AdvancedOpticalWirelessCommunicationSystems Opticalwirelesscommunicationsisadynamicareaofresearchanddevelopment.Com- biningfundamentaltheorywithabroadoverview,thisbookisanidealreferenceforany- oneworkinginthefield,aswellasavaluableguideforself-study.Itbeginsbydescribing importantissuesinopticalwirelesstheory,includingcodingandmodulationtechniques foropticalwireless,wirelessopticalCDMAcommunicationsystems,equalizationand Markov chains in cloud channels, and optical MIMO systems, as well as explaining key issuesininformationtheory foroptical wirelesschannels. Thenext partdescribes uniquechannelsthatcouldbefoundinopticalwirelessapplications,suchasNLOSUV atmospheric scattering channels, underwater communication links, and a combination of hybrid RF/optical wireless systems. The final part describes applications of optical wirelesstechnology,suchasquantumencryption,visiblelightcommunication,IRlinks, andsensornetworks,withstep-by-stepguidelinestohelpreducedesigntimeandcost. Shlomi Arnon is an Associate Professor at the Department of Electrical and Computer Engineering at Ben-Gurion University (BGU), Israel, and the Principal Investigator of Israel Partnership with NASA LUNAR Science Institute. In addition to research, Pro- fessor Arnon and his students work on many challenging engineering projects with emphasisonthehumanitariandimension,suchasdevelopingasystemtodetecthuman survivalafterearthquakes,oraninfantrespirationmonitoringsystemtopreventcardiac arrestandapnea. John R. Barry is a Professor of Telecommunications in the School of Electrical and ComputerEngineeringattheGeorgiaInstituteofTechnology.HeisacoauthorofDig- ital Communication (2004), and Iterative Timing Recovery: A Per-Survivor Approach (VDM,2009),andheistheauthorofWirelessInfraredCommunications(1994). GeorgeK.KaragiannidisisanAssociateProfessorofDigitalCommunicationsSystems intheElectricalandComputerEngineeringDepartment,andHeadoftheTelecommu- nicationsSystemsandNetworksLaboratory,atAristotleUniversityofThessaloniki.He is co-recipient of the Best Paper Award of the Wireless Communications Symposium (WCS)intheIEEEInternationalConferenceonCommunications(ICC’07). Robert Schober is a Professor and Canada Research Chair in Wireless Communica- tionsattheUniversityofBritishColumbia(UBC),Vancouver,Canada.Hehasreceived numerousawards,includingbestpaperawardsfromtheGermanInformationTechnol- ogySociety(ITG),theEuropeanAssociationforSignal,SpeechandImageProcessing (EURASIP), IEEE ICUWB 2006, the International Zurich Seminar on Broadband Communications,andEuropeanWireless2000. Murat Uysal is an Associate Professor at Özyeg˘in University, Istanbul, where he leads theCommunicationTheoryandTechnologies(CT&T)ResearchGroup.Dr.Uysalisthe recipient of several awards including the NSERC Discovery Accelerator Supplement Award,UniversityofWaterlooEngineeringResearchExcellenceAward,andtheTUBA DistinguishedYoungScientistAward. Advanced Optical Wireless Communication Systems Editedby SHLOMI ARNON Ben-GurionUniversity(BGU),Israel JOHN R. BARRY GeorgiaInstituteofTechnology,USA GEORGE K. KARAGIANNIDIS AristotleUniversityofThessaloniki,Greece ROBERT SCHOBER UniversityofBritishColumbia(UBC),Canada MURAT UYSAL Özyeg˘inUniversity,Turkey CAMBRIDGE UNIVERSITY PRESS Cambridge,NewYork,Melbourne,Madrid,CapeTown Singapore,SãoPaulo,Delhi,MexicoCity CambridgeUniversityPress TheEdinburghBuilding,CambridgeCB28RU,UK PublishedintheUnitedStatesofAmericabyCambridgeUniversityPress,NewYork www.cambridge.org Informationonthistitle:www.cambridge.org/9780521197878 (cid:2)c CambridgeUniversityPress2012 Thispublicationisincopyright.Subjecttostatutoryexception andtotheprovisionsofrelevantcollectivelicensingagreements, noreproductionofanypartmaytakeplacewithoutthewritten permissionofCambridgeUniversityPress. Firstpublished2012 PrintedintheUnitedKingdomattheUniversityPress,Cambridge AcatalogrecordforthispublicationisavailablefromtheBritishLibrary ISBN978-0-521-19787-8hardback CambridgeUniversityPresshasnoresponsibilityforthepersistenceor accuracyofURLsforexternalorthird-partyinternetwebsitesreferredto inthispublication,anddoesnotguaranteethatanycontentonsuch websitesis,orwillremain,accurateorappropriate. Contents Listofcontributors pagex PartI Outlook 1 1 Introduction 3 ShlomiArnon,JohnBarry,GeorgeKaragiannidis,RobertSchober,andMuratUysal PartII Opticalwirelesscommunicationtheory 9 2 Codedmodulationtechniquesforopticalwirelesschannels 11 IvanB.Djordjevic 2.1 Atmosphericturbulencechannelmodeling 12 2.2 Codesongraphs 13 2.3 Coded-MIMOfree-spaceopticalcommunication 19 2.4 RaptorcodesfortemporallycorrelatedFSOchannels 26 2.5 