Grassroots –Targeting FCC, Congress, NTIA, White House
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WEB NOW Campaign Washington –LobbyingVisits, Letters and Calls FCC and on the Hill –FCC Comments and Reply Comments –Letters to Secretaries Paige and Evans –Media Grassroots
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The Future of Wireless in Education Bill Lane Chief Technologist Wireless Telecommunications Bureau Federal Communications Commission Bill Lane Chief Technologist Wireless Telecommunications Bureau Federal Communications Commission
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Today’s Plan Framing the issues How your Federal Communications Commission (FCC) fits in! Commission (FCC) fits in! The search for 3G spectrum & why all this is important to you! Framing the issues How your Federal Communications Commission (FCC) fits in! Commission (FCC) fits in! The search for 3G spectrum & why all this is important to you!
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The “Enterprise” Environment Source: Drew and Dillinger, “Evolution Toward Reconfigurable User Equipment”, IEEE Communications Magazine, February 2001
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The Convergence Issue! WAPWAP J2MEJ2ME CDMACDMA GSMGSM C#C# XMLXML BREWBREW SmartphoneSmartphone BWABWA PalmOSPalmOS 802.11b802.11b PDAPDA HiperLan/2HiperLan/2 PocketPCPocketPC 3G3G BluetoothBluetooth
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The “Cellular/PCS” Issue Source: Cellular Telecommunications Industry Association and Donaldson, Lufkin & Jenrette Cellular/PCS Subscribers & Penetration
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Part of the “Spectrum” Issue
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The “Wireless Access” Issue Unlicensed! Part 15!
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Part 15 No harmful interference caused and received interference accepted received interference accepted Limited power Must accede to primary licensed users No harmful interference caused and received interference accepted received interference accepted Limited power Must accede to primary licensed users
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The FCC Established by the Communications Act of 1934 Independent agency of U.S. government Independent agency of U.S. government Responsible to Congress Responsible to Congress Charged with establishing policy to govern interstate and international communications by television, radio, wire, international communications by television, radio, wire, satellite, and cable satellite, and cable Note: Government use is handled by the National Telecommunications and Information Administration (NTIA), Dept. of Commerce and Information Administration (NTIA), Dept. of Commerce Headed by five Commissioners, each appointed by the President, with one designated as Chairman President, with one designated as Chairman Chairman Michael Powell (R) Commissioner Susan Ness (D) [Kathleen Abernathy] Commissioner Gloria Tristani (D) Commissioner Harold Furchtgott-Roth (R) [Kevin Martin] [Michael Copps] Established by the Communications Act of 1934 Independent agency of U.S. government Independent agency of U.S. government Responsible to Congress Responsible to Congress Charged with establishing policy to govern interstate and international communications by television, radio, wire, international communications by television, radio, wire, satellite, and cable satellite, and cable Note: Government use is handled by the National Telecommunications and Information Administration (NTIA), Dept. of Commerce and Information Administration (NTIA), Dept. of Commerce Headed by five Commissioners, each appointed by the President, with one designated as Chairman President, with one designated as Chairman Chairman Michael Powell (R) Commissioner Susan Ness (D) [Kathleen Abernathy] Commissioner Gloria Tristani (D) Commissioner Harold Furchtgott-Roth (R) [Kevin Martin] [Michael Copps]
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The FCC Seven Bureau’s WTB Cable Services Bureau Common Carrier Bureau Consumer Information Bureau Enforcement Bureau International Bureau Mass Media Bureau Wireless Telecommunications Bureau Cable Services Bureau Common Carrier Bureau Consumer Information Bureau Enforcement Bureau International Bureau Mass Media Bureau Wireless Telecommunications Bureau Ten Office’s Administrative Law JudgesCommunications Business Opportunities Engineering and TechnologyGeneral Counsel Inspector GeneralLegislative and Intergovernmental Affairs Managing DirectorMedia Relations Plans and PolicyWorkplace Diversity Administrative Law JudgesCommunications Business Opportunities Engineering and TechnologyGeneral Counsel Inspector GeneralLegislative and Intergovernmental Affairs Managing DirectorMedia Relations Plans and PolicyWorkplace Diversity
