Verfügbarkeit: Broadband services

Broadband services: business models and technologies for community networks

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Bibliographische Detailangaben
Format:	Buch
Sprache:	English
Veröffentlicht:	Chichester [u.a.] Wiley 2005
Schlagworte:	Broadband communication systems Electronic villages (Computer networks) Breitbandkommunikation
Online-Zugang:	Table of contents Inhaltsverzeichnis
Beschreibung:	Includes bibliographical references and index
Beschreibung:	XXIII, 276 S. Ill.
ISBN:	0470022485

Internformat

MARC


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Datensatz im Suchindex

_version_	1804135277328859136
adam_text	BROADBAND SERVICES BUSINESS MODELS AND TECHNOLOGIES FOR COMMUNITY NETWORKS EDITED BY IMRICH CHLAMTAC CREATENET RESEARCH CONSORTIUM ASHWIN GUMASTE FUJITSU LABORATORIES, DALLAS, USA AND CSABA A. SZABOE BUDAPEST UNIVERSITY OF TECHNOLOGY AND ECONOMICS, BUDAPEST, HUNGARY JOHN WILEY &. SONS, LTD CONTENTS FOREWORD XV ABOUT THE EDITORS XVII LIST OF CONTRIBUTORS XIX ACKNOWLEDGMENTS XXV 1 INTRODUCTION 1 IMRICH CHLAMTAC, ASHWIN GUMASTE AND CSABA A. SZABO 1.1 WHAT IS BROADBAND? 1 1.2 THE OBJECTIVES OF THIS BOOK 3 1.3 BOOK OUTLINE 4 PART ONE APPLICATIONS AND SERVICES 9 2 BROADBAND HOME/ENTERTAINMENT SERVICES 11 ARIEH MOLLER AND ROY ISACOWITZ 2. 1 INTRODUCTION 11 2.2 CURRENT BROADBAND AND HOME ENTERTAINMENT MARKETS 12 2.2.1 TE LEVIS ION 13 2.2.2 MOBILE 14 2.2.3 CONSUMERPRODUCTS 15 2.3 WHAT DRIVES BROADBAND? 15 2.4 FUTURE BROADBAND ENTERTAINMENT SERVICES 17 2.4.1 TELEVISION AND VIDEO 18 2.4.2 GAMES 18 2.4.3 MUSIC 19 2.4.4 GAMBLING 19 2.4.5 INTERNET 20 2.4.6 MOBILE 21 2.5 CONSUMER DEMOGRAPHICS 22 2.6 PAYING FOR CONTENT 23 2.7 SECURITY STANDARDS 24 2.7.1 DVB (WWW.DVB.ORG) 24 2.7.2 3GPP (WWW.3GPP.ORG) 24 VI CONTENTS 2.7.3 3GPP2 (WWW.3GPP2.ORG) 24 2.7.4 OMA - OPEN MOBILE ALLIANCE (WWW.OPENMOBILEALLIANCE.ORG) 25 2.7.5 TCG (WWW.TRUSTEDCOMPUTINGGROUP.ORG) 25 2.7.6 SVP (WWW.SVP-CP.ORG) 25 2.7.7 WPA (WWW.WIFIALLIANCE.COM/OPENSECTION/PROTECTED-ACCESS.ASP) 25 2.8 SUMMARY 25 3 APPLICATIONS AND SERVICES TO MEET SOCIETY-RELATED NEEDS 27 CSABAA. SZABOE 3.1 INTRODUCTION 27 3.2 E-EDUCATION APPLICATIONS 28 3.2.1 VIRTUAL CLASSROOMS 28 3.2.2 WEB-BASED LEARNING 29 3.2.3 TECHNOLOGY OF E-EDUCATION 30 3.3 TELEMEDICINE APPLICATIONS 33 3.3.1 WHAT IS TELEMEDICINE? 3 3 3.3.2 OVERVIEW OF TELEMEDICINE APPLICATIONS 34 3.3.3 REQUIREMENTS WHEN TRANSMITTING MEDICAL DIAGNOSTIC INFORMATION 36 3.3.4 VIDEOCONFERENCING IN TELEMEDICINE 39 3.3.5 HOW DOES SOCIETY BENEFITFROM TELEMEDICINE? 42 3.4 E-GOVERNMENT APPLICATIONS 42 3.4.1 OVERVIEW 42 3.4.2 PROVIDING ACCESS TO E-GOVERNMENT SERVICES 43 3.5 SUMMARY 44 PART TWO BUSINESS MODELS 47 4 KEY LEGAL AND REGULATORY ISSUES AFFECTING COMMUNITY BROADBAND PROJECTS IN THE UNITED STATES 49 SEAN A. STOKES AND JIM BALLER 4.1 INTRODUCTION 49 4.2 THE BENEFITS OF PUBLIC FIBER-TO-THE-HOME (FTTH) SYSTEMS 49 4.3 BURDENS AND RISKS OF PUBLIC BROADBAND SYSTEMS 50 4.4 LEGAL AUTHORITY OF PUBLIC ENTITIES TO PROVIDE COMMUNICATION SERVICES 51 4.4.1 FEDERAL LAW ENCOURAGES, BUT DOES NOT AFFIRMATIVELY EMPOWER, LOCAL GOVERNMENTS TO PROVIDE COMMUNICATIONS SERVICES 53 4.4.2 STATE LAWS AFFECTING THE AUTHORITY OF PUBLIC ENTITIES TO PROVIDE COMMUNICATIONS SERVICES 56 4.4.3 LOCAL RESTRICTIONS 58 4.5 INVOLVEMENT MODEIS AND STRUCTURES 58 4.6 OTHER CONSIDERATIONS 59 4.7 FEDERAL REGULATORY ISSUES 60 4.7.1 KEY DEFINITIONS 60 4.7.2 IMPLICATIONS OFKEY DEFINITIONS 61 4.7.3 ACCESS TO INCUMBENT NETWORK ELEMENTS UNDER SECTION 251(C)(3) 63 4.7.4 POLE ATTACHMENTS 64 CONTENTS VII 4.7.5 UNIVERSAL SERVICE 65 4.7.6 OTHER IMPORTANT FEDERALPROVISIONS 66 4.8 STATE REGULATORY ISSUES 67 4.8.1 CERTIFICATION 67 4.8.2 TARIFFS 67 4.8.3 ANNUAL REPORTS 67 4.8.4 UNIVERSAL SERVICE AND OTHER