Wireless sensor networks energy harvesting and management for research and industry

Wireless sensor networks energy harvesting and management for research and industry

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1. Verfasser: Fahmy, Hossam Mahmoud Ahmad 1951- (VerfasserIn)
Format: Buch
Sprache:English
Veröffentlicht: Cham Springer [2020]
Schriftenreihe:Signals and communication technology
Schlagworte:
Engineering
Energy Harvesting
Drahtloses Sensorsystem
Energiemanagement
WSN course
WSN emulators
WSN simulators
WSN standards
WSN testbeds
WSN transport layer protocols
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Datensatz im Suchindex

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adam_text CONTENTS XI PART I CONCEPTS AND ENERGY HARVESTING 1 WIRELESS SENSOR NETWORKS ESSENTIALS ...................................................... 3 1.1 SENSING, SENSES, SENSORS ................................................................. 4 1.2 TOWARD WIRELESS SENSOR NETWORKS ................................................. 5 1.3 MOBILE AD HOC NETWORKS (MANETS) .......................................... 7 1.4 WIRELESS MESH NETWORKS (WMNS) ................................................. 8 1.5 CLOSER PERSPECTIVE TO WSNS .......................................................... 11 1.5.1 WIRELESS SENSOR NODES ........................................................ 11 1.5.2 ARCHITECTURE OF WSNS ........................................................ 12 1.6 TYPES OF WSNS ............................................................................... 13 1.6.1 TERRESTRIAL WSNS ................................................................. 13 1.6.2 UNDERGROUND WSNS ............................................................. 14 1.6.3 UNDERWATER ACOUSTIC SENSOR NETWORKS (UASNS) ............ 15 1.6.4 MULTIMEDIA WSNS ............................................................... 16 1.6.5 MOBILE WSNS ...................................................................... 17 1.7 PERFORMANCE METRICS OF WSNS ........................................................ 19 1.8 WSNS STANDARDS ............................................................................... 21 1.9 PROTOCOL STACK OF WSNS ................................................................. 23 1.9.1 PHYSICAL LAYER ...................................................................... 26 1.9.2 DATA LINK LAYER ................................................................. 27 1.9.3 NETWORK LAYER ...................................................................... 28 1.9.4 TRANSPORT LAYER ................................................................... 29 1.9.5 APPLICATION LAYER ............................................................... 30 1.9.6 CROSS-LAYER PROTOCOLS FOR WSNS ..................................... 32 1.10 CONCLUSION FOR ENERGETIC TRIP ........................................................ 33 1.11 EXERCISES ........................................................................................... 35 REFERENCES .................................................................................................... 36 XII CONTENTS 2 ENERGY HARVESTING IN WSNS .................................................................... 41 2.1 ENERGY CONSTRAINTS ........................................................................... 41 2.2 ENERGY HARVESTING CONCEPTS AND COMPONENTS ............................ 43 2.2.1 ENERGY HARVESTING ARCHITECTURES ........................................ 43 2.2.2 POWER AND ENERGY DIFFERENTIATED ........................................ 44 2.2.3 ENERGY HARVESTING VERSUS BATTERY-OPERATED SYSTEMS ... 