Verfügbarkeit: Energy harvesting for wireless sensor networks

Energy harvesting for wireless sensor networks: technology, components and system design

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Bibliographische Detailangaben
Weitere Verfasser:	Kanoun, Olfa (HerausgeberIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin, Boston De Gruyter Oldenbourg [2019]
Schlagworte:	Sonnenenergie Stromversorgung > Elektrotechnik Thermoelektrischer Wandler Energieversorgung Energiemanagement Energieeffizienz Drahtloses Sensorsystem Energiespeicherung Drahtlose Energieübertragung Mikroelektronik Autarkie Schwingung Energy Harvesting Systementwurf Energieübertragung
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XVII, 383 Seiten Illustrationen, Diagramme
ISBN:	9783110443684

Internformat

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245	1	0	\|a Energy harvesting for wireless sensor networks \|b technology, components and system design \|c edited by Olfa Kanoun
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Datensatz im Suchindex

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adam_text	CONTENTS PREFACE* V PART I: FUNDAMENTALS AND METHODS ROBERTO PALMA, JOSE L. PEREZ-APARICIO, AND PEDRO MUSEROS FINITE ELEMENT MODELING OF ENERGY HARVESTERS: APPLICATION TO VIBRATIONAL DEVICES * 3 1 INTRODUCTION * 3 2 ACTIVE MATERIALS ----- 5 3 CONTINUUM PHYSICS * 9 3.1 OUTLINE OF CONTINUUM MECHANICS * 10 3.2 OUTLINE OF CONTINUUM ELECTRODYNAMICS * 13 3.3 OUTLINE OF THERMODYNAMICS * 16 3.4 SUMMARY OF GOVERNING EQUATIONS * 18 4 FINITE ELEMENT METHOD * 20 4.1 OUTLINE OF THE FINITE ELEMENT METHOD * 20 4.2 FINITE ELEMENT MODELING OF ACTIVE MATERIALS * 22 5 APPLICATION: ENERGY PRODUCTION IN HIGH-SPEED RAILWAY BRIDGES * 24 5.1 OVERVIEW OF HIGH-SPEED RAILWAY BRIDGES * 24 5.2 NUMERICAL MODELING OF HARVESTERS * 30 6 CONCLUDING REMARKS * 33 CHRISTIAN VIEHWEGER SOLAR ENERGY HARVESTING FOR WIRELESS SENSOR SYSTEMS * 37 1 INTRODUCTION * 37 2 ASSESSMENT OF THE INCOMING ENERGY * 38 3 MAXIMUM POWER POINT TRACKING * 40 3.1 THE MOST COMMON METHODS * 41 4 CONCLUSION ----- 44 ZDENEK HADAS AND JAN SMILEK EFFICIENCY OF VIBRATION ENERGY HARVESTING SYSTEMS * 45 1 INTRODUCTION * 45 2 VIBRATION ENERGY HARVESTING SYSTEMS * 46 2.1 MECHANICAL RESONATORS OF VIBRATION ENERGY HARVESTING SYSTEMS * 47 2.2 COMPLEX MODEL OF A VIBRATING STRUCTURE WITH AN ENERGY HARVESTING SYSTEM * 48 2.3 EFFICIENCY OF VIBRATION ENERGY HARVESTING SYSTEMS * 49 3 MODEL OF AN ELECTROMAGNETIC ENERGY TRANSDUCER* 50 4 EFFICIENCY ANALYSIS BASED ON VIBRATION ENERGY HARVESTING SIMULATION ----- 51 4.1 MECHANICAL MODEL OF THE VIBRATION ENERGY HARVESTING SYSTEM * 51 4.2 EQUIVALENT RLC CIRCUITS OF THE VIBRATION ENERGY HARVESTING SYSTEM * 53 5 