CONTRIBUTIONS 67 4.8.5 REGULATORY FEES 68 4.8.6 INTERCONNECTION AGREEMENTS 68 4.9 SUMMARY 68 5 EUROPEAN TELECOMMUNICATION LAW AND COMMUNITY NETWORKS 69 GIOVANNI PASCUZZI AND ANDREA ROSSATO 5.1 INTRODUCTION 69 5.2 HISTORICAL BACKGROUND 70 5.2.1 THE LIBERALIZATION PERIOD 70 5.2.2 THE HARMONIZATION EFFORT 71 5.3 THE NEW REGULATORY FRAMEWORK 73 5.3.1 LIBERALIZATION 74 5.3.2 NATIONAL REGULATORY AUTHORITIES 75 5.3.3 GENERAL AUTHORIZATION 76 5.3.4 ACCESS AND INTERCONNECTION 11 5.3.5 UNIVERSAL SERVICE 78 5.3.6 RADIO LOCAL AREA NETWORKS 79 5.3.7 E-PRIVACY 79 5.4 MEMBER STATES IMPLEMENTATION: THE ITALIAN CASE 80 5.4.1 THE ITALIAN ELECTRONIC COMMUNICATIONS CODE 80 5.4.2 INTERNET SERVICE PROVISION 82 5.4.3 RADIO LOCAL AREA NETWORKS 83 5.4.4 A CASE STUDY: PROVINCIA AUTONOMA DI TRENTO AND INFORMATICA TRENTINA 83 5.5 SUMMARY 83 6 MODELS FOR PUBLIC SECTOR INVOLVEMENT IN REGIONAL AND LOCAL BROADBAND PROJECTS 85 GARETH HUGHES 6.1 INTRODUCTION 85 6.2 OVERVIEW OF MODEIS FOR PUBLIC INVOLVEMENT 85 6.2.7 COMMUNITY-OPERATED NETWORKS AND SERVICES 86 6.2.2 CARRIER S CARRIER MODEL 87 6.2.3 PASSIVE INFRASTRUCTURE MODEL 88 6.2.4 FIBER CONDOMINIUM 89 6.2.5 AGGREGATION OFDEMAND 90 6.2.6 SUMMARY OF MODEIS 91 6.3 FINANCIAL PROFILES OF DIFFERENT MODEIS 91 6.4 PUBLIC-PRIVATE PARTNERSHIPS 93 CONTENTS 6.5 LEGAL AND ECONOMIC CONSIDERATIONS RELATING TO MODEIS 94 6.5.1 AGGREGATION OF PUBLIC SECTOR DEMAND 9 5 6.5.2 FINANCIAL AID TO AN OPERATOR 95 6.5.3 COMMUNITY-OPERATED NETWORKS AND SERVICES 96 6.5.4 CARRIER S CARRIER MODEL 96 6.5.5 PASSIVE INFRASTRUCTURE MODEL 96 6.6 SUMMARY 101 CUSTOMER-OWNED AND MUNICIPAL FIBER NETWORKS 103 BILL ST. ARNAUD 7.1 INTRODUCTION 103 7.1.1 CUSTOMER-OWNED DARK FIBER 103 7.7.2 CONDOMINIUMFIBER 104 7.1.3 COMMUNITY OR MUNICIPAL FIBER NERWORKS 105 7.2 ADVANTAGES OF CUSTOMER-OWNED DARK FIBER/MUNICIPAL FIBER TO DIFFERENT USERS AND BUSINESSES 105 7.2.1 PUBLIC INSTITUTIONS 105 7.2.2 BUSINESS ORGANIZATIONS 107 7.2.3 OFFICE BUILDING OWNERS AND MANAGERS 108 7.2.4 CONSUMERS OR HOME OWNERS 109 7.2.5 MUNICIPALITIES AND GOVERNMENTS 110 7.3 DEPLOYMENT OF MUNICIPAL FIBER NETWORKS 110 7.3.1 RIGHTS OF WAY AND MUNICIPAL ACCESS AGREEMENTS (MAAS) 110 7.3.2 CARRIER NEUTRAL COLLOCATION FACILITIES 111 7.3.3 EQUIPMENT TO LIGHT UP DARK FIBER 11 2 7.4 COSTANALYSIS 112 7.4.1 OVERVIEW 112 7.4.2 SOME DETAILED COST COMPONENTS OF CUSTOMER-OWNED DARK FIBER 113 7.4.3 ONGOING YEARLY COSTS FOR CUSTOMER-OWNED DARK FIBER 115 7.5 OPERATION AND MANAGEMENT 116 7.5.1 RELIABILITY OF DARK FIBER 116 7.5.2 OPERATION AND MAINTENANCE 116 7.6 SUMMARY 117 TOWARDS A TECHNOLOGICALLY AND COMPETITIVELY NEUTRAL FIBER-TO-THE-HOME (FTTH) INFRASTRUCTURE 119 ANUPAM BANERJEE AND MARVIN SIRBU 8.1 INTRODUCTION 119 8.2 MODELS FOR COMPETITION IN TELECOMMUNICATIONS 120 8.2.1 FACILITIES-BASED COMPETITION 120 8.2.2 NON FACILITIES-BASED COMPETITION OR SERVI.EE LEVEL COMPETITION 120 8.3 FIBER-TO-THE-HOME ARCHITECTURES 121 8.3.1 HOME RUN FIBER 122 8.3.2 ACTIVE STAR 123 8.3.3 PASSIVE STAR (PASSIVE OPTICAL NETWORK-PON) 123 8.3.4 WDM PASSIVE OPTICAL NETWORKS 126 CONTENTS IX 8.4 ECONOMICS OF FIBER-TO-THE-HOME 126 8.4.1 COST MODEL ASSUMPTIONS 12 6 8.4.2 COST MODEL RESULTS 127 8.4.3 OFAP AS A REAL OPTION: PON DESIGN UNDER UNCERTAINTY 127 8.4.4 SENSITIVITY ANALYSIS 131 8.5 COMPETITION, FTTH ARCHITECTURE AND INDUSTRY STRUCTURE 132 8.5.1 FACILITIES-BASED COMPETITION 132 8.5.2 COMPETITION AT THE OPTICAL LAYER 132 8.5.3 DATA LINK LAYER (UNE-BASED) COMPETITION 133 8.5.4 NETWORK (AND HIGHER) LAYER-BASED (OPEN ACCESS) COMPETITION 134 8.5.5 WHY UNE-BASED COMPETITION MAY BE PREFERABLE TO OPEN ACCESS-BASED COMPETITION 134 8.5.6 NECESSARY CONDITIONS FOR COMPETITION IN FTTH 135 8.5.7 INDUSTRY STRUCTURE, FIBER OWNERSHIP AND COMPETITION 136 8.6 SUMMARY 138 PART THREE TECHNOLOGY 141 9 