48 2.2.4 STORAGE TECHNOLOGIES .......................................................... 50 2.2.5 HARVESTING THEORY ............................................................... 55 2.2.6 CONDITIONS FOR ENERGY-NEUTRAL OPERATION .......................... 56 2.2.7 CHARACTERISTICS AND CLASSIFICATIONS OF THE HARVESTABLE ENERGY SOURCES .................................................................... 58 2.2.8 MULTISUPPLY AND AUTONOMOUS ENERGY HARVESTING ............ 60 2.3 ENERGY HARVESTING MECHANISMS ...................................................... 62 2.3.1 PHOTOVOLTAIC ENERGY HARVESTING ........................................ 64 2.3.2 ENERGY HARVESTING FROM MOTION AND VIBRATION .............. 64 2.3.3 ENERGY HARVESTING FROM TEMPERATURE DIFFERENCES ......... 69 2.3.4 WIND ENERGY HARVESTING ................................................... 71 2.3.5 WIRELESS ENERGY HARVESTING ............................................... 71 2.3.6 BIOCHEMICAL ENERGY HARVESTING ........................................ 73 2.3.7 ACOUSTIC ENERGY HARVESTING ............................................... 80 2.3.8 HYBRID ENERGY HARVESTING ................................................. 82 2.4 MEMS FOR ENERGY HARVESTERS FABRICATION ................................... 85 2.5 CONCLUSION FOR ENLIGHTENMENT ........................................................ 90 2.6 EXERCISES ........................................................................................... 92 REFERENCES .................................................................................................... 92 PART II ENERGY MANAGEMENT PERSPECTIVES 3 ENERGY MANAGEMENT TECHNIQUES FOR WSNS ........................................ 103 3.1 ENERGY CONSERVATION APPROACHES .................................................... 103 3.1.1 DUTY-CYCLING TECHNIQUES ................................................... 105 3.1.2 DATA-DRIVEN TECHNIQUES ...................................................... 106 3.1.3 MOBILITY-BASED TECHNIQUES ............................................... 106 3.2 CONCLUSION FOR MORE ON ENERGY MANAGEMENT .............................. 107 3.3 EXERCISES ........................................................................................... 107 REFERENCES .................................................................................................... 107 4 ENERGY MANAGEMENT TECHNIQUES FOR WSNS (1): DUTY-CYCLING APPROACH .................................................................................................... 109 4.1 DUTY-CYCLING APPROACH TAXONOMY ............................................... 109 4.1.1 TOPOLOGY CONTROL PROTOCOLS ............................................... ILL 4.1.2 POWER MANAGEMENT PROTOCOLS ............................................ 133 CONTENTS XIII 4.2 CONCLUSION FOR LONGER DUTY-CYCLING ............................................ 246 4.3 EXERCISES ........................................................................................... 251 REFERENCES .................................................................................................... 251 5 ENERGY MANAGEMENT TECHNIQUES FOR WSNS (2): DATA-DRIVEN APPROACH .................................................................................................... 259 5.1 DATA-DRIVEN APPROACH TAXONOMY ................................................. 259 5.1.1 DATA REDUCTION PROTOCOLS ................................................... 260 5.1.2 ENERGY-EFFICIENT DATA ACQUISITION ..................................... 340 5.2 CONCLUSION FOR WELL-MANAGED LIFESTYLE ........................................ 