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Wireless Telecommunications Bureau Responsible for all FCC domestic wireless telecommunications programs & policies except satellite communications programs & policies except satellite communications or broadcasting. or broadcasting. Provide information, licensing, rulemaking, data storage for: Provide information, licensing, rulemaking, data storage for: Cellular telephones Paging services Personal communications services Public safety Commercial wireless services Private wireless services Auction spectrum Responsible for all FCC domestic wireless telecommunications programs & policies except satellite communications programs & policies except satellite communications or broadcasting. or broadcasting. Provide information, licensing, rulemaking, data storage for: Provide information, licensing, rulemaking, data storage for: Cellular telephones Paging services Personal communications services Public safety Commercial wireless services Private wireless services Auction spectrum
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The Process Notice of Inquiry (NOI): Gather information, generate ideas Notice of Proposed Rulemaking (NPRM): Propose rule changes and seek public comment changes and seek public comment Further Notice of Proposed Rulemaking (FNPRM): seek further public comment on specific issues seek further public comment on specific issues Report and Order (R&O): issue new rules, amend existing rules, make decisions not to do so; entered in Federal rules, make decisions not to do so; entered in Federal Register Register Petition for Reconsideration: Dissatisfied with issue resolution, within 30 days file for reconsideration resolution, within 30 days file for reconsideration Memorandum Opinion and Order (MO&O): response to petition for reconsideration petition for reconsideration Notice of Inquiry (NOI): Gather information, generate ideas Notice of Proposed Rulemaking (NPRM): Propose rule changes and seek public comment changes and seek public comment Further Notice of Proposed Rulemaking (FNPRM): seek further public comment on specific issues seek further public comment on specific issues Report and Order (R&O): issue new rules, amend existing rules, make decisions not to do so; entered in Federal rules, make decisions not to do so; entered in Federal Register Register Petition for Reconsideration: Dissatisfied with issue resolution, within 30 days file for reconsideration resolution, within 30 days file for reconsideration Memorandum Opinion and Order (MO&O): response to petition for reconsideration petition for reconsideration
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Core U.S. Goals for Spectrum Management Maximize efficient use of radio spectrumMaximize efficient use of radio spectrum Promote competitionPromote competition Expand accessExpand access Protect and promote the public interestProtect and promote the public interest Ensure ability of operators to adapt to new technologies, new services and new market needsEnsure ability of operators to adapt to new technologies, new services and new market needs Maximize efficient use of radio spectrumMaximize efficient use of radio spectrum Promote competitionPromote competition Expand accessExpand access Protect and promote the public interestProtect and promote the public interest Ensure ability of operators to adapt to new technologies, new services and new market needsEnsure ability of operators to adapt to new technologies, new services and new market needs Source: FCC Principles for Reallocation of Spectrum to Encourage the Development of Telecommunications Technologies for the New Millenium, 18 NOV 99
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Goal Implementation In the U.S., these core goals are achieved by: Allowing for flexible spectrum uses Enabling multiple competing technologies Minimizing the number of rules –to eliminate harmful interference –to promote competition Using auctions to assign licenses –Communications Act of 1934 –Omnibus Budget Reconciliation Act of 1993 –Telecommunications Act of 1996 –Balanced Budget Act of 1997 –Strom Thurmond National Defense Authorization Act for Fiscal Year 1999 for Fiscal Year 1999 In the U.S., these core goals are achieved by: Allowing for flexible spectrum uses Enabling multiple competing technologies Minimizing the number of rules –to eliminate harmful interference –to promote competition Using auctions to assign licenses –Communications Act of 1934 –Omnibus Budget Reconciliation Act of 1993 –Telecommunications Act of 1996 –Balanced Budget Act of 1997 –Strom Thurmond National Defense Authorization Act for Fiscal Year 1999 for Fiscal Year 1999
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Policy Implications - Flexibility Allowing flexibility in spectrum usage means that: License uses should not be restricted except to prevent interferenceLicense uses should not be restricted except to prevent interference (e.g., authorize fixed as well as mobile, data as well as voice) Operators should be allowed to evolve to more advanced servicesOperators should be allowed to evolve to more advanced services Allowing flexibility in spectrum usage means that: License uses should not be restricted except to prevent interferenceLicense uses should not be restricted except to prevent interference (e.g., authorize fixed as well as mobile, data as well as voice) Operators should be allowed to evolve to more advanced servicesOperators should be allowed to evolve to more advanced services