BACKBONE OPTICAL NETWORK DESIGN FOR COMMUNITY NETWORKS 143 ASHWIN GUMASTE, CSABAA. SZABOE ANDLMRICH CHLAMTAC 9.1 INTRODUCTION 143 9.2 DESIGN CONSIDERATIONS FOR COMMUNITY METRO NETWORKS 144 9.2.7 THE FIRST GENERATION METRO RINGS 145 9.2.2 THE WDM SOLUTION 147 9.2.3 THE ETHERNET SOLUTION 148 9.2.4 RESILIENT PACKET RINGS (RPR) 15 2 9.3 FUNCTIONS OF THE BACKBONE: AGGREGATION AND TRANSPORT - EVOLUTION OF THE MSPP AND MSTP CONCEPTS 152 9.4 THE OPTICAL BACKBONE: DESIGN AND ELEMENTS 155 9.4.1 ROUTING AND WAVELENGTH ASSIGNMENT: A PROBLEM FOR INTERCONNECTED RING NETWORKS 156 9.4.2 MESH OPTICAL NETWORKS 156 9.4.3 RING NETWORK DEMENT DESIGN CONSIDERATIONS 157 9.4.4 FIXEDOADMS(FOADMS) 157 9.4.5 RECONFIGURABLE OADMS (ROADMS) 157 9.4.6 DYNAMIC OADMS (DOADMS) 157 9.4.7 ARCHITECTURAL NOTES ON RING OADMS 158 9.5 DESIGN CONSIDERATIONS FOR THE COMMUNITY BACKBONE 159 9.6 SUMMARY 161 10 A COMPARISON OF THE CURRENT STATE OF DSL TECHNOLOGIES 163 SCOTT A. VALCOURT 10.1 INTRODUCTION 163 10.2 ADSL VISION AND HISTORY 164 10.3 ADSL TECHNOLOGY 165 10.4 SHDSL TECHNOLOGY 168 X CONTENTS 10.5 VDSL TECHNOLOGY 169 10.6 THE BEST TECHNOLOGY 170 10.7 DSL COMMUNITY NETWORKS 170 10.8 SUMMARY 172 11 FIBER IN THE LAST MILE 173 ASHWIN GUMASTE, NASIR GHANI AND IMRICH CHLAMTAC 11.1 INTRODUCTION 173 11.2 TOPOLOGICAL AND ARCHITECTURAL MODEL FOR PON SYSTEMS: ASSOCIATED NOMENCLATURE 174 11.3 TYPES OF PASSIVE OPTICAL NETWORK 175 11.3.1 ATM, OR BROADBAND PONS 175 11.3.2 EPONS,OR ETHERNET PONS 176 11.3.3 WDM PONS 177 11.4 OPTICAL SIGNAL DETAILS TO BE CONSIDERED WHILE DESIGNING A PON SYSTEM 178 11.4.1 OPTICAL SIGNAL-TO-NOISE RATIO 179 11.5 COMPONENTS FOR PON SYSTEMS 179 11.6 PROTOCOL REQUIREMENTS FOR OLT-ONU INTERACTION 183 11.6.1 TRANSMISSION UPON RECEPTION (TUR) 183 11.6.2 IPACT: INTERLEAVED POLLING WITH ADAPTIVE CYCLE TIME 183 11.7 MPCP CLASSIFICATIONS AND REQUIREMENTS 184 11.7.1 DYNAMIC PROVISIONING 184 11.7.2 FAIRNESS 184 11.7.3 QOS 185 11.7.4 STABILITY AND CONVERGENCE 185 11.7.5 SLA PROVISIONING 185 11.8 SUMMARY 185 12 ETHERNET IN THE FIRST MILE 187 WAEL WILLIAM DIAB 12.1 INTRODUCTION 187 12.2 OVERVIEW OF THE IEEE, THE PROCESS AND THE 802.3 WORKING GROUP 187 72.2.7 THELMSC 187 12.2.2 THE ETHERNET WORKING GROUP AND THE IEEE PROCESS 188 12.2.3 ABRIEF DISCUSSION ON THE FIVE CRITERIA 18 8 12.3 OVERVIEW OF THE EFM TASK FORCE AND TIMELINE 189 12.3.1 P802.3 AH: OVERVIEW OF EFM 189 12.3.2 PRACTICALLY, WHY IS 802.3AH IMPORTANT? 189 12.3.3 TIMELINE OF THE EFM PROJECT 190 12.4 OVERVIEW OF OAM 190 12.4.1 HIGH-LEVEL ARCHITECTURE 190 12.4.2 FUNCTIONALITY 191 12.4.3 SINGLE LINK MANAGEMENT 191 12.4.4 RESTRICTIONS 192 12.5 OVERVIEW OF COPPER 192 12.5.1 HIGH-LEVEL ARCHITECTURE 192 CONTENTS XI 12.5.2 MORE ON THE SPECIFICS OF EACH TYPE OF COPPER LINK 193 12.5.3 SUPPORTFOR MULTIPLE PAIRS 193 12.6 OVERVIEW OF OPTICS 193 12.6.1 HIGH-LEVEL SUMMARY 193 12.6.2 HIGH-LEVEL ARCHITECTURE: COMMON MOTIVATIONS 194 12.6.3 DETAILED DESCRIPTION OFTHE OPTICAL DEVICES 194 12.6.4 PHILOSOPHY FOR BOTH SINGLE AND DUALFIBER 100 M 195 12.6.5 PHILOSOPHY FOR DUAL WAVELENGTH FOR THE SINGLE FIBER SOLUTIONS 195 12.6.6 DIFFERENCES BETWEEN THE 100 M AND 1 GIGABIT POINT-TO-POINT SOLUTIONS 196 12.6.7 NEW REQUIREMENTSFOR EPONS 197 12.6.8 OPTICAL REACH 197 12.6.9 EXTENDED TEMPERATURE 197 12.7 OVERVIEW OF EPONS: THE LOGIC BEHIND P2MP 198 12.7.1 HIGH-LEVEL ARCHITECTURE 198 12.7.2 A NOTE ON TERMINOLOGY 198 12.7.3 MPCP: A MORE DETAILED DISCUSSION 199 12.7.4 THE FUNCTIONAL RESPONSIBILITIES OFTHE ONU AND OLT 199 12.8 SUMMARY 200 13 DOCSIS AS A FOUNDATION FOR RESIDENTIAL AND COMMERCIAL COMMUNITY NETWORKING OVER HYBRID FIBER COAX 201 STEVEN EULTON, CHAITANYA GODSAY AND RADIM BARTOS 13.1 INTRODUCTION 201 13.1.1 DISTRIBUTION DISTANCE 202 13.1.2 FREQUENCY RAENGE 202 13.1.3 BROADBAND DEPLOYMENT GROWTH 204 13.1.4 BROADBAND DEPLOYMENT FUTURE 204 13.2 PROVISIONING PROCESS FOR DOCSIS CONNECTIONS 206 13.2.1 DOCSIS PROVISIONING BASICS 207 13.2.2 RANGING AND REGISTRATION 208 13.2.3 UPSTREAM DATA TRANSMISSION 210 13.2.4 DOWNSTREAM DATA TRANSMISSION 213 13.3 SUMMARY 213 14 BROADBAND WIRELESS ACCESS NETWORKS: A ROADMAP ON EMERGING TRENDS AND STANDARDS 215 ENZO BACCARELU, MAURO BIAGI, RAFFAELE BRUNO, MARCO CONTI AND ENRICO GREGORI 14.1 INTRODUCTION 215 14.2 WHAT IS BROADBAND WIRELESS ACCESS? 