ANALYSES AND SIMULATION RESULTS OF EQUIVALENT RLC CIRCUITS ----- 54 5.1 MECHANICAL AND ELECTRICAL PARAMETERS FOR ANALYSES ----- 54 5.2 ANALYSES OF EFFICIENCY AND OUTPUT POWER FOR MECHANICAL PARAMETERS * 55 5.3 ANALYSES OF EFFICIENCY AND OUTPUT POWER FOR COUPLING PARAMETERS * 58 6 COMPARING THE PERFORMANCE OF VIBRATION ENERGY HARVESTERS * 59 7 CONCLUSIONS* 61 MARTIN GOETZ ENERGY MANAGEMENT CONCEPTS FOR WIRELESS SENSOR NODES ----- 65 1 INTRODUCTION * 65 2 ENERGY HARVESTING FROM AMBIENT POWER SOURCES * 67 3 WIRELESS POWER TRANSFER * 68 4 ENERGY STORAGE * 70 5 LOADS ----- 70 6 ENERGY MANAGEMENT APPROACHES* 71 6.1 ACTIVE AND PASSIVE ENERGY MANAGEMENT * 71 6.2 MICROCONTROLLER-BASED ENERGY MANAGEMENT ----- 72 6.3 MULTI LEVEL ENERGY MANAGEMENT ----- 72 7 EXTRACTION POWER MANAGEMENT STRATEGIES * 73 7.1 MAXIMUM POWER POINT* 73 7.2 MAXIMUM POWER POINT TRACKING * 74 7.3 MAXIMUM ENERGY EXTRACTION * 75 7.4 HYBRID HARVESTING* 78 7.5 NON-LINEAR ENERGY MANAGEMENT * 80 8 CORE SYSTEM ENERGY MANAGEMENT STRATEGIES * 80 8.1 ENERGY STORAGE MANAGEMENT * 80 8.2 MULTI-STORAGE MANAGEMENT * 86 8.3 VOLTAGE SUPERVISION * 89 8.4 SYSTEM OPTIMIZATION * 91 9 WIRELESS ENERGY MANAGEMENT STRATEGIES ----- 92 9.1 WIRELESS COMMUNICATION/ENERGY CONSERVATION IN LINK AND NETWORK LAYERS ----- 92 9.2 ENERGY AWARE ROUTING, MULTI-HOP DEPLOYMENTS AND CLUSTERING* 94 10 CONCLUSION * 95 PART II: VIBRATION CONVERTERS AND HYBRIDIZATION SLIM NAIFAR, SONIA BRADAI, SLIM CHOURA, AND OLFA KANOUN MAGNETOELECTRIC VIBRATION ENERGY HARVESTING * 103 1 INTRODUCTION ----- 103 2 MAGNETOELECTRIC COMPOSITES * 104 2.1 MAGNETOELECTRIC EFFECT * 104 2.2 MAGNETOELECTRIC MATERIALS ----- 105 2.3 MAGNETOELECTRIC LAMINATE COMPOSITES * 106 3 OVERVIEW OF MAGNETOELECTRIC ENERGY HARVESTERS * 106 3.1 RECTANGULAR MAGNETS * 107 3.2 HOLLOW MAGNETS * 108 4 FINITE ELEMENT MODEL OF MAGNETOELECTRICITY * 110 4.1 MODELING OF MAGNETOSTRICTION * 110 4.2 MODELING OF ADHESIVELY BONDED JOINTS * 111 4.3 SIMULATION MODEL * 111 5 RESULTS AND DISCUSSION ----- 112 6 CONCLUSION ----- 112 CARLO TRIGONA, SONIA BRADAI, SLIM NAIFAR, OLFA KANOUN, AND SALVATORE BAGLIO NONLINEAR ELECTROMAGNETIC VIBRATION CONVERTER WITH BISTABLE RMSHI FOR POWER HARVESTING FROM AMBIENT VIBRATION * 117 1 INTRODUCTION * 117 2 THE PROPOSED NONLINEAR VIBRATION CONVERTER ----- 118 2.1 PRINCIPLE ----- 118 2.2 EXPERIMENTAL SETUP ----- 119 3 RESULTS ----- 120 4 CONCLUSION ----- 123 KRYSTIAN TYGAS, PIOTR WOLSZCZAK, PAWET ST^CZEK, AND GRZEGORZ LITAK ENERGY HARVESTING FROM AN OSCILLATING VERTICAL PIEZOELECTRIC CANTILEVER WITH CLEARANCE * 125 1 INTRODUCTION ----- 125 2 METHODS AND EXPERIMENTAL SETUP ----- 126 3 RESULTS ON POWER OUTPUT ----- 128 4 SOLUTION IDENTIFICATION ----- 128 5 FREQUENCY SWEEP: EVOLUTION OF THE SOLUTION ----- 131 6 CONCLUSIONS ----- 134 SONIA BRADAI, SLIM NAIFAR, RIADH ELLEUCH, AND OLFA KANOUN ON HYBRIDIZATION OF ELECTROMAGNETIC VIBRATION CONVERTERS * 137 1 INTRODUCTION ----- 137 2 HYBRID CONVERTERS * 138 2.1 ELECTROMAGNETIC-PIEZOELECTRIC VIBRATION CONVERTER* 138 2.2 ELECTROMAGNETIC-MAGNETOELECTRIC VIBRATION CONVERTER ----- 142 2.3 ELECTROMAGNETIC-MAGNETOSTRICTIVE VIBRATION CONVERTER * 143 2.4 COMPARISON OF HYBRID SYSTEMS * 144 3 HYBRID MAGNETOELECTRIC-ELECTROMAGNETIC CONVERTERS ----- 146 3.1 DESIGN OF AN EM/ME VIBRATION CONVERTER* 147 3.2 EFFECT OF COMBINED EM-ME ON THE ENERGY OUTCOME------147 4 CONCLUSION ----- 150 ANDRZEJ RYSAK, MAREK BOROWIEC, ARKADIUSZ SYTA, AND GRZEGORZ LITAK HYBRID VIBRATIONAL ENERGY HARVESTING USING PIEZOELECTRIC AND MAGNETOSTRICTIVE TRANSDUCERS * 153 1 INTRODUCTION * 153 2 EXPERIMENTAL SETUP AND MEASUREMENT RESULTS ----- 154 3 CONCLUSIONS ----- 157 PART III: WIRELESS ENERGY TRANSFER ELENA BOSHKOVSKA, NIKOLA ZLATANOV, XIAOMINGCHEN, DERRICK WING KWAN NG, AND ROBERT SCHOBER BEAMFORMING DESIGN FOR SECURE SWIFT SYSTEMS UNDER A NON-LINEAR ENERGY HARVESTING MODEL * 161 1 INTRODUCTION * 161 2 CHANNEL MODEL * 164 2.1 NONLINEAR ENERGY HARVESTING MODEL * 165 2.2 ACHIEVABLE SECRECY RATE * 167 3 PROBLEM FORMULATION AND SOLUTION * 168 4 RESULTS * 171 5 CONCLUSIONS * 174 6 APPENDIX ----- 174 6.1 PROOF OF PROPOSITION 1 ----- 174 6.2 PROOF OF THEOREM 1 * 175 ISSAM CHAOUR, AHMED FAKHFAKH, AND OLFA KANOUN RADIO FREQUENCY POWER TRANSFER FOR WIRELESS SENSORS IN INDOOR APPLICATIONS 1 INTRODUCTION ----- 181 2 RF TO DC CONVERSION AND STORAGE * 182 3 REFLECTION COEFFICIENT AND MATCHING CIRCUIT * 185 4 RF-DC RECTIFIER CIRCUITS FOR RF POWER TRANSFER * 186 4.1 SCHOTTKY DIODE ----- 186 4.2 TOPOLOGIES FOR RF TO DC RECTIFIERS * 188 4.3 RF TO DC RECTIFIER BASED ON A DIODE-CONNECTED CMOS TRANSISTOR * 192 5 CONCLUSION ----- 194 MOHAMMAD HAERINIA MODELING AND SIMULATION OF INDUCTIVE-BASED WIRELESS POWER TRANSMISSION SYSTEMS * 197 1 INTRODUCTION * 197 2 FUNDAMENTAL PRINCIPLES OF THE INDUCTIVE COUPLING APPROACH * 198 3 MODELING AND SIMULATION OF INDUCTIVE POWER TRANSFER (IPT) SYSTEMS * 200 3.1 RESONANT INDUCTIVE COUPLING AS A POTENTIAL MEANS FOR WPT TO PRINTED SPIRAL COILS * 200 3.2 INVESTIGATION OF THE RECEIVING POT CORE EFFECT ON THE MAGNETIC FLUX DENSITY IN INDUCTIVE COUPLING-BASED WIRELESS POWER TRANSFER * 206 3.3 ELECTROMAGNETIC ANALYSIS OF DIFFERENT GEOMETRIES OF TRANSMITTING COILS FOR WIRELESS POWER TRANSMISSION APPLICATIONS * 211 4 CONCLUSION * 217 BILEL KALLEL, GHADA BOUATTOUR, OLFA KANOUN, AND HAFEDH TRABELSI WIRELESS POWER TRANSMISSION VIA A MULTI-COIL INDUCTIVE SYSTEM * 221 1 INTRODUCTION * 221 2 EFFECT OF VERTICAL AND LATERAL DISTANCES ON INDUCTIVE POWER TRANSFER (IPT) SYSTEMS * 222 3 CLASSIFICATION OF THE MULTI-COIL INDUCTIVE SYSTEMS * 223 4 EXAMPLES OF THE USE OF MULTI-COIL INDUCTIVE SYSTEMS * 224 4.1 THREE-COIL SYSTEMS * 224 4.2 FOUR-COIL SYSTEMS ----- 225 4.3 MULTI-COIL SYSTEMS ----- 226 5 MODELING OF MULTI-COIL INDUCTIVE SYSTEMS * 227 5.1 BASIC LAWS * 227 5.2 ANALYTICAL MODELING* 229 5.3 ANALYTICAL EXPRESSION FOR EQUIVALENT INDUCTANCE Z.EQ * 229 5.4 ANALYTIC EXPRESSION FOR EQUIVALENT MUTUAL INDUCTANCE /WEQ * 230 5.5 ANALYTICAL EXPRESSION FOR INDUCED VOLTAGE AND CURRENT* 231 6 OPTIMIZATION OF MULTI-COIL INDUCTIVE SYSTEMS * 231 6.1 RECEIVED POWER OPTIMIZATION * 231 6.2 TOPOLOGY OPTIMIZATION * 233 6.3 DETECTION OF THE RECEIVER* 234 7 CONCLUSION * 234 GHADA BOUATTOUR, BILEL KALLEL, OLFA KANOUN, AND HOUDA DERBEI ENERGY MANAGEMENT FOR INDUCTIVE POWER TRANSMISSION * 237 1 INTRODUCTION ----- 237 2 COIL SHAPE AND ORIENTATION * 239 2.1 COIL SHAPE * 239 2.2 COIL ORIENTATION ----- 239 3 ENERGY MANAGEMENT AT THE SENDING SIDE * 240 3.1 DC/AC INVERTERS * 240 3.2 RESONANCE TOPOLOGIES * 243 4 ENERGY MANAGEMENT ON THE RECEIVING SIDE * 246 4.1 RECTIFICATION STAGE * 246 4.2 DC TO DC CONVERTER ----- 248 4.3 CHARGE STORAGE * 249 5 CONTROL SYSTEM ON INDUCTIVE POWER TRANSMISSION SYSTEMS * 251 6 CONCLUSION * 252 PART IV: ENERGY SAVING AND MANAGEMENT STRATEGIES RYM CHEOUR, MOHAMED WASSIM JMAL, OLFA KANOUN, AND MOHAMED ABID TOWARDS ENERGY-EFFICIENT POWER MANAGEMENT FOR WIRELESS SENSORS NETWORKS * 257 1 INTRODUCTION ----- 257 2 ENERGY SAVING TECHNIQUES IN WIRELESS SENSOR NETWORKS ----- 259 3 HEERS: HYBRID ENERGY-EFFICIENT POWER MANAGER SCHEDULING ----- 261 4 PERFORMANCE EVALUATION ----- 264 5 CONCLUSION ----- 266 STEFFI KNORN AND DANIEL E. QUEVEDO OPTIMAL ENERGY ALLOCATION IN ENERGY HARVESTING AND SHARING WIRELESS SENSOR NETWORKS ----- 269 1 INTRODUCTION ----- 269 2 MODELING ----- 270 2.1 ENERGY HARVESTING MODEL * 271 2.2 ENERGY SHARING MODEL ----- 272 2.3 BATTERY MODEL ----- 273 2.4 CHANNEL GAIN MODEL ----- 274 3 APPLICATION: MULTI-SENSOR ESTIMATION NETWORK WITH ENERGY HARVESTING AND ENERGY SHARING ----- 275 3.1 SOURCE MODEL AND SENSOR MEASUREMENTS ----- 275 3.2 ENERGY HARVESTER, ENERGY SHARING AND BATTERY DYNAMICS * 276 3.3 TRANSMISSION MODEL-----276 3.4 DISTORTION MEASURE AT THE FC * 277 3.5 DYNAMIC ENERGY CONTROL * 277 4 OPTIMIZATION TECHNIQUES * 278 4.1 FINITE TIME HORIZON OPTIMIZATION * 278 4.2 INFINITE TIME HORIZON OPTIMIZATION * 279 4.3 SUBOPTIMAL SOLUTIONS ----- 280 5 SIMULATION STUDY * 281 5.1 VARYING ENERGY TRANSFER EFFICIENCY * 282 5.2 VARYING BATTERY CAPACITY* 284 6 CONCLUSIONS ----- 285 SABRINE KHRIJI, DHOUHA EL HOUSSAINI, INES KAMMOUN, AND OLFA KANOUN ENERGY-EFFICIENT TECHNIQUES IN WIRELESS SENSOR NETWORKS * 287 1 INTRODUCTION ----- 287 2 ENERGY CONSUMPTION IN