383 5.3 EXERCISES ........................................................................................... 388 REFERENCES .................................................................................................... 389 6 ENERGY MANAGEMENT TECHNIQUES FOR WSNS (3): MOBILITY-BASED APPROACH .................................................................................................... 399 6.1 MOBILITY IN WSNS .......................................................................... 399 6.1.1 ARCHITECTURE OF WSNS WITH MOBILE ELEMENTS ..................... 400 6.1.2 ROLE OF MOBILE ELEMENTS IN WSNS ................................... 401 6.2 MOBILITY-BASED APPROACH TAXONOMY ............................................ 405 6.2.1 MOBILE SINK PROTOCOLS ........................................................ 406 6.2.2 MOBILE RELAY PROTOCOLS ...................................................... 448 6.3 CONCLUSION FOR CONTROLLED MOBILITY ............................................... 476 6.4 EXERCISES ........................................................................................... 483 REFERENCES .................................................................................................... 484 PART III HARVESTING AND MANAGEMENT PROJECTS AND TESTBEDS 7 ENERGY HARVESTING PROJECTS FOR WSNS ................................................. 489 7.1 NECESSITIES-DRIVEN PROJECTS . ........................................................... 489 7.2 ENERGY HARVESTING PROJECTS ............................................................. 490 7.2.1 ZEBRANET: ENERGY-EFFICIENT COMPUTING FOR WILDLIFE TRACKING ............................................................................... 490 7.2.2 PROMETHEUS FOR PERPETUAL ENVIRONMENTALLY POWERED SENSOR NETWORKS ................................................................. 507 7.2.3 SOLAR BISCUIT: A BATTERYLESS WIRELESS SENSOR NETWORK SYSTEM FOR ENVIRONMENTAL MONITORING APPLICATIONS .... 514 7.2.4 HELIOMOTE FOR SOLAR ENERGY HARVESTING IN WIRELESS EMBEDDED SYSTEMS ............................................................ 526 7.2.5 EVERLAST: LONG-LIFE, SUPER-CAPACITOR-OPERATED WIRELESS SENSOR NODE ........................................................ 536 7.2.6 AMBIMAX: AUTONOMOUS ENERGY HARVESTING PLATFORM FOR MULTISUPPLY WIRELESS SENSOR NODES ............................ 550 7.2.7 SUNFLOWER: LOW-POWER, ENERGY HARVESTING SYSTEM WITH CUSTOM MULTICHANNEL COMMUNICATION INTERFACE . . . 558 XIV CONTENTS 7.2.8 MICRO-SOLAR POWER SENSOR NETWORKS FOR FOREST WATERSHEDS ........................................................................... 569 7.2.9 ENERGY HARVESTING FROM HYBRID INDOOR AMBIENT LIGHT AND THERMAL ENERGY SOURCES ............................................ 580 7.3 CONCLUSION FOR RADIANCE ................................................................. 599 7.4 EXERCISES ........................................................................................... 601 REFERENCES .................................................................................................... 602 8 ENERGY MANAGEMENT PROJECTS FOR WSNS ............................................. 611 8.1 ENERGY MANAGEMENT PROJECTS .......................................................... 611 8.2 EVOLUTION AND SUSTAINABILITY OF A WILDLIFE MONITORING SENSOR NETWORK ............................................................................................. 612 8.2.1 INITIAL SYSTEM DESIGN .......................................................... 614 8.2.2 EVOLUTION STAGE 1: IMPROVING SENSING AND DATA COLLECTION ............................................................................. 619 8.2.3 EVOLUTION STAGE 2: HARDWARE IMPROVEMENTS ................... 