DOCSLIB.ORG

Ultra Hd Via Satellite

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Ultra Hd Via Satellite VIDEO ULTRA HD VIA SATELLITE KEY FEATURES DELIVER AN UNPRECEDENTED VIEWING EXPERIENCE WITH → Bandwidth availability and wide CINEMA-LIKE PICTURE QUALITY coverage areas → Immediate reception of UHD The vision of the future is fast becoming 4K, RAI 4K, and 4K Universe have content across the satellite a reality for millions as the broadcast selected HEVC encoding to address industry adapts to Ultra HD (UHD), cable and IPTV head-ends, as well as coverage with consistent quality the new benchmark in commercial DTH homes across Europe and MENA. → Potential market of five million broadcasting. 4k and 8k UHD bring DTH pay-TV operators such as Sky + connected cable homes via higher resolution, progressive scanning, Italia, Canal Poland and Digiturk have higher frame rates, a broader range created their own 4k UHD channels. And HOTBIRD of colours, High(er) Dynamic Range DTT (Digital Terrestrial TV) via satellite → Global distribution and local (HDR), and immersive audio. Creating operators also play an active role in delivery of UHD services to TV a stunning immersive experience, it delivering 4k to households, including is surpassing consumer expectations Italy’s TivuSat and Fransat in France. and multiscreen today and will continue to do so for → Direct (DTH) and indirect decades to come. HEVC encoding for live events enables broadcasters and rights holders to deliver delivery feeding and Satellites are a natural platform for sports and other events at a lower bit rate complementing terrestrial broadcasting UHD content. Their than in MPEG-4. Several key sport events networks bandwidth availability enables several have been retransmitted live in 4K UHD, 4K UHD channels to be broadcast via satellite, such as the French Tennis → De-congestion of terrestrial per transponder. They are also ideal Open , the 2018 FIFA World Cup RussiaTM, networks from bandwidth heavy for 8K UHD requirements. With their and the FIFA Women’s World Cup France content wide coverage areas, they are the best 2019TM with DTT broadcasting via satellite solution for viewers to receive UHD in encryption protecting geographical rights. → 4k UHD demo channel in HEVC optimum quality, wherever they are on HOTBIRD for cable, IPTV and located within the satellite coverage. As 4K UHD takes off, with more than 115 pay-TV platforms million UHD TVs forecast to be shipped UHD broadcasting has been facilitated worldwide by end 2019*, broadcasters → 8K demo channel operated on with the improved compression rates of are looking at UHD to differentiate HOTBIRD in 2019 HEVC (High Efficiency Video Coding), their offer. Satellite provides the - around 40% better than MPEG-4. At perfect distribution platform to handle the HOTBIRD neighbourhood, channels bandwidth requirements, delivering including Fashion TV’s FTV UHD, Travelxp consistent quality to a maximum of 4K Myzen 4K, Museum 4K, Love Nature viewers across wide geographic regions. *Source: IHS Markit – January 2020 VIDEO ULTRA HD VIA SATELLITE 5° West / EUTELSAT 5 West A 7° East / EUTELSAT 7A/7B 11596 MHz Vertical Pol. 11492 MHz Vertical Pol.(Europe) → DVB-S2, 8PSK, 2/3 → DVB-S2, QPSK, 5/6 → Symbol rate : 29950 → Symbol rate : 30000 → Viaccess encryption → Irdeto encryption 12732 MHz вертикальная пол → DVB-S2, 8PSK, 2/3 → Symbol rate : 29950 Free To Air 13° East / HOTBIRD 10727 MHz Horizontal Pol. 11013 MHz Horizontal Pol. → DVB-S2, 8PSK, 3/4 → DVB-S2, 8PSK, 3/4 Free To Air Viaccess encryption → Symbol rate : 30000 → Symbol rate : 29900 Tivusat encryption : Nagravision (Italian DTT) Viaccess & Nagravision 4K (Tivusat) Viaccess & Nagravision (Tivusat) 12539 MHz Horizontal Pol. 10719 MHz Horizontal Pol. → DVB-S2, 8PSK, 5/6 → DVB-S2, 8PSK, 3/4 → Symbol rate : 30000 FTA FTA → Символьная скорость : 27500 → Nagravision encryption 12.207 MHz Horizontal Pol. Free encryption Viaccess & Nagravision → DVB-S2, 8PSK, 5/6 (Tivusat) → Symbol rate : 29900 Sky 4k HDR Videoguard encryption 36° East / EUTELSAT 36B/36C 11862 MHz RHCP 12054 MHz RHCP → DVB-S2, 8PSK, 3/4 → DVB-S2 → Symbol rate : 27500 → Symbol rate : 27500 → Viaccess encryption (NTV Plus) → DRE Crypt (Tricolor TV) 12360 MHz RHCP 12476 MHz RHCP → DVB-S2, 8PSK → DVB-S2, 8PSK, 3/4 → Symbol rate : 27500 → Symbol rate : 27500 → DRE Crypt (Tricolor TV) → DRE Crypt (Tricolor TV) 11958 MHz LHCP → DVB-S2, 8 PSK, 3/4 → Symbol rate : 27500 → DRE Crypt (Tricolor TV) 56° East / Express AT1 140° East / Express AT2 12092 MHz RHCP 12226 MHz LHCP → DVB-S2, 8PSK, 5/6 → DVB-S2, 8PSK, 3/4 → Symbol rate : 27500 → Symbol rate : 27500 → Viaccess encryption (NTV Plus) → Viaccess encryption (NTV Plus) 11881 MHz LHCP → DVB-S2, 8PSK, 3/4 → Symbol rate : 27500 → DRE Crypt (Tricolor TV) What can we do for you? Please visit www.eutelsat.com/enquiries video_ETL_Eutelsat UHD_2p_EN.0120.