WIRELESS SENSORS NETWORKS * 289 3 ENERGY SUPPLY SOURCES IN WIRELESS SENSORS NETWORK* 291 4 ENERGY CONSERVATION IN WIRELESS SENSORS NETWORKS * 292 4.1 DATA DRIVEN APPROACHES * 293 4.2 DUTY CYCLING ----- 295 5 ENERGY-EFFICIENT ROUTING* 298 5.1 FLAT ROUTING ----- 298 5.2 HIERARCHICAL ROUTING * 299 5.3 MOBILITY-BASED ENERGY CONSERVATION SCHEMES * 301 6 CONCLUSION * 301 SADOK BDIRI, FAOUZI DERBEL, AND OLFA KANOUN A WAKE-UP RECEIVER FOR ONLINE ENERGY HARVESTING ENABLED WIRELESS SENSOR NETWORKS * 305 1 INTRODUCTION * 305 2 SYSTEM IMPLEMENTATION * 306 2.1 ENVELOPE DETECTOR* 307 2.2 BASEBAND AMPLIFIER * 309 2.3 BBAMP CONTROLLER ----- 309 2.4 THE DECODER* 310 2.5 WIRELESS MODULE * 311 3 SYSTEM EVALUATION * 313 3.1 MEASUREMENTS * 313 4 COMPARISON WITH THE LITERATURE * 317 5 CONCLUSION * 319 PART V: SYSTEM DESIGN AND APPLICATIONS DHOUHA EL HOUSSAINI, SABRINE KHRIJI, KAMEL BESBES, AND OLFA KANOUN WIRELESS SENSOR NETWORKS IN AGRICULTURAL APPLICATIONS * 323 1 INTRODUCTION * 323 2 APPLICATIONS OF WIRELESS SENSOR NETWORKS * 324 3 WIRELESS SENSOR NETWORK DEPLOYMENT SCENARIOS * 325 3.1 TERRESTRIAL WIRELESS SENSOR NETWORKS * 326 3.2 UNDERGROUND WIRELESS SENSOR NETWORKS * 326 4 WIRELESS TECHNOLOGIES AND STANDARDS * 327 5 WIRELESS SENSOR PLATFORMS FOR AGRICULTURAL APPLICATIONS * 329 6 TAXONOMY OF AGRICULTURAL MONITORING APPLICATIONS * 329 6.1 SOIL PREPARATION SYSTEM * 330 6.2 CROP YIELD SYSTEM * 331 6.3 LIVESTOCK MONITORING* 331 6.4 GREENHOUSE MONITORING * 332 6.5 HORTICULTURE MONITORING* 333 6.6 FOREST MONITORING ----- 333 7 APPLICATION-SPECIFIC SENSORS IN AGRICULTURE * 333 7.1 SOIL ANALYSIS * 334 7.2 DETECTION AND CLASSIFICATION OF CROPS, WEEDS AND FRUITS * 334 7.3 WEATHER AND CLIMATE-RELATED SENSORS * 335 8 SOLUTIONS FOR IRRIGATION SYSTEMS BASED ON WAN IN THE MEASUREMENT AND SENSOR TECHNOLOGY LABORATORY * 335 8.1 THE NODES DEVELOPED * 337 8.2 MOTE DEPLOYMENT AND NETWORK ARCHITECTURE * 338 8.3 SOFTWARE APPLICATION * 339 9 CONCLUSION * 340 PAUL CAHILL AND VIKRAM PAKRASHI PIEZOELECTRIC ENERGY HARVESTING FOR MONITORING OF RAIL BRIDGE INFRASTRUCTURE * 343 1 INTRODUCTION * 343 2 PIEZOELECTRIC ENERGY HARVESTING* 345 2.1 PIEZOELECTRIC CANTILEVER ENERGY HARVESTER* 346 2.2 PIEZOELECTRIC PATCH ENERGY HARVESTER* 346 3 BRIDGE-VEHICLE INTERACTION MODEL * 347 3.1 MODELING OF BRIDGE AND TRAIN LOADINGS * 347 3.2 ATTRIBUTES OF AN INTERNATIONAL TRAIN FLEET * 348 3.3 TRAIN-INDUCED VIBRATIONS IN THE BRIDGE MODEL * 349 4 ENERGY OUTPUT FROM A BRIDGE STRUCTURE USING A CANTILEVER HARVESTER * 350 4.1 PROPERTIES OF THE CANTILEVER ENERGY HARVESTER * 350 4.2 ENERGY HARVESTING OUTPUT FROM THE CANTILEVER ENERGY HARVESTER * 352 5 ENERGY HARVESTING FROM A BRIDGE STRUCTURE USING A PATCH ENERGY HARVESTER ----- 354 5.1 PROPERTIES OF THE