626 8.2.4 NETWORK MAINTENANCE COSTS ............................................... 630 8.2.5 GAINED EXPERIENCE ............................................................... 633 8.3 CONCLUSION FOR BRIGHTNESS ............................................................... 634 8.4 EXERCISES ........................................................................................... 635 REFERENCES .................................................................................................... 636 9 WSNS ENERGY TESTBEDS ............................................................................. 639 9.1 FUNCTIONALITIES .................................................................................. 639 9.2 TYPICAL WSNS ENERGY TESTBED ...................................................... 641 9.2.1 POWERBENCH: A SCALABLE TESTBED INFRASTRUCTURE FOR BENCHMARKING POWER CONSUMPTION ............... 641 9.3 CONCLUSION FOR BRILLIANCE ................................................................. 644 9.4 EXERCISES ........................................................................................... 645 REFERENCES .................................................................................................... 645 PART IV IGNITION 10 LAST FLARE .................................................................................................... 649 INDEX ..................................................................................................................... 651 INDEX OF ABBREVIATIONS AND ACRONYMS ......................................................... 659
adam_txt CONTENTS XI PART I CONCEPTS AND ENERGY HARVESTING 1 WIRELESS SENSOR NETWORKS ESSENTIALS . 3 1.1 SENSING, SENSES, SENSORS . 4 1.2 TOWARD WIRELESS SENSOR NETWORKS . 5 1.3 MOBILE AD HOC NETWORKS (MANETS) . 7 1.4 WIRELESS MESH NETWORKS (WMNS) . 8 1.5 CLOSER PERSPECTIVE TO WSNS . 11 1.5.1 WIRELESS SENSOR NODES . 11 1.5.2 ARCHITECTURE OF WSNS . 12 1.6 TYPES OF WSNS . 13 1.6.1 TERRESTRIAL WSNS . 13 1.6.2 UNDERGROUND WSNS . 14 1.6.3 UNDERWATER ACOUSTIC SENSOR NETWORKS (UASNS) . 15 1.6.4 MULTIMEDIA WSNS . 16 1.6.5 MOBILE WSNS . 17 1.7 PERFORMANCE METRICS OF WSNS . 19 1.8 WSNS STANDARDS . 21 1.9 PROTOCOL STACK OF WSNS . 23 1.9.1 PHYSICAL LAYER . 26 1.9.2 DATA LINK LAYER . 27 1.9.3 NETWORK LAYER . 28 1.9.4 TRANSPORT LAYER . 29 1.9.5 APPLICATION LAYER . 30 1.9.6 CROSS-LAYER PROTOCOLS FOR WSNS . 32 1.10 CONCLUSION FOR ENERGETIC TRIP . 33 1.11 EXERCISES . 35 REFERENCES . 36 XII CONTENTS 2 ENERGY HARVESTING IN WSNS . 41 2.1 ENERGY CONSTRAINTS . 41 2.2 ENERGY HARVESTING CONCEPTS AND COMPONENTS . 43 2.2.1 ENERGY HARVESTING ARCHITECTURES . 43 2.2.2 POWER AND ENERGY DIFFERENTIATED . 44 2.2.3 ENERGY HARVESTING VERSUS BATTERY-OPERATED SYSTEMS . 48 2.2.4 STORAGE TECHNOLOGIES . 50 2.2.5 HARVESTING THEORY . 55 2.2.6 CONDITIONS FOR ENERGY-NEUTRAL OPERATION . 56 2.2.7 CHARACTERISTICS AND CLASSIFICATIONS OF THE HARVESTABLE ENERGY SOURCES . 58 2.2.8 MULTISUPPLY AND AUTONOMOUS ENERGY HARVESTING . 60 2.3 ENERGY HARVESTING MECHANISMS . 62 2.3.1 PHOTOVOLTAIC ENERGY HARVESTING . 64 2.3.2 ENERGY HARVESTING FROM MOTION AND VIBRATION . 64 2.3.3 ENERGY HARVESTING FROM TEMPERATURE DIFFERENCES . 69 2.3.4 WIND ENERGY HARVESTING . 71 2.3.5 WIRELESS ENERGY HARVESTING . 71 2.3.6 BIOCHEMICAL ENERGY HARVESTING . 73 2.3.7 ACOUSTIC ENERGY HARVESTING . 80 2.3.8 HYBRID ENERGY HARVESTING . 82 2.4 MEMS FOR ENERGY HARVESTERS FABRICATION . 85 2.5 CONCLUSION FOR ENLIGHTENMENT . 90 2.6 EXERCISES . 92 REFERENCES . 92 PART II ENERGY MANAGEMENT PERSPECTIVES 3 ENERGY MANAGEMENT TECHNIQUES FOR WSNS . 103 3.1 ENERGY CONSERVATION APPROACHES . 103 3.1.1 DUTY-CYCLING TECHNIQUES . 