Load more

Recommended publications
  • Realizing Resilient Tactical Networks with Maximum Government Control on High-Throughput Satellites
    WHITE PAPER Realizing Resilient Tactical Networks with Maximum Government Control on High-throughput Satellites 1 Wide-beam connectivity is an essential aspect of military satellite communications and High Throughput Satellite (HTS) technology is proving to be ideally suited for many Government applications. While most satellite operators offer closed HTS architectures that are vendor-locked with very little control offered to users, the Intelsat Epic Next Generation (Epic) HTS architecture is enterprise- grade, open architecture and vendor-agnostic. Intelsat Epic allows Government and military access to bandwidth-efficient, higher data throughputs on a global-scale via a wide variety of user-chosen waveforms, modems and antennas. Intelsat is proud to present the next generation of satellite communications that features higher data throughput rates and security while offering cost-efficiencies across the board. Introduction High Throughput Satellites (HTS) have been the center of solutions. Interoperability between the various military attention for the past five years. It is important to note that branches, allied, and coalition forces continues to be a most of these systems have been purpose-built solutions to challenge. Finally, most military and government users require service homogeneous sets of users via closed architectures. operational coverage in remote and austere regions such Systems such as ViaSat Exede, Inmarsat Global Express, Hughes as deserts, jungles, and oceans—well outside of population Jupiter, and Eutelsat KA-SAT require new investments in centers for which these closed architectures are optimized. proprietary modem technologies and service architectures. These closed systems offer star-only connectivity and keep With the disconnects between these closed HTS solutions and quality of service control with the service provider, not the end the challenges faced by the Government, it is no wonder that users.
    [Show full text]
  • Spectrum and the Technological Transformation of the Satellite Industry Prepared by Strand Consulting on Behalf of the Satellite Industry Association1
    Spectrum & the Technological Transformation of the Satellite Industry Spectrum and the Technological Transformation of the Satellite Industry Prepared by Strand Consulting on behalf of the Satellite Industry Association1 1 AT&T, a member of SIA, does not necessarily endorse all conclusions of this study. Page 1 of 75 Spectrum & the Technological Transformation of the Satellite Industry 1. Table of Contents 1. Table of Contents ................................................................................................ 1 2. Executive Summary ............................................................................................. 4 2.1. What the satellite industry does for the U.S. today ............................................... 4 2.2. What the satellite industry offers going forward ................................................... 4 2.3. Innovation in the satellite industry ........................................................................ 5 3. Introduction ......................................................................................................... 7 3.1. Overview .................................................................................................................. 7 3.2. Spectrum Basics ...................................................................................................... 8 3.3. Satellite Industry Segments .................................................................................... 9 3.3.1. Satellite Communications ..............................................................................