216 14.2.1 QOS REQUIREMENTS FOR BWA 216 14.2.2 A WORKABLE DEFINITION OF BWA 217 14.2.3 BWA IN PERSONAL, LOCAL, METROPOLITAN AND WIDE AREA NETWORKS 217 14.3 TECHNOLOGIES FOR WPANS: THE 802.15 STANDARDS 218 14.3.1 IEEE 802.15.1: A BLUETOOTH-BASED WPAN 218 14.3.2 HIGH-RATE WPANS: THE IEEE 802.15.3 STANDARD 219 XII CONTENTS 14.4 EMERGING 4G WLANS 220 14.4.1 TECHNOLOGIES FOR 4G WLANS: THE IEEE 802.11 STANDARDS 221 14.4.2 NETWORK ARCHITECTURES 222 14.4.3 HIGH-SPEED WLANS: 802.11A AND 802.1 LG 222 14.4.4 QUALITY OF SERVICE IN 4G WLANS: THE 802.1 LE STANDARD 224 14.4.5 FUTURE DIRECTIONS 226 14.5 WIRELESS BACKBONE AND WIRELESS LOCAL LOOP: THE IEEE 802.16 STANDARDS 228 14.5.1 SERVICE SCENARIOS AND NETWORK ARCHITECTURES 229 14.5.2 PHYSICAL LAYERFOR WIRELESS BACKBONE 232 14.5.3 FUTURE DIRECTIONS 233 14.6 SATELLITE ACCESS AND SERVICES 235 14.6.1 GEOSYNCHRONOUS EARTH ORBIT (GEO) SATELLITES AND VIDEO BROADCASTING 235 14.6.2 TOWARDS BROADBAND LOW EARTH ORBIT (LEO) SATELLITES 236 14.7 SUMMARY: FUTURE BWA ROADMAP AND DIVERSE TECHNOLOGY LANDSCAPE 237 PARTFOUR CASE STUDIES 241 15 COMMUNITY CASE STUDIES IN NORTH AMERICA 243 PRIYA SHETTY AND ASHWIN GUMASTE 15.1 INTRODUCTION 243 15.2 ISSUES AFFECTING COMMUNITY NETWORK DESIGN 244 15.2.1 TECHNOLOGY CONSIDERATIONS 244 15.2.2 BUSINESS CONSIDERATIONS 245 15.2.3 SOCIAL ISSUES 245 15.3 CASE STUDIES 246 75.5.7 CASE STUDY 1: DOUGLAS COUNTY SCHOOL SYSTEM, GEORGIA 246 15.3.2 CASE STUDY 2: WASHINGTONS DC-NET THROUGH MCI 248 15.3.3 CASE STUDY 3: BROADBAND POWER LINE SYSTEM IN CAPE GIRARDEAU, MISSOURI 250 15.3.4 CASE STUDY 4: WIRELESS BROADBAND COMMUNITY NETWORK FOR CITY OFOCEANSIDE, CALIFORNIA 251 15.3.5 CASE STUDY 5: CITYWIDE WIRELESS NETWORK FOR MOUNT PLEASANT, MICHIGAN 252 15.4 SUMMARY 254 16 EUROPEAN BROADBAND INITIATIVES WITH PUBLIC PARTICIPATION 255 CSABAA. SZABOE 16.1 INTRODUCTION 255 16.2 STOKAB S DARK FIBER METRO NET IN THE STOCKHOLM REGION - A PROFITABLE PROJECT IN BUSINESS TERMS 256 16.2.1 OVERVIEW 256 76.2.2 CONNECTION PROVISIONING ANDPRICING 257 16.2.3 COLLOCATION AND LOCATION SERVICES 257 16.2.4 CUSTOMERS 257 16.3 FAST WEB - A NEW GENERATION OF TELECOMMUNICATIONS NETWORKS AND SERVICES 258 CONTENTS XIII 16.4 COMMUNITY NETWORKS BASED ON PLC: THE ENDESA FIELD TRIALS IN SPAIN 260 16.4.1 WHYPLC? 260 16.4.2 NETWORK TECHNOLOGY USING PLC 262 16.4.3 BUSINESS MODEIS 263 16.4.4 THE MASS FIELD TRIAL IN ZARAGOZA 264 16.5 BROADBAND TO RURAL AREAS VIA SATELLITE - THE SOUTH WEST BROADBAND PROGRAMME IN IRELAND 265 16.6 REGIONAL BROADBAND AGGREGATION IN THE UK 267 16.7 SUMMARY 271 INDEX 273
adam_txt	BROADBAND SERVICES BUSINESS MODELS AND TECHNOLOGIES FOR COMMUNITY NETWORKS EDITED BY IMRICH CHLAMTAC CREATENET RESEARCH CONSORTIUM ASHWIN GUMASTE FUJITSU LABORATORIES, DALLAS, USA AND CSABA A. SZABOE BUDAPEST UNIVERSITY OF TECHNOLOGY AND ECONOMICS, BUDAPEST, HUNGARY JOHN WILEY &. SONS, LTD CONTENTS FOREWORD XV ABOUT THE EDITORS XVII LIST OF CONTRIBUTORS XIX ACKNOWLEDGMENTS XXV 1 INTRODUCTION 1 IMRICH CHLAMTAC, ASHWIN GUMASTE AND CSABA A. SZABO 1.1 WHAT IS BROADBAND? 1 1.2 THE OBJECTIVES OF THIS BOOK 3 1.3 BOOK OUTLINE 4 PART ONE APPLICATIONS AND SERVICES 9 2 BROADBAND HOME/ENTERTAINMENT SERVICES 11 ARIEH MOLLER AND ROY ISACOWITZ 2. 