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Policy Implications - Technology Neutrality Technology Neutrality means that: Multiple & competing technologies are allowed and encouragedMultiple & competing technologies are allowed and encouraged Industry takes the lead in achieving interoperability/harmonization/standardizationIndustry takes the lead in achieving interoperability/harmonization/standardization Innovation is encouraged and led by industryInnovation is encouraged and led by industry Technology Neutrality means that: Multiple & competing technologies are allowed and encouragedMultiple & competing technologies are allowed and encouraged Industry takes the lead in achieving interoperability/harmonization/standardizationIndustry takes the lead in achieving interoperability/harmonization/standardization Innovation is encouraged and led by industryInnovation is encouraged and led by industry
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US Allows 2G Licensees To Evolve Into 3G Providers Incumbent services, such as cellular, PCS and ESMR, have regulatory flexibility to evolve to advanced services, such as IMT- 2000Incumbent services, such as cellular, PCS and ESMR, have regulatory flexibility to evolve to advanced services, such as IMT- 2000 However, merely granting regulatory flexibility to allow incumbents to deploy advanced services may not be sufficient to respond to anticipated demandHowever, merely granting regulatory flexibility to allow incumbents to deploy advanced services may not be sufficient to respond to anticipated demand Incumbent services, such as cellular, PCS and ESMR, have regulatory flexibility to evolve to advanced services, such as IMT- 2000Incumbent services, such as cellular, PCS and ESMR, have regulatory flexibility to evolve to advanced services, such as IMT- 2000 However, merely granting regulatory flexibility to allow incumbents to deploy advanced services may not be sufficient to respond to anticipated demandHowever, merely granting regulatory flexibility to allow incumbents to deploy advanced services may not be sufficient to respond to anticipated demand
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1755 2025188019201980 UMTS UNPAIRED 2010 21102170 17851805 171020252110 August 26, 2000 1885 TERRESTRIAL + HAPS TERRESTRIAL 1525 - 1559 1610 -1660.5 2483.5 - 2500 2500 - 2520 2670 - 2690 ADDITIONAL IMT-2000 SATELLITE (141 MHz) 171021652110 202518501990 1930 1910 GSM BASE GSM MOB MSS UPLINK (1980-2010) MSS DOWNLINK (2170-2200) UMTS MOB UMTS BASE DECT TDD (1890-1880) DECT UNPAIR MSSUP TO BE AUCT TO BE AUCT MSS DN GOVT FX, MOB, SAT PCS MOB PCS BASE PCSUNP G/NG MMDS(2150-2160) IMT -2000 TERRESTRIAL MSS (20 MHz) MDS, MMDS, ITFS 3G EUROPE & OTHERS U.S. 2690 2G EUROPE & OTHERS
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Three U.S. Goals for WRC-2000 Identify more than one band pair for IMT-2000 use.Identify more than one band pair for IMT-2000 use. –Different countries have different needs for mobile spectrum. Allow nations to choose among bands that are equally appropriate for IMT-2000 use.Allow nations to choose among bands that are equally appropriate for IMT-2000 use. –Mandatory harmonization stifles competition and technological development. Adopt a technologically-neutral band allocation.Adopt a technologically-neutral band allocation. –Industry decisions should rest on sound engineering, not on arbitrary government decisions. Identify more than one band pair for IMT-2000 use.Identify more than one band pair for IMT-2000 use. –Different countries have different needs for mobile spectrum. Allow nations to choose among bands that are equally appropriate for IMT-2000 use.Allow nations to choose among bands that are equally appropriate for IMT-2000 use. –Mandatory harmonization stifles competition and technological development. Adopt a technologically-neutral band allocation.Adopt a technologically-neutral band allocation. –Industry decisions should rest on sound engineering, not on arbitrary government decisions.
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Results of WRC-2000 WRC-2000 adopted an equitable, multi- band, technologically neutral approach for IMT-2000.WRC-2000 adopted an equitable, multi- band, technologically neutral approach for IMT-2000. Bands Identified for IMT-2000:Bands Identified for IMT-2000: –806-960 MHz (WRC-00, FN S5.XXX ) –1885-2025 MHz and 2110-2200 MHz (WARC-92, FN S5.388) –1710-1885 MHz and 2500-2690 MHz (WRC-00, FN S5.AAA Bottom Line - Need 160 MHz!Bottom Line - Need 160 MHz! WRC-2000 adopted an equitable, multi- band, technologically neutral approach for IMT-2000.WRC-2000 adopted an equitable, multi- band, technologically neutral approach for IMT-2000. Bands Identified for IMT-2000:Bands Identified for IMT-2000: –806-960 MHz (WRC-00, FN S5.XXX ) –1885-2025 MHz and 2110-2200 MHz (WARC-92, FN S5.388) –1710-1885 MHz and 2500-2690 MHz (WRC-00, FN S5.AAA Bottom Line - Need 160 MHz!Bottom Line - Need 160 MHz!