PATCH ENERGY HARVESTER * 354 5.2 ENERGY HARVESTING OUTPUT FROM THE PATCH ENERGY HARVESTER * 354 6 CONCLUSIONS ----- 357 FENG YANG AND LIN DU HYBRID ENERGY HARVESTING METHODOLOGIES FOR ENERGIZING SENSORS TOWARDS POWER GRID APPLICATIONS * 359 1 INTRODUCTION ----- 359 2 ENERGY PROFILES AND METHODOLOGIES * 360 2.1 OVERVIEW ----- 360 2.2 MAGNETIC ENERGY HARVESTING * 360 2.3 THERMOELECTRIC ENERGY HARVESTING * 363 2.4 VIBRATIONAL ENERGY HARVESTING * 364 2.5 HYBRID ENERGY MANAGEMENT SYSTEM * 364 3 ENVISIONED PROTOTYPE ----- 366 4 CONCLUSIONS ----- 367 XINMING ZHAO, THOMAS KEUTEL, AND OLFA KANOUN ENERGY HARVESTING FOR A WIRELESS MONITORING SYSTEM OF OVERHEAD HIGH-VOLTAGE POWER LINES * 369 1 INTRODUCTION * 369 2 THEORETICAL CONSIDERATION AND SIMULATION * 371 2.1 THEORETICAL ANALYSIS * 371 2.2 ANALYTICAL SIMULATION ----- 372 2.3 FINITE ELEMENT SIMULATION ----- 375 3 EXPERIMENT IN THE HIGH-VOLTAGE LABORATORY * 376 3.1 MEASUREMENT IN THE HIGH-VOLTAGE LABORATORY USING THE TEST HARVESTER AND TEST POWER MODULE ----- 376 3.2 MEASUREMENT IN THE HIGH-VOLTAGE LABORATORY USING THE PROTOTYPE OF HARVESTER HOUSING AND POWER MODULE * 378 4 PERFORMANCE TEST IN THE FIELD TEST * 380 4.1 TEST STRATEGY FOR THE FIELD TE ST ----- 380 4.2 FIELD TEST RESULTS ----- 381 5 CONCLUSION ----- 382
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discipline	Informatik Energietechnik Elektrotechnik / Elektronik / Nachrichtentechnik Mess-/Steuerungs-/Regelungs-/Automatisierungstechnik / Mechatronik
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code="u">http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=030313436&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA</subfield><subfield code="3">Inhaltsverzeichnis</subfield></datafield><datafield tag="999" ind1=" " ind2=" "><subfield code="a">oai:aleph.bib-bvb.de:BVB01-030313436</subfield></datafield></record></collection>
id	DE-604.BV044920126
illustrated	Illustrated
indexdate	2024-08-01T11:24:14Z
institution	BVB
institution_GND	(DE-588)1065492103
isbn	9783110443684
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-030313436
oclc_num	1077686227
open_access_boolean
owner	DE-29T DE-1050 DE-634 DE-703 DE-862 DE-BY-FWS DE-11
owner_facet	DE-29T DE-1050 DE-634 DE-703 DE-862 DE-BY-FWS DE-11
physical	XVII, 383 Seiten Illustrationen, Diagramme
publishDate	2019
publishDateSearch	2019
publishDateSort	2019
publisher	De Gruyter Oldenbourg
record_format	marc