1 INTRODUCTION 11 2.2 CURRENT BROADBAND AND HOME ENTERTAINMENT MARKETS 12 2.2.1 TE LEVIS ION 13 2.2.2 MOBILE 14 2.2.3 CONSUMERPRODUCTS 15 2.3 WHAT DRIVES BROADBAND? 15 2.4 FUTURE BROADBAND ENTERTAINMENT SERVICES 17 2.4.1 TELEVISION AND VIDEO 18 2.4.2 GAMES 18 2.4.3 MUSIC 19 2.4.4 GAMBLING 19 2.4.5 INTERNET 20 2.4.6 MOBILE 21 2.5 CONSUMER DEMOGRAPHICS 22 2.6 PAYING FOR CONTENT 23 2.7 SECURITY STANDARDS 24 2.7.1 DVB (WWW.DVB.ORG) 24 2.7.2 3GPP (WWW.3GPP.ORG) 24 VI CONTENTS 2.7.3 3GPP2 (WWW.3GPP2.ORG) 24 2.7.4 OMA - OPEN MOBILE ALLIANCE (WWW.OPENMOBILEALLIANCE.ORG) 25 2.7.5 TCG (WWW.TRUSTEDCOMPUTINGGROUP.ORG) 25 2.7.6 SVP (WWW.SVP-CP.ORG) 25 2.7.7 WPA (WWW.WIFIALLIANCE.COM/OPENSECTION/PROTECTED-ACCESS.ASP) 25 2.8 SUMMARY 25 3 APPLICATIONS AND SERVICES TO MEET SOCIETY-RELATED NEEDS 27 CSABAA. SZABOE 3.1 INTRODUCTION 27 3.2 E-EDUCATION APPLICATIONS 28 3.2.1 VIRTUAL CLASSROOMS 28 3.2.2 WEB-BASED LEARNING 29 3.2.3 TECHNOLOGY OF E-EDUCATION 30 3.3 TELEMEDICINE APPLICATIONS 33 3.3.1 WHAT IS TELEMEDICINE? 3 3 3.3.2 OVERVIEW OF TELEMEDICINE APPLICATIONS 34 3.3.3 REQUIREMENTS WHEN TRANSMITTING MEDICAL DIAGNOSTIC INFORMATION 36 3.3.4 VIDEOCONFERENCING IN TELEMEDICINE 39 3.3.5 HOW DOES SOCIETY BENEFITFROM TELEMEDICINE? 42 3.4 E-GOVERNMENT APPLICATIONS 42 3.4.1 OVERVIEW 42 3.4.2 PROVIDING ACCESS TO E-GOVERNMENT SERVICES 43 3.5 SUMMARY 44 PART TWO BUSINESS MODELS 47 4 KEY LEGAL AND REGULATORY ISSUES AFFECTING COMMUNITY BROADBAND PROJECTS IN THE UNITED STATES 49 SEAN A. STOKES AND JIM BALLER 4.1 INTRODUCTION 49 4.2 THE BENEFITS OF PUBLIC FIBER-TO-THE-HOME (FTTH) SYSTEMS 49 4.3 BURDENS AND RISKS OF PUBLIC BROADBAND SYSTEMS 50 4.4 LEGAL AUTHORITY OF PUBLIC ENTITIES TO PROVIDE COMMUNICATION SERVICES 51 4.4.1 FEDERAL LAW ENCOURAGES, BUT DOES NOT AFFIRMATIVELY EMPOWER, LOCAL GOVERNMENTS TO PROVIDE COMMUNICATIONS SERVICES 53 4.4.2 STATE LAWS AFFECTING THE AUTHORITY OF PUBLIC ENTITIES TO PROVIDE COMMUNICATIONS SERVICES 56 4.4.3 LOCAL RESTRICTIONS 58 4.5 INVOLVEMENT MODEIS AND STRUCTURES 58 4.6 OTHER CONSIDERATIONS 59 4.7 FEDERAL REGULATORY ISSUES 60 4.7.1 KEY DEFINITIONS 60 4.7.2 IMPLICATIONS OFKEY DEFINITIONS 61 4.7.3 ACCESS TO INCUMBENT NETWORK ELEMENTS UNDER SECTION 251(C)(3) 63 4.7.4 POLE ATTACHMENTS 64 CONTENTS VII 4.7.5 UNIVERSAL SERVICE 65 4.7.6 OTHER IMPORTANT FEDERALPROVISIONS 66 4.8 STATE REGULATORY ISSUES 67 4.8.1 CERTIFICATION 67 4.8.2 TARIFFS 67 4.8.3 ANNUAL REPORTS 67 4.8.4 UNIVERSAL SERVICE AND OTHER CONTRIBUTIONS 67 4.8.5 REGULATORY FEES 68 4.8.6 INTERCONNECTION AGREEMENTS 68 4.9 SUMMARY 68 5 EUROPEAN TELECOMMUNICATION LAW AND COMMUNITY NETWORKS 69 GIOVANNI PASCUZZI AND ANDREA ROSSATO 5.1 INTRODUCTION 69 5.2 HISTORICAL BACKGROUND 70 5.2.1 THE LIBERALIZATION PERIOD 70 5.2.2 THE HARMONIZATION EFFORT 71 5.3 THE NEW REGULATORY FRAMEWORK 73 5.3.1 LIBERALIZATION 74 5.3.2 NATIONAL REGULATORY AUTHORITIES 75 5.3.3 GENERAL AUTHORIZATION 76 5.3.4 ACCESS AND INTERCONNECTION 11 5.3.5 UNIVERSAL SERVICE 78 5.3.6 RADIO LOCAL AREA NETWORKS 79 5.3.7 E-PRIVACY 79 5.4 MEMBER STATES' IMPLEMENTATION: THE ITALIAN CASE 80 5.4.1 THE ITALIAN ELECTRONIC COMMUNICATIONS CODE 80 5.4.2 INTERNET SERVICE PROVISION 82 5.4.3 RADIO LOCAL AREA NETWORKS 83 5.4.4 A CASE STUDY: PROVINCIA AUTONOMA DI TRENTO AND INFORMATICA TRENTINA 83 5.5 SUMMARY 83 6 MODELS FOR PUBLIC SECTOR INVOLVEMENT IN REGIONAL AND LOCAL BROADBAND PROJECTS 85 GARETH HUGHES 6.1 INTRODUCTION 85 6.2 OVERVIEW OF MODEIS FOR PUBLIC INVOLVEMENT 85 6.2.7 COMMUNITY-OPERATED NETWORKS AND SERVICES 86 6.2.2 CARRIER'S CARRIER MODEL 87 6.2.3 PASSIVE INFRASTRUCTURE MODEL 88 6.2.4 FIBER CONDOMINIUM 89 6.2.5 AGGREGATION OFDEMAND 90 6.2.6 SUMMARY OF MODEIS 91 6.3 FINANCIAL PROFILES OF DIFFERENT MODEIS 91 6.4 PUBLIC-PRIVATE PARTNERSHIPS 93 CONTENTS 6.5 LEGAL AND ECONOMIC CONSIDERATIONS RELATING TO MODEIS 94 6.5.1 AGGREGATION OF PUBLIC SECTOR