105 3.1.2 DATA-DRIVEN TECHNIQUES . 106 3.1.3 MOBILITY-BASED TECHNIQUES . 106 3.2 CONCLUSION FOR MORE ON ENERGY MANAGEMENT . 107 3.3 EXERCISES . 107 REFERENCES . 107 4 ENERGY MANAGEMENT TECHNIQUES FOR WSNS (1): DUTY-CYCLING APPROACH . 109 4.1 DUTY-CYCLING APPROACH TAXONOMY . 109 4.1.1 TOPOLOGY CONTROL PROTOCOLS . ILL 4.1.2 POWER MANAGEMENT PROTOCOLS . 133 CONTENTS XIII 4.2 CONCLUSION FOR LONGER DUTY-CYCLING . 246 4.3 EXERCISES . 251 REFERENCES . 251 5 ENERGY MANAGEMENT TECHNIQUES FOR WSNS (2): DATA-DRIVEN APPROACH . 259 5.1 DATA-DRIVEN APPROACH TAXONOMY . 259 5.1.1 DATA REDUCTION PROTOCOLS . 260 5.1.2 ENERGY-EFFICIENT DATA ACQUISITION . 340 5.2 CONCLUSION FOR WELL-MANAGED LIFESTYLE . 383 5.3 EXERCISES . 388 REFERENCES . 389 6 ENERGY MANAGEMENT TECHNIQUES FOR WSNS (3): MOBILITY-BASED APPROACH . 399 6.1 MOBILITY IN WSNS . 399 6.1.1 ARCHITECTURE OF WSNS WITH MOBILE ELEMENTS . 400 6.1.2 ROLE OF MOBILE ELEMENTS IN WSNS . 401 6.2 MOBILITY-BASED APPROACH TAXONOMY . 405 6.2.1 MOBILE SINK PROTOCOLS . 406 6.2.2 MOBILE RELAY PROTOCOLS . 448 6.3 CONCLUSION FOR CONTROLLED MOBILITY . 476 6.4 EXERCISES . 483 REFERENCES . 484 PART III HARVESTING AND MANAGEMENT PROJECTS AND TESTBEDS 7 ENERGY HARVESTING PROJECTS FOR WSNS . 489 7.1 NECESSITIES-DRIVEN PROJECTS . . 489 7.2 ENERGY HARVESTING PROJECTS . 490 7.2.1 ZEBRANET: ENERGY-EFFICIENT COMPUTING FOR WILDLIFE TRACKING . 490 7.2.2 PROMETHEUS FOR PERPETUAL ENVIRONMENTALLY POWERED SENSOR NETWORKS . 507 7.2.3 SOLAR BISCUIT: A BATTERYLESS WIRELESS SENSOR NETWORK SYSTEM FOR ENVIRONMENTAL MONITORING APPLICATIONS . 514 7.2.4 HELIOMOTE FOR SOLAR ENERGY HARVESTING IN WIRELESS EMBEDDED SYSTEMS . 526 7.2.5 EVERLAST: LONG-LIFE, SUPER-CAPACITOR-OPERATED WIRELESS SENSOR NODE . 536 7.2.6 AMBIMAX: AUTONOMOUS ENERGY HARVESTING PLATFORM FOR MULTISUPPLY WIRELESS SENSOR NODES . 550 7.2.7 SUNFLOWER: LOW-POWER, ENERGY HARVESTING SYSTEM WITH CUSTOM MULTICHANNEL COMMUNICATION INTERFACE . . . 558 XIV CONTENTS 7.2.8 MICRO-SOLAR POWER SENSOR NETWORKS FOR FOREST WATERSHEDS . 569 7.2.9 ENERGY HARVESTING FROM HYBRID INDOOR AMBIENT LIGHT AND THERMAL ENERGY SOURCES . 580 7.3 CONCLUSION FOR RADIANCE . 599 7.4 EXERCISES . 601 REFERENCES . 602 8 ENERGY MANAGEMENT PROJECTS FOR WSNS . 611 8.1 ENERGY MANAGEMENT PROJECTS . 611 8.2 EVOLUTION AND SUSTAINABILITY OF A WILDLIFE MONITORING SENSOR NETWORK . 612 8.2.1 INITIAL SYSTEM DESIGN . 614 8.2.2 EVOLUTION STAGE 1: IMPROVING SENSING AND DATA COLLECTION . 619 8.2.3 EVOLUTION STAGE 2: HARDWARE IMPROVEMENTS . 626 8.2.4 NETWORK MAINTENANCE COSTS . 630 8.2.5 GAINED EXPERIENCE . 633 8.3 CONCLUSION FOR BRIGHTNESS . 634 8.4 EXERCISES . 635 REFERENCES . 636 9 WSNS ENERGY TESTBEDS . 639 9.1 FUNCTIONALITIES . 639 9.2 TYPICAL WSNS ENERGY TESTBED . 641 9.2.1 POWERBENCH: A SCALABLE TESTBED INFRASTRUCTURE FOR BENCHMARKING POWER CONSUMPTION . 641 9.3 CONCLUSION FOR BRILLIANCE . 644 9.4 EXERCISES . 645 REFERENCES . 645 PART IV IGNITION 10 LAST FLARE . 649 INDEX . 651 INDEX OF ABBREVIATIONS AND ACRONYMS . 659
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author Fahmy, Hossam Mahmoud Ahmad 1951-
author_GND (DE-588)1096334712
author_facet Fahmy, Hossam Mahmoud Ahmad 1951-
author_role aut
author_sort Fahmy, Hossam Mahmoud Ahmad 1951-
author_variant h m a f hma hmaf
building Verbundindex
bvnumber BV047023194
classification_rvk ZQ 3120
ctrlnum (OCoLC)1195953484
(DE-599)DNB1210952246
dewey-full 006.25
621.38232
dewey-hundreds 000 - Computer science, information, general works
600 - Technology (Applied sciences)
dewey-ones 006 - Special computer methods
621 - Applied physics
dewey-raw 006.25
621.38232
dewey-search 006.25
621.38232
dewey-sort 16.25
dewey-tens 000 - Computer science, information, general works