    [Show full text]
  • GEO, Geonetcast and Building a Low Cost Ground Receiving Station
    GEO, GEONETCast and building a low cost ground receiving station Ben Maathuis & Chris Mannaerts Dept Water Resources ITC-Enschede, The Netherlands Layout of presentation . Group on Earth Observation (GEO) . Global EO System of Systems . EUMETSAT’s contribution to GEO: EUMETCast . Services and data broadcasted . Ground reception system components . Data Management . Concluding remarks GEO: the Group on Earth Observations An Intergovernmental Organization with 89 Member Countries, the European Commission and around 67 Participating Organizations U.S. Department of State, Washington DC July 31, 2003 GEO objectives . Improve and coordinate earth (land & ocean) observation systems . Provide easier and more open data access . Foster use (science, applications) also through capacity building … to answer Society’s need for informed decision making GOAL of GEO: GOAL GEOSS: A Global, Coordinated, Comprehensive and Sustained System of Observing Systems GEO open data access & sharing principles • Open Access & exchange of data (globally) from Airborne, Space based and In Situ Observation Systems • Data and Products at Minimum Time delay and Minimum Cost • Free of Charge or cost of reproduction for Research and Education GEONETCast as backbone for data provision GEONETCast provides free near real-time environmental and Earth observation data and derived products to a worldwide user community using a telecommunication satellite based data distribution system. GEONETCast – system layout Layout of the GEONETCast telecommunication satellite based data distribution system GEONETCast - Africa Near real-time satellite image reception using a communication satellite based data distribution system, example MSG GEONETCast - Africa After central ground processing at EUMETSAT, images in full resolution are transmitted in HRIT mode, within five minutes of observation….
    [Show full text]
  • Disaster Emergency Logistic Telemedicine Advanced Satellites System (DELTASS) Telecommunication System Overview
    Disaster Emergency Logistic Telemedicine Advanced Satellites System (DELTASS) Telecommunication system overview M E D I C A L Presentation at ITU - May 23 to 25, 2003 J.-C. Durand DEE/NSA DELTASS Disaster Emergency Logistic Telemedecine Advanced Satellite System Inmarsat Mobile Field Hospital Eutelsat GPS Globalstar Mobile teams Reference Hospital Gateway Permanent Center Presentation at ITU - May 23 to 25, 2003 J.-C. Durand DEE/NSA DELTASS Components § In a “safe location”: - the Permanent Centre (PC). It is permanently operational and can be activated in case of relevant disaster. Its role is to trigger the whole system, to be the coordination centre during the deployment phase and to manage a first medical data base and a log of all communications. (Located in Toulouse during the DELTASS demonstrations) - a Reference Hospital (RH). To be chosen depending on the country and on the disaster type and location. Its role is to be a medical support to the MFH and to host a medical data base, identical to the MFH one. (Located in Berlin during the main DELTASS demonstration) § On the disaster field (near Toulouse, then near Ulm): - several Search And Rescue teams (SAR). They recover the victims, install them on a safe place, fill in a NATO medical form and send the content together with a GPS information to the coordination centre. - a First Medical Aid team (FMA). They are equipped with a medical suitcase and can bring a first medical assistance to victims, on request of the coordination centre. The collected medical data and a GPS information are sent to the coordination centre.
    [Show full text]
  • Eutelsat S.A. €300,000,000 3.125% Bonds Due 2022 Issue Price: 99.148 Per Cent
    EUTELSAT S.A. €300,000,000 3.125% BONDS DUE 2022 ISSUE PRICE: 99.148 PER CENT The €300,000,000 aggregate principal amount 3.125% per cent. bonds due 10 October 2022 (the Bonds) of Eutelsat S.A. (the Issuer) will be issued outside the Republic of France on 9 October 2012 (the Bond Issue). Each Bond will bear interest on its principal amount at a fixed rate of 3.125 percent. per annum from (and including) 9 October 2012 (the Issue Date) to (but excluding) 10 October 2022, payable in Euro annually in arrears on 10 October in each year and commencing on 10 October 2013, as further described in "Terms and Conditions of the Bonds - Interest"). Unless previously redeemed or purchased and cancelled in accordance with the terms and conditions of the Bonds, the Bonds will be redeemed at their principal amount on 10 October 2022 (the Maturity Date). The Issuer may at its option, and in certain circumstances shall, redeem all (but not part) of the Bonds at par plus any accrued and unpaid interest upon the occurrence of certain tax changes as further described in the section "Terms and Conditions of the Bonds - Redemption and Purchase - Redemption for tax reasons". The Bondholders may under certain conditions request the Issuer to redeem all or part of the Bonds following the occurrence of certain events triggering a downgrading of the Bonds as further described in the Section "Terms and Conditions of the Bonds — Redemption and Purchase - Redemption following a Change of Control". The obligations of the Issuer in respect of principal and interest payable under the Bonds constitute direct, unconditional, unsecured and unsubordinated obligations of the Issuer and shall at all times rank pari passu among themselves and pari passu with all other present or future direct, unconditional, unsecured and unsubordinated obligations of the Issuer, as further described in "Terms and Conditions of the Bonds - Status".