DEMAND 9 5 6.5.2 FINANCIAL AID TO AN OPERATOR 95 6.5.3 COMMUNITY-OPERATED NETWORKS AND SERVICES 96 6.5.4 CARRIER'S CARRIER MODEL 96 6.5.5 PASSIVE INFRASTRUCTURE MODEL 96 6.6 SUMMARY 101 CUSTOMER-OWNED AND MUNICIPAL FIBER NETWORKS 103 BILL ST. ARNAUD 7.1 INTRODUCTION 103 7.1.1 CUSTOMER-OWNED DARK FIBER 103 7.7.2 CONDOMINIUMFIBER 104 7.1.3 COMMUNITY OR MUNICIPAL FIBER NERWORKS 105 7.2 ADVANTAGES OF CUSTOMER-OWNED DARK FIBER/MUNICIPAL FIBER TO DIFFERENT USERS AND BUSINESSES 105 7.2.1 PUBLIC INSTITUTIONS 105 7.2.2 BUSINESS ORGANIZATIONS 107 7.2.3 OFFICE BUILDING OWNERS AND MANAGERS 108 7.2.4 CONSUMERS OR HOME OWNERS 109 7.2.5 MUNICIPALITIES AND GOVERNMENTS 110 7.3 DEPLOYMENT OF MUNICIPAL FIBER NETWORKS 110 7.3.1 RIGHTS OF WAY AND MUNICIPAL ACCESS AGREEMENTS (MAAS) 110 7.3.2 CARRIER NEUTRAL COLLOCATION FACILITIES 111 7.3.3 EQUIPMENT TO LIGHT UP DARK FIBER 11 2 7.4 COSTANALYSIS 112 7.4.1 OVERVIEW 112 7.4.2 SOME DETAILED COST COMPONENTS OF CUSTOMER-OWNED DARK FIBER 113 7.4.3 ONGOING YEARLY COSTS FOR CUSTOMER-OWNED DARK FIBER 115 7.5 OPERATION AND MANAGEMENT 116 7.5.1 RELIABILITY OF DARK FIBER 116 7.5.2 OPERATION AND MAINTENANCE 116 7.6 SUMMARY 117 TOWARDS A TECHNOLOGICALLY AND COMPETITIVELY NEUTRAL FIBER-TO-THE-HOME (FTTH) INFRASTRUCTURE 119 ANUPAM BANERJEE AND MARVIN SIRBU 8.1 INTRODUCTION 119 8.2 MODELS FOR COMPETITION IN TELECOMMUNICATIONS 120 8.2.1 FACILITIES-BASED COMPETITION 120 8.2.2 NON FACILITIES-BASED COMPETITION OR SERVI.EE LEVEL COMPETITION 120 8.3 FIBER-TO-THE-HOME ARCHITECTURES 121 8.3.1 HOME RUN FIBER 122 8.3.2 ACTIVE STAR 123 8.3.3 PASSIVE STAR (PASSIVE OPTICAL NETWORK-PON) 123 8.3.4 WDM PASSIVE OPTICAL NETWORKS 126 CONTENTS IX 8.4 ECONOMICS OF FIBER-TO-THE-HOME 126 8.4.1 COST MODEL ASSUMPTIONS 12 6 8.4.2 COST MODEL RESULTS 127 8.4.3 OFAP AS A REAL OPTION: PON DESIGN UNDER UNCERTAINTY 127 8.4.4 SENSITIVITY ANALYSIS 131 8.5 COMPETITION, FTTH ARCHITECTURE AND INDUSTRY STRUCTURE 132 8.5.1 FACILITIES-BASED COMPETITION 132 8.5.2 COMPETITION AT THE OPTICAL LAYER 132 8.5.3 DATA LINK LAYER (UNE-BASED) COMPETITION 133 8.5.4 NETWORK (AND HIGHER) LAYER-BASED (OPEN ACCESS) COMPETITION 134 8.5.5 WHY UNE-BASED COMPETITION MAY BE PREFERABLE TO OPEN ACCESS-BASED COMPETITION 134 8.5.6 NECESSARY CONDITIONS FOR COMPETITION IN FTTH 135 8.5.7 INDUSTRY STRUCTURE, FIBER OWNERSHIP AND COMPETITION 136 8.6 SUMMARY 138 PART THREE TECHNOLOGY 141 9 BACKBONE OPTICAL NETWORK DESIGN FOR COMMUNITY NETWORKS 143 ASHWIN GUMASTE, CSABAA. SZABOE ANDLMRICH CHLAMTAC 9.1 INTRODUCTION 143 9.2 DESIGN CONSIDERATIONS FOR COMMUNITY METRO NETWORKS 144 9.2.7 THE FIRST GENERATION METRO RINGS 145 9.2.2 THE WDM SOLUTION 147 9.2.3 THE ETHERNET SOLUTION 148 9.2.4 RESILIENT PACKET RINGS (RPR) 15 2 9.3 FUNCTIONS OF THE BACKBONE: AGGREGATION AND TRANSPORT - EVOLUTION OF THE MSPP AND MSTP CONCEPTS 152 9.4 THE OPTICAL BACKBONE: DESIGN AND ELEMENTS 155 9.4.1 ROUTING AND WAVELENGTH ASSIGNMENT: A PROBLEM FOR INTERCONNECTED RING NETWORKS 156 9.4.2 MESH OPTICAL NETWORKS 156 9.4.3 RING NETWORK DEMENT DESIGN CONSIDERATIONS 157 9.4.4 FIXEDOADMS(FOADMS) 157 9.4.5 RECONFIGURABLE OADMS (ROADMS) 157 9.4.6 DYNAMIC OADMS (DOADMS) 157 9.4.7 ARCHITECTURAL NOTES ON RING OADMS 158 9.5 DESIGN CONSIDERATIONS FOR THE COMMUNITY BACKBONE 159 9.6 SUMMARY 161 10 A COMPARISON OF THE CURRENT STATE OF DSL TECHNOLOGIES 163 SCOTT A. VALCOURT 10.1 INTRODUCTION 163 10.2 ADSL VISION AND HISTORY 164 10.3 ADSL TECHNOLOGY 165 10.4 SHDSL TECHNOLOGY 168 X CONTENTS 10.5 VDSL TECHNOLOGY 169 10.6 THE BEST TECHNOLOGY 170 10.7 DSL COMMUNITY NETWORKS 170 10.8 SUMMARY 172 11 FIBER IN THE LAST MILE 173 ASHWIN GUMASTE, NASIR GHANI AND IMRICH CHLAMTAC 11.1 INTRODUCTION 173 11.2 TOPOLOGICAL AND ARCHITECTURAL MODEL FOR PON SYSTEMS: ASSOCIATED NOMENCLATURE 174 11.3 TYPES OF PASSIVE