spellingShingle	Energy harvesting for wireless sensor networks technology, components and system design Sonnenenergie (DE-588)4055572-0 gnd Stromversorgung Elektrotechnik (DE-588)4535131-4 gnd Thermoelektrischer Wandler (DE-588)4185146-8 gnd Energieversorgung (DE-588)4014736-8 gnd Energiemanagement (DE-588)4124833-8 gnd Energieeffizienz (DE-588)7660153-5 gnd Drahtloses Sensorsystem (DE-588)4789222-5 gnd Energiespeicherung (DE-588)4014722-8 gnd Drahtlose Energieübertragung (DE-588)103887131X gnd Mikroelektronik (DE-588)4039207-7 gnd Autarkie (DE-588)4253273-5 gnd Schwingung (DE-588)4053999-4 gnd Energy Harvesting (DE-588)7664612-9 gnd Systementwurf (DE-588)4261480-6 gnd
subject_GND	(DE-588)4055572-0 (DE-588)4535131-4 (DE-588)4185146-8 (DE-588)4014736-8 (DE-588)4124833-8 (DE-588)7660153-5 (DE-588)4789222-5 (DE-588)4014722-8 (DE-588)103887131X (DE-588)4039207-7 (DE-588)4253273-5 (DE-588)4053999-4 (DE-588)7664612-9 (DE-588)4261480-6
title	Energy harvesting for wireless sensor networks technology, components and system design
title_auth	Energy harvesting for wireless sensor networks technology, components and system design
title_exact_search	Energy harvesting for wireless sensor networks technology, components and system design
title_full	Energy harvesting for wireless sensor networks technology, components and system design edited by Olfa Kanoun
title_fullStr	Energy harvesting for wireless sensor networks technology, components and system design edited by Olfa Kanoun
title_full_unstemmed	Energy harvesting for wireless sensor networks technology, components and system design edited by Olfa Kanoun
title_short	Energy harvesting for wireless sensor networks
title_sort	energy harvesting for wireless sensor networks technology components and system design
title_sub	technology, components and system design
topic	Sonnenenergie (DE-588)4055572-0 gnd Stromversorgung Elektrotechnik (DE-588)4535131-4 gnd Thermoelektrischer Wandler (DE-588)4185146-8 gnd Energieversorgung (DE-588)4014736-8 gnd Energiemanagement (DE-588)4124833-8 gnd Energieeffizienz (DE-588)7660153-5 gnd Drahtloses Sensorsystem (DE-588)4789222-5 gnd Energiespeicherung (DE-588)4014722-8 gnd Drahtlose Energieübertragung (DE-588)103887131X gnd Mikroelektronik (DE-588)4039207-7 gnd Autarkie (DE-588)4253273-5 gnd Schwingung (DE-588)4053999-4 gnd Energy Harvesting (DE-588)7664612-9 gnd Systementwurf (DE-588)4261480-6 gnd
topic_facet	Sonnenenergie Stromversorgung Elektrotechnik Thermoelektrischer Wandler Energieversorgung Energiemanagement Energieeffizienz Drahtloses Sensorsystem Energiespeicherung Drahtlose Energieübertragung Mikroelektronik Autarkie Schwingung Energy Harvesting Systementwurf
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=030313436&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT kanounolfa energyharvestingforwirelesssensornetworkstechnologycomponentsandsystemdesign AT degruyteroldenbourg energyharvestingforwirelesssensornetworkstechnologycomponentsandsystemdesign

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