    [Show full text]
  • How to Connect and Grow Iot Services Globally
    CONNECTIVITY HOW TO CONNECT AND GROW IOT SERVICES GLOBALLY www.eutelsat.com IoT SERVICES CONTENT INTRODUCTION THE INTERNET OF THINGS 3 WHY IoT IS VITAL FOR BUSINESSES 3 THE CHALLENGES AND OPPORTUNITIES FOR IoT THE CHALLENGES OF IoT 5 THE OPPORTUNITIES FOR IoT 6 SELECTING YOUR IoT NETWORK HOW TO SELECT THE RIGHT TYPE OF CONNECTIVITY SOLUTION 9 HOW TO EXTEND IOT NETWORKS 14 CONCLUSION CONNECTING IoT ALL 15 IoT FIRST - THE FIRST STEP TOWARDS A CONNECTED FUTURE 15 IoT SERVICES INTRODUCTION THE INTERNET OF THINGS (IOT) IS SET TO THE INTERNET OF THINGS CHANGE THE WAY WE INTERACT WITH The Internet of Things is quite simply the way the EACH OTHER, BUSINESS, GOVERNMENT world is going. It describes how objects are starting AND SOCIETY. IT IS THE SINGLE MOST to become connected, communicating data and REVOLUTIONARY CONCEPT THAT WILL DEFINE relaying orders without requiring human-to-human or HOW PEOPLE WILL THRIVE, HOW RURAL even human-to-computer interaction. COMMUNITIES WILL GROW, AND HOW THE JOB IoT means that, because everything is connected, MARKET WILL SHIFT IN THE COMING YEARS. hundreds of decisions and actions can be automated IoT is responsible for the most substantial economic based on the data received from remote devices, growth in human history to date1 , and the IoT global and human input can be informed by immediate market is set to reach over US$1100 billion by 2026 information gained from sources around the world. with a phenomenal growth rate of 24.7% . Rural, as In other words, IoT is the next evolution of well as urban environments, will be forever changed.
    [Show full text]
  • Vom D Heft Nr. 258 / 18MB
    W E L T R A U M - PHILATELI E Mitteilungsblatt Daheim bei Hermann Oberth: Nr. 258 ISSN 0948-6097 Jahreshauptversammlung 2015 Weltraum Philatelie e. V. 1. Vorsitzender, Geschäftsstelle : Dr. Stephen Lachhein, Schöne Aussicht 3c, 51381 Leverkusen, e-mail: [email protected] Stellv. Vorsitzender, Schriftführer, Mitteilungsblatt, Eil-Informationsdienst: Jürgen Peter Esders, Rue Paul Devigne 21-27, #6, 1030 Bruxelles, Belgien. E-mail: jpes- [email protected], Tel. +32 2 248.26.20 Schatzmeister: Michael Anderiasch, Irkensbusch 12 b, 46535 Dinslaken, Tel. 02064/970418, e-mail: [email protected] Beisitzer: Dr. Hans-Ferdinand Virnich, Bergstraße 1, 35764 Sinn, e-mail: [email protected] Siegfried Zimmerer, Stuttgarter Straße 177, 70469 Stuttgart-Feuerbach, e-mail: siegfried.zimmerer@t- online.de Mitgliedsbeitrag mit BDPh-Mitgliedschaft: 44 Euro Mitgliedsbeitrag ohne BDPh-Mitgliedschaft: 25 Euro Jugendliche: 10 Euro Bankverbindung: Kreissparkasse Waiblingen (BLZ 602 500 10), Konto Nr. 8 225 801 IBAN: DE73 6025 0010 0008 2258 01 – BIC: SOLADE S1 WBN Paypal: [email protected] Impressum : Weltraum Philatelie, Mitteilungsblatt ISSN 0948-6097 Herausgeber : Weltraum Philatelie e. V., Sitz Stuttgart, in Zusammenarbeit mit den Gmünder Weltraumfreunden, Gmünd/Österreich Verantwortlicher Redakteur (verantwortlich im Sinne der Pressegesetze): Jürgen Peter Esders, Brüssel, Belgien Auflage: bis zu 450 Exemplaren. Das Mitteilungsblatt erscheint 4 mal jährlich. Druck: Kopierbüro Schmidt, Markt 11, 01471 Radeburg, http://www.kopierschmidt.de Redaktionelle Beiträge von Vereinsmitgliedern oder Außenstehenden können ohne Begründung abge- lehnt. Kürzungen oder sinnenthaltende Textänderungen sowie eine Veröffentlichung zu einem späteren Zeitpunkt bleiben der Schriftleitung vorbehalten. Mit Verfassernamen oder Pseudonym gezeichnete Beiträge müssen nicht unbedingt mit der Meinung der Vorstandsmitglieder übereinstimmen bzw. können deren private Meinung darstellen.