OPTICAL NETWORK 175 11.3.1 ATM, OR BROADBAND PONS 175 11.3.2 EPONS,OR ETHERNET PONS 176 11.3.3 WDM PONS 177 11.4 OPTICAL SIGNAL DETAILS TO BE CONSIDERED WHILE DESIGNING A PON SYSTEM 178 11.4.1 OPTICAL SIGNAL-TO-NOISE RATIO 179 11.5 COMPONENTS FOR PON SYSTEMS 179 11.6 PROTOCOL REQUIREMENTS FOR OLT-ONU INTERACTION 183 11.6.1 TRANSMISSION UPON RECEPTION (TUR) 183 11.6.2 IPACT: INTERLEAVED POLLING WITH ADAPTIVE CYCLE TIME 183 11.7 MPCP CLASSIFICATIONS AND REQUIREMENTS 184 11.7.1 DYNAMIC PROVISIONING 184 11.7.2 FAIRNESS 184 11.7.3 QOS 185 11.7.4 STABILITY AND CONVERGENCE 185 11.7.5 SLA PROVISIONING 185 11.8 SUMMARY 185 12 ETHERNET IN THE FIRST MILE 187 WAEL WILLIAM DIAB 12.1 INTRODUCTION 187 12.2 OVERVIEW OF THE IEEE, THE PROCESS AND THE 802.3 WORKING GROUP 187 72.2.7 THELMSC 187 12.2.2 THE ETHERNET WORKING GROUP AND THE IEEE PROCESS 188 12.2.3 ABRIEF' DISCUSSION ON THE FIVE CRITERIA 18 8 12.3 OVERVIEW OF THE EFM TASK FORCE AND TIMELINE 189 12.3.1 P802.3 AH: OVERVIEW OF EFM 189 12.3.2 PRACTICALLY, WHY IS 802.3AH IMPORTANT? 189 12.3.3 TIMELINE OF THE EFM PROJECT 190 12.4 OVERVIEW OF OAM 190 12.4.1 HIGH-LEVEL ARCHITECTURE 190 12.4.2 FUNCTIONALITY 191 12.4.3 SINGLE LINK MANAGEMENT 191 12.4.4 RESTRICTIONS 192 12.5 OVERVIEW OF COPPER 192 12.5.1 HIGH-LEVEL ARCHITECTURE 192 CONTENTS XI 12.5.2 MORE ON THE SPECIFICS OF EACH TYPE OF COPPER LINK 193 12.5.3 SUPPORTFOR MULTIPLE PAIRS 193 12.6 OVERVIEW OF OPTICS 193 12.6.1 HIGH-LEVEL SUMMARY 193 12.6.2 HIGH-LEVEL ARCHITECTURE: COMMON MOTIVATIONS 194 12.6.3 DETAILED DESCRIPTION OFTHE OPTICAL DEVICES 194 12.6.4 PHILOSOPHY FOR BOTH SINGLE AND DUALFIBER 100 M 195 12.6.5 PHILOSOPHY FOR DUAL WAVELENGTH FOR THE SINGLE FIBER SOLUTIONS 195 12.6.6 DIFFERENCES BETWEEN THE 100 M AND 1 GIGABIT POINT-TO-POINT SOLUTIONS 196 12.6.7 NEW REQUIREMENTSFOR EPONS 197 12.6.8 OPTICAL REACH 197 12.6.9 EXTENDED TEMPERATURE 197 12.7 OVERVIEW OF EPONS: THE LOGIC BEHIND P2MP 198 12.7.1 HIGH-LEVEL ARCHITECTURE 198 12.7.2 A NOTE ON TERMINOLOGY 198 12.7.3 MPCP: A MORE DETAILED DISCUSSION 199 12.7.4 THE FUNCTIONAL RESPONSIBILITIES OFTHE ONU AND OLT 199 12.8 SUMMARY 200 13 DOCSIS AS A FOUNDATION FOR RESIDENTIAL AND COMMERCIAL COMMUNITY NETWORKING OVER HYBRID FIBER COAX 201 STEVEN EULTON, CHAITANYA GODSAY AND RADIM BARTOS 13.1 INTRODUCTION 201 13.1.1 DISTRIBUTION DISTANCE 202 13.1.2 FREQUENCY RAENGE 202 13.1.3 BROADBAND DEPLOYMENT GROWTH 204 13.1.4 BROADBAND DEPLOYMENT FUTURE 204 13.2 PROVISIONING PROCESS FOR DOCSIS CONNECTIONS 206 13.2.1 DOCSIS PROVISIONING BASICS 207 13.2.2 RANGING AND REGISTRATION 208 13.2.3 UPSTREAM DATA TRANSMISSION 210 13.2.4 DOWNSTREAM DATA TRANSMISSION 213 13.3 SUMMARY 213 14 BROADBAND WIRELESS ACCESS NETWORKS: A ROADMAP ON EMERGING TRENDS AND STANDARDS 215 ENZO BACCARELU, MAURO BIAGI, RAFFAELE BRUNO, MARCO CONTI AND ENRICO GREGORI 14.1 INTRODUCTION 215 14.2 WHAT IS BROADBAND WIRELESS ACCESS? 216 14.2.1 QOS REQUIREMENTS FOR BWA 216 14.2.2 A 'WORKABLE' DEFINITION OF BWA 217 14.2.3 BWA IN PERSONAL, LOCAL, METROPOLITAN AND WIDE AREA NETWORKS 217 14.3 TECHNOLOGIES FOR WPANS: THE 802.15 STANDARDS 218 14.3.1 IEEE 802.15.1: A BLUETOOTH-BASED WPAN 218 14.3.2 HIGH-RATE WPANS: THE IEEE 802.15.3 STANDARD 219 XII CONTENTS 14.4 EMERGING 4G WLANS 220 14.4.1 TECHNOLOGIES FOR 4G WLANS: THE IEEE 802.11 STANDARDS 221 14.4.2 NETWORK ARCHITECTURES 222 14.4.3 HIGH-SPEED WLANS: 802.11A AND 802.1 LG 222 14.4.4 QUALITY OF SERVICE IN 4G WLANS: THE 802.1 LE STANDARD 224 14.4.5 FUTURE DIRECTIONS 226 14.5 WIRELESS BACKBONE AND WIRELESS LOCAL LOOP: THE IEEE 802.16 STANDARDS 228 14.5.1 SERVICE SCENARIOS AND NETWORK ARCHITECTURES 229 14.5.2 PHYSICAL LAYERFOR WIRELESS BACKBONE 232 14.5.3 FUTURE DIRECTIONS 233 14.6 SATELLITE ACCESS AND SERVICES 235 14.6.1 GEOSYNCHRONOUS EARTH ORBIT (GEO) SATELLITES