620 - Engineering and allied operations
discipline Informatik
Elektrotechnik / Elektronik / Nachrichtentechnik
Mess-/Steuerungs-/Regelungs-/Automatisierungstechnik / Mechatronik
discipline_str_mv Informatik
Elektrotechnik / Elektronik / Nachrichtentechnik
Mess-/Steuerungs-/Regelungs-/Automatisierungstechnik / Mechatronik
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id DE-604.BV047023194
illustrated Illustrated
index_date 2024-07-03T15:59:54Z
indexdate 2024-07-10T09:00:25Z
institution BVB
isbn 9783030296988
language English
oai_aleph_id oai:aleph.bib-bvb.de:BVB01-032430618
oclc_num 1195953484
open_access_boolean
owner DE-703
owner_facet DE-703
physical xxxiv, 661 Seiten Illustrationen, Diagramme 25 cm
publishDate 2020
publishDateSearch 2020
publishDateSort 2020
publisher Springer
record_format marc
series2 Signals and communication technology
spelling Fahmy, Hossam Mahmoud Ahmad 1951- Verfasser (DE-588)1096334712 aut
Wireless sensor networks energy harvesting and management for research and industry Hossam Mahmoud Ahmad Fahmy
Cham Springer [2020]
xxxiv, 661 Seiten Illustrationen, Diagramme 25 cm
txt rdacontent
n rdamedia
nc rdacarrier
Signals and communication technology
Engineering
Energy Harvesting (DE-588)7664612-9 gnd rswk-swf
Drahtloses Sensorsystem (DE-588)4789222-5 gnd rswk-swf
Energiemanagement (DE-588)4124833-8 gnd rswk-swf
WSN course
WSN emulators
WSN simulators
WSN standards
WSN testbeds
WSN transport layer protocols
Drahtloses Sensorsystem (DE-588)4789222-5 s
Energy Harvesting (DE-588)7664612-9 s
Energiemanagement (DE-588)4124833-8 s
DE-604
Erscheint auch als Online-Ausgabe 978-3-030-29700-8
B:DE-101 application/pdf https://d-nb.info/1210952246/04 Inhaltsverzeichnis
DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032430618&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle Fahmy, Hossam Mahmoud Ahmad 1951-
Wireless sensor networks energy harvesting and management for research and industry
Engineering
Energy Harvesting (DE-588)7664612-9 gnd
Drahtloses Sensorsystem (DE-588)4789222-5 gnd
Energiemanagement (DE-588)4124833-8 gnd
subject_GND (DE-588)7664612-9
(DE-588)4789222-5
(DE-588)4124833-8
title Wireless sensor networks energy harvesting and management for research and industry
title_auth Wireless sensor networks energy harvesting and management for research and industry
title_exact_search Wireless sensor networks energy harvesting and management for research and industry
title_exact_search_txtP Wireless sensor networks energy harvesting and management for research and industry
title_full Wireless sensor networks energy harvesting and management for research and industry Hossam Mahmoud Ahmad Fahmy
title_fullStr Wireless sensor networks energy harvesting and management for research and industry Hossam Mahmoud Ahmad Fahmy
title_full_unstemmed Wireless sensor networks energy harvesting and management for research and industry Hossam Mahmoud Ahmad Fahmy
title_short Wireless sensor networks
title_sort wireless sensor networks energy harvesting and management for research and industry
title_sub energy harvesting and management for research and industry
topic Engineering
Energy Harvesting (DE-588)7664612-9 gnd
Drahtloses Sensorsystem (DE-588)4789222-5 gnd
Energiemanagement (DE-588)4124833-8 gnd
topic_facet Engineering
Energy Harvesting
Drahtloses Sensorsystem
Energiemanagement
url https://d-nb.info/1210952246/04
http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032430618&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv AT fahmyhossammahmoudahmad wirelesssensornetworksenergyharvestingandmanagementforresearchandindustry

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