Adaptivemodulationandcoding(AMC)forFSO communications 29 2.6 MultidimensionalcodedmodulationforFSOcommunications 35 2.7 Free-spaceopticalOFDMcommunication 38 2.8 Heterogeneousopticalnetworks(HONs) 43 2.9 Summary 48 Acknowledgments 49 References 49 3 WirelessopticalCDMAcommunicationsystems 54 JawadA.Salehi,BabakM.Ghaffari,andMehdiD.Matinfar 3.1 Introduction 54 3.2 OCDMAsystemdescription 55 3.3 IndoorwirelessopticalCDMALAN 59 3.4 Free-spaceopticalCDMAsystems 68 3.5 Modulation 75 3.6 Experimentalprototypes 81 vi Contents Acknowledgment 84 References 84 4 Pointingerrorstatistics 87 ShlomiArnon References 89 5 EqualizationandMarkovchainsincloudchannel 90 MohsenKavehrad 5.1 Introduction 91 5.2 Channelpropagationmodeling 92 5.3 Modelingresultsandeigenanalyses 99 5.4 Equalizationrelatedissues 103 5.5 Summaryandconclusions 112 Acknowledgment 113 References 113 6 Multiple-inputmultiple-outputtechniquesforindooropticalwireless communications 116 SteveHranilovic 6.1 IndoorOWMIMOchannelcharacteristics 117 6.2 MIMOfordiffuseOWchannels 119 6.3 Spot-diffusingOWMIMOsystems 123 6.4 Point-to-PointOWMIMOcommunications 127 6.5 Futuredirections 138 References 139 7 Channelcapacity 146 AmosLapidoth,StefanM.Moser,andMichèleWigger 7.1 Introductionandchannelmodels 146 7.2 Capacityresults 150 7.3 Prooftechniques 163 References 172 PartIII Uniquechannels 175 8 Modelingandcharacterizationofultravioletscatteringcommunicationchannels 177 HaipengDing,BrianM.Sadler,GangChen,andZhengyuanXu 8.1 Introduction 177 8.2 Singlescatteringmodels 181 Contents vii 8.3 Multiplescatteringmodels 183 8.4 NLOSUVchannelmeasurementsystems 189 8.5 Numericalandexperimentalresults 192 8.6 Summary 198 References 199 9 Free-spaceopticalcommunicationsunderwater 201 BrandonCochenourandLindaMullen 9.1 Introduction:towardsalinkequation 201 9.2 Introductiontooceanoptics 202 9.3 Channelcharacterization:theory 213 9.4 Experimentalresearchinwirelessopticalcommunicationsunderwater 218 9.5 SystemdesignforuFSOlinks 228 9.6 Summary 236 References 237 10 Theopticalwirelesschannel 240 RogerGreenandMarkLeeson 10.1 Introduction 240 10.2 Systemconfigurations 241 10.3 Opticalsources 242 10.4 Opticaldetectors 244 10.5 Opticalfilters 245 10.6 Natureoftheopticalwirelesschannel 247 10.7 Interferencesources 248 10.8 ImpactofinterferenceonBER 251 10.9 Channelimpulseresponse 253 10.10 Hardware aspects of the receiver-amplifier in the indoorchannelenvironment 255 10.11 Modulationschemesforopticalwireless 263 10.12 Opticsforopticalwireless 267 10.13 Concludingremarks 268 References 269 11 HybridRF/FSOcommunications 273 NickLetzepisandAlbertGuilléniFàbregas 11.1 Introduction 273 11.2 Channelmodel 275 11.3 Information-theoreticpreliminaries 281 11.4 Uniformpowerallocation 287 11.5 Powerallocation 292 11.6 Conclusionsandsummary 295 viii Contents AppendixA Kullback–LeiblerdivergencebetweenPoissonandGaussian distributions 297 AppendixB Derivativeofthemutualinformationfordiscrete-inputPoisson channels 297 Acknowledgments 299 References 299 PartIV Applications 303 12 Quantumkeydistribution 305 RupertUrsin,NathanLangfordandAndreasPoppe 12.1 Motivation 305 12.2 SecurityconsiderationsofQKD 306 12.3 QKDprotocols 308 12.4 Technicalimplementationofafree-spacesetup 312 12.5 QKDnetworks 319 References 326 13 Opticalmodulatingretro-reflectors 328 WilliamRabinovich 13.1 Introduction 328 13.2 Modulatingretro-reflectorlinkbudgets 330 13.3 Theopticalretro-reflector 332 13.4 Theopticalmodulator 334 13.5 Modulatingretro-reflectorapplicationsandfielddemonstrations 341 13.6 Conclusion 347 References 347 14 Visible-lightcommunications 351 KangTae-Gyu 14.1 VLCprinciple 351 14.2 VLCstandards 354 14.3 VLCresearchanddevelopment 359 14.4 VLCapplications 361 14.5 Futurework 367 References 367 15 Opticalwirelessinsensornetworks 369 DominicC.O’BrienandSashigaranSivathasan 15.1 Introduction 369 15.2 Free-spaceoptical(FSO)sensornetwork 371 Contents ix 15.3 Radiofrequency/Free-spaceoptical(RF/FSO)sensornetworksystem 378 15.4 Conclusions 383 15.5 Acknowledgments 384 References 384 Index 388 Contributors ShlomiArnon BenGurionUniversityoftheNegev,Israel JohnR.Barry GeorgiaInstituteofTechnology GangChen UniversityofCalifornia BrandonCochenour NavalAirSystemsCommand(NAVAIR),USA HaipengDing UniversityofCalifornia IvanDjordjevic UniversityofArizona BabakM.Ghaffari SharifUniversityofTechnology,Iran RogerGreen UniversityofWarwick SteveHranilovic McMasterUniversity,Canada AlbertG.iFàbregas UniversityofCambridge MohsenKavehrad PennsylvaniaStateUniversity GeorgeK.Karagiannidis AristotleUniversityofThessaloniki,Greece NathanLangford UniversityofOxford AmosLapidoth ETHZurich