AND VIDEO BROADCASTING 235 14.6.2 TOWARDS BROADBAND LOW EARTH ORBIT (LEO) SATELLITES 236 14.7 SUMMARY: FUTURE BWA ROADMAP AND DIVERSE TECHNOLOGY LANDSCAPE 237 PARTFOUR CASE STUDIES 241 15 COMMUNITY CASE STUDIES IN NORTH AMERICA 243 PRIYA SHETTY AND ASHWIN GUMASTE 15.1 INTRODUCTION 243 15.2 ISSUES AFFECTING COMMUNITY NETWORK DESIGN 244 15.2.1 TECHNOLOGY CONSIDERATIONS 244 15.2.2 BUSINESS CONSIDERATIONS 245 15.2.3 SOCIAL ISSUES 245 15.3 CASE STUDIES 246 75.5.7 CASE STUDY 1: DOUGLAS COUNTY SCHOOL SYSTEM, GEORGIA 246 15.3.2 CASE STUDY 2: WASHINGTONS DC-NET THROUGH MCI 248 15.3.3 CASE STUDY 3: BROADBAND POWER LINE SYSTEM IN CAPE GIRARDEAU, MISSOURI 250 15.3.4 CASE STUDY 4: WIRELESS BROADBAND COMMUNITY NETWORK FOR CITY OFOCEANSIDE, CALIFORNIA 251 15.3.5 CASE STUDY 5: CITYWIDE WIRELESS NETWORK FOR MOUNT PLEASANT, MICHIGAN 252 15.4 SUMMARY 254 16 EUROPEAN BROADBAND INITIATIVES WITH PUBLIC PARTICIPATION 255 CSABAA. SZABOE 16.1 INTRODUCTION 255 16.2 STOKAB'S DARK FIBER METRO NET IN THE STOCKHOLM REGION - A PROFITABLE PROJECT IN BUSINESS TERMS 256 16.2.1 OVERVIEW 256 76.2.2 CONNECTION PROVISIONING ANDPRICING 257 16.2.3 COLLOCATION AND LOCATION SERVICES 257 16.2.4 CUSTOMERS 257 16.3 FAST WEB - A NEW GENERATION OF TELECOMMUNICATIONS NETWORKS AND SERVICES 258 CONTENTS XIII 16.4 COMMUNITY NETWORKS BASED ON PLC: THE ENDESA FIELD TRIALS IN SPAIN 260 16.4.1 WHYPLC? 260 16.4.2 NETWORK TECHNOLOGY USING PLC 262 16.4.3 BUSINESS MODEIS 263 16.4.4 THE MASS FIELD TRIAL IN ZARAGOZA 264 16.5 BROADBAND TO RURAL AREAS VIA SATELLITE - THE SOUTH WEST BROADBAND PROGRAMME IN IRELAND 265 16.6 REGIONAL BROADBAND AGGREGATION IN THE UK 267 16.7 SUMMARY 271 INDEX 273
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spelling	Broadband services business models and technologies for community networks ed. by Imrich Chlamtac ... Chichester [u.a.] Wiley 2005 XXIII, 276 S. Ill. txt rdacontent n rdamedia nc rdacarrier Includes bibliographical references and index Broadband communication systems Electronic villages (Computer networks) Breitbandkommunikation (DE-588)4008113-8 gnd rswk-swf Breitbandkommunikation (DE-588)4008113-8 s b DE-604 Chlamtac, Imrich Sonstige oth http://www.loc.gov/catdir/toc/ecip051/2004022888.html Table of contents GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014747239&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Broadband services business models and technologies for community networks Broadband communication systems Electronic villages (Computer networks) Breitbandkommunikation (DE-588)4008113-8 gnd
subject_GND	(DE-588)4008113-8
title	Broadband services business models and technologies for community networks
title_auth	Broadband services business models and technologies for community networks
title_exact_search	Broadband services business models and technologies for community networks
title_exact_search_txtP	Broadband services business models and technologies for community networks
title_full	Broadband services business models and technologies for community networks ed. by Imrich Chlamtac ...
title_fullStr	Broadband services business models and technologies for community networks ed. by Imrich Chlamtac ...
title_full_unstemmed	Broadband services business models and technologies for community networks ed. by Imrich Chlamtac ...
title_short	Broadband services
title_sort	broadband services business models and technologies for community networks
title_sub	business models and technologies for community networks
topic	Broadband communication systems Electronic villages (Computer networks) Breitbandkommunikation (DE-588)4008113-8 gnd
topic_facet	Broadband communication systems Electronic villages (Computer networks) Breitbandkommunikation
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