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United States Considering New Allocations for Advanced Services In December 2000 NPRM, FCC proposed allocating:In December 2000 NPRM, FCC proposed allocating: –2110-2150 MHz –2160-2165 MHz –1710-1755 MHz –Auction by 2002 Study Alternative BandsStudy Alternative Bands –1755-1850 MHz (Current DoD spectrum) –2500-2690 MHz (Current MDS/ITFS) In December 2000 NPRM, FCC proposed allocating:In December 2000 NPRM, FCC proposed allocating: –2110-2150 MHz –2160-2165 MHz –1710-1755 MHz –Auction by 2002 Study Alternative BandsStudy Alternative Bands –1755-1850 MHz (Current DoD spectrum) –2500-2690 MHz (Current MDS/ITFS)
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1755-1850 MHz in the U.S. DoD telecommand, telemetry and control of military satellitesDoD telecommand, telemetry and control of military satellites Military tactical radio-relayMilitary tactical radio-relay Government fixed microwaveGovernment fixed microwave Military instrumented rangesMilitary instrumented ranges Naval ship-ship, ship-shore digital wide- band voice and data linksNaval ship-ship, ship-shore digital wide- band voice and data links DoD telecommand, telemetry and control of military satellitesDoD telecommand, telemetry and control of military satellites Military tactical radio-relayMilitary tactical radio-relay Government fixed microwaveGovernment fixed microwave Military instrumented rangesMilitary instrumented ranges Naval ship-ship, ship-shore digital wide- band voice and data linksNaval ship-ship, ship-shore digital wide- band voice and data links Study Result: “Some” limited sharing possible; ~$ 4-5B relocation costs; long time frame ~$ 4-5B relocation costs; long time frame Study Result: “Some” limited sharing possible; ~$ 4-5B relocation costs; long time frame ~$ 4-5B relocation costs; long time frame
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2500-2690 MHz in the U.S. High-speed fixed wirelessHigh-speed fixed wireless –Multichannel Multipoint Distribution System (MMDS) –Instructional Fixed Television Service (ITFS) (ITFS) Former one-way multi-channel video programming providers prepare to launch two-way wireless broadband servicesFormer one-way multi-channel video programming providers prepare to launch two-way wireless broadband services High-speed fixed wirelessHigh-speed fixed wireless –Multichannel Multipoint Distribution System (MMDS) –Instructional Fixed Television Service (ITFS) (ITFS) Former one-way multi-channel video programming providers prepare to launch two-way wireless broadband servicesFormer one-way multi-channel video programming providers prepare to launch two-way wireless broadband services Study Result: Sharing not possible; relocation unlikely; ~$ 10-30 B to relocate unlikely; ~$ 10-30 B to relocate Study Result: Sharing not possible; relocation unlikely; ~$ 10-30 B to relocate unlikely; ~$ 10-30 B to relocate
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Next Steps for Additional 3G Allocations FCC NPRM on Additional 3G Spectrum issued December 2000 FCC and NTIA Final Sharing Reports Published in March 2001 FCC Report and Order on Additional 3G Spectrum by 3rd Quarter 2001 FCC Auction of Additional 3G Spectrum by 3rd Quarter 2002 FCC NPRM on Additional 3G Spectrum issued December 2000 FCC and NTIA Final Sharing Reports Published in March 2001 FCC Report and Order on Additional 3G Spectrum by 3rd Quarter 2001 FCC Auction of Additional 3G Spectrum by 3rd Quarter 2002
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700 MHz Band Auction of licenses in the 747-762 and 777-792 MHz band scheduled for September 2001 Bands slated for auction can be used to provide a wide range of advanced wireless services, including IMT-2000 Relocation of existing users (TV) and protection of public safety important issues for these bands Auction of licenses in the 747-762 and 777-792 MHz band scheduled for September 2001 Bands slated for auction can be used to provide a wide range of advanced wireless services, including IMT-2000 Relocation of existing users (TV) and protection of public safety important issues for these bands
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3G Additional Steps In November 2000, FCC issued NPRM on promoting secondary markets in spectrum (Report and Order expected in 2001) In December 2000, FCC issued NPRM on CMRS Spectrum Cap (Report and Order expected in 2001) In December 2000, FCC issued NPRM on software defined radio Comments on Studies due April 16, 2001 In November 2000, FCC issued NPRM on promoting secondary markets in spectrum (Report and Order expected in 2001) In December 2000, FCC issued NPRM on CMRS Spectrum Cap (Report and Order expected in 2001) In December 2000, FCC issued NPRM on software defined radio Comments on Studies due April 16, 2001
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Conclusion FCC is sensitive to the issues at hand! Following an equitable, regionally coherent and technologically neutral approach for IMT-2000: –Maximizes efficient use of radio spectrum –Promotes competition among users –Allows industry to implement new technologies and new services Converging services and public demand can be accommodated FCC is sensitive to the issues at hand! Following an equitable, regionally coherent and technologically neutral approach for IMT-2000: –Maximizes efficient use of radio spectrum –Promotes competition among users –Allows industry to implement new technologies and new services Converging services and public demand can be accommodated
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Federal Communications Commission Home Page: Home Page:http://www.fcc.gov/ Electronic Filing System: Electronic Filing System:http://www.fcc.gov/e-file/ Federal Communications Commission Home Page: Home Page:http://www.fcc.gov/ Electronic Filing System: Electronic Filing System:http://www.fcc.gov/e-file/ Bill Lane WTB, FCC Phone: 202-418-0676 Email: wlane@fcc.gov Bill Lane WTB, FCC Phone: 202-418-0676 Email: wlane@fcc.gov
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