    [Show full text]
  • Eutelsat S.A. €800,000,000 2.000 Per Cent Bonds Due 2 October 2025 Issue Price: 99.400 Per Cent
    EUTELSAT S.A. €800,000,000 2.000 PER CENT BONDS DUE 2 OCTOBER 2025 ISSUE PRICE: 99.400 PER CENT The €800,000,000 aggregate principal amount 2.000 per cent. bonds due 2 October 2025 (the Bonds , and each a Bond ) of Eutelsat S.A. (the Issuer ) will be issued on 2 October 2018 (the Bond Issue ). Each Bond will bear interest on its principal amount at a fixed rate of 2.000 per cent. per annum from (and including) 2 October 2018 (the Issue Date ) to (but excluding) 2 October 2025, payable in Euro annually in arrears on 2 October of each year and commencing on 2 October 2019, as further described in "Terms and Conditions of the Bonds – Interest". Unless previously redeemed or purchased and cancelled in accordance with their terms and conditions, the Bonds will be redeemed at their principal amount on 2 October 2025 (the Maturity Date ). The Issuer may, at its option, and in certain circumstances shall, redeem all (but not part) of the Bonds at par plus any accrued and unpaid interest upon the occurrence of certain tax changes as further described in "Terms and Conditions of the Bonds – Redemption and Purchase – Redemption for tax reasons". The Bonds may also be redeemed (i) at the option of the Issuer, in whole or in part, at any time, prior to the Maturity Date, as further described in "Terms and Conditions of the Bonds — Redemption and Purchase — Make Whole Redemption by the Issuer", (ii) at any time prior to the Maturity Date, in whole (but not in part), at par plus accrued interest, if eighty (80) per cent.
    [Show full text]
  • ESOG 120 Issue 8 – Rev
    TYPE APPROVAL AND CHARACTERIZATION PROCEDURES ESOG 120 Issue 8 – Rev. 1, May 2021 Antennas and Transmissions Team Antenna and VSAT Type Approval/Characterization ESOG 120 – Issue 8 - Rev. 1 May 2021 Antennas and VSATs Type Approval / Characterization Table of Contents Forward .................................................................................................................................. v 1 Overview of the ESOG modules ...................................................................................... 6 1.1 Volume I: Eutelsat S.A. system management and policies ........................................................ 6 1.2 Volume II: Eutelsat S.A. system operations and procedures ..................................................... 6 2 Introduction ................................................................................................................... 7 2.1 About this document .................................................................................................................. 7 2.2 Disclaimer ................................................................................................................................... 7 2.3 Eutelsat certification .................................................................................................................. 7 2.3.1 Type Approval ........................................................................................................................ 8 2.3.2 Characterization ....................................................................................................................
    [Show full text]
  • Classification of Geosynchronous Objects
    esoc European Space Operations Centre Robert-Bosch-Strasse 5 D-64293 Darmstadt Germany T +49 (0)6151 900 www.esa.int CLASSIFICATION OF GEOSYNCHRONOUS OBJECTS Produced with the DISCOS Database Prepared by T. Flohrer & S. Frey Reference GEN-DB-LOG-00195-OPS-GR Issue 18 Revision 0 Date of Issue 3 June 2016 Status ISSUED Document Type TN European Space Agency Agence spatiale europeenne´ Abstract This is a status report on geosynchronous objects as of 1 January 2016. Based on orbital data in ESA’s DISCOS database and on orbital data provided by KIAM the situation near the geostationary ring is analysed. From 1434 objects for which orbital data are available (of which 2 are outdated, i.e. the last available state dates back to 180 or more days before the reference date), 471 are actively controlled, 747 are drifting above, below or through GEO, 190 are in a libration orbit and 15 are in a highly inclined orbit. For 11 objects the status could not be determined. Furthermore, there are 50 uncontrolled objects without orbital data (of which 44 have not been cata- logued). Thus the total number of known objects in the geostationary region is 1484. In issue 18 the previously used definition of ”near the geostationary ring” has been slightly adapted. If you detect any error or if you have any comment or question please contact: Tim Flohrer, PhD European Space Agency European Space Operations Center Space Debris Office (OPS-GR) Robert-Bosch-Str. 5 64293 Darmstadt, Germany Tel.: +49-6151-903058 E-mail: tim.fl[email protected] Page 1 / 178 European Space Agency CLASSIFICATION OF GEOSYNCHRONOUS OBJECTS Agence spatiale europeenne´ Date 3 June 2016 Issue 18 Rev 0 Table of contents 1 Introduction 3 2 Sources 4 2.1 USSTRATCOM Two-Line Elements (TLEs) .
    [Show full text]
  • Regulation of Global Broadband Satellite Communications April 2012
    REGULATORY & MARKET ENVIRONMENT International Telecommunication Union Telecommunication Development Bureau Place des Nations CH-1211 Geneva 20 REGULATION OF Switzerland www.itu.int GLOBAL BROADBAND SATELLITE COMMUNICATIONS Broadband Series APRIL 2012 Printed in Switzerland Telecommunication Development Sector Geneva, 2012 04/2012 Regulation of Global Broadband Satellite Communications April 2012 . This report has been prepared for ITU by Rajesh Mehrotra, Founder and Principal Consultant, Red Books. The report benefited from extensive review and guidance from the team of the Regulatory and Market Environment Division (RME) of the Telecommunication Development Bureau (BDT). ITU wishes to express thanks to John Alden for editing the paper and to the International Telecommunications Satellite Organization (ITSO) for their comments and advice. This report is part of a new series of ITU reports on broadband that are available online and free of charge at the ITU Universe of Broadband portal: www.itu.int/broadband. Please consider the environment before printing this report. ITU 2012 All rights reserved. No part of this publication may be reproduced, by any means whatsoever, without the prior written permission of ITU. Regulation of global broadband satellite communications Table of Contents Page Preface .......................................................................................................................................... iii Foreword .....................................................................................................................................
    [Show full text]
  • Satellite and Terrestrial Hybrid Networks
    RTT TECHNOLOGY TOPIC July 2007 Satellite and terrestrial hybrid networks In this month's Technology Topic we analyze how the dynamics of the satellite business are changing and what this means for the global cellular operator and terrestrial broadcasting community. In particular we study the impact of hybrid satellite terrestrial systems on present cellular and terrestrial broadcast business models. Dual mode networks that combine satellite and GSM cellular services already exist. Thuraya, a network operator servicing the United Arab Emirates and ACeS servicing Asia are two present examples. Hybrid satellite/terrestrial systems are different in that they use terrestrial repeaters to combine the wide area coverage capabilities of satellites with the urban coverage and in building capabilities provided from terrestrial networks. These may or may not be associated with existing cellular or terrestrial broadcast networks. The terrestrial repeaters are described in the US as Ancillary Terrestrial Components (ATC) and in Europe and Asia as Ground Based Components. In China the networks are described as Satellite and Terrestrial Interactive Multi Service Infrastructure (STiMI). Hybrid networks are already used in the US to deliver audio broadcasting for in car and more recently in flight entertainment. Widespread deployments of these systems are planned both for audio and TV broadcasting and for two way cellular service provision. These deployments exploit already allocated L Band and S Band spectrum in US and rest of the world markets. Some of this spectrum has been gifted to the operators. Typically these allocations are not owned by traditional terrestrial cellular or terrestrial broadcast service providers. As such they represent a competitive threat and by implication a collaborative opportunity for the cellular network operator and traditional terrestrial broadcast community.
    [Show full text]