03387nam 2200505 450 991061636890332120230226175117.0981-19-5619-7(MiAaPQ)EBC7102374(Au-PeEL)EBL7102374(CKB)24950570000041(OCoLC)1347279790(EXLCZ)992495057000004120230226d2022 uy 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierSelf-powered energy harvesting systems for health supervising applications /Albert Alvarez-Carulla, Jordi Colomer-Farrarons, and Pere Lluis Miribel CatalaGateway East, Singapore :Springer,[2022]©20221 online resource (131 pages)SpringerBriefs in Applied Sciences and Technology Print version: Álvarez-Carulla, Albert Self-Powered Energy Harvesting Systems for Health Supervising Applications Singapore : Springer,c2022 9789811956188 Includes bibliographical references and index.Intro -- Preface -- Acknowledgements -- Contents -- 1 Introduction -- References -- 2 Self-powered Nodes for Structural Health Monitoring Applications -- 2.1 Wireless Sensor Nodes for Aerospace Applications -- 2.2 Adaptative Self-powered Circuit for Structural Health Monitoring -- 2.2.1 Piezoelectric-Based Energy-Harvesting System -- 2.2.2 Maximum Power Point Tracking Algorithm -- 2.2.3 Analog Control Unit -- 2.2.4 Wireless Transmission of Strain -- 2.3 Energy-Aware Adaptative Supercapacitor Storage System -- 2.4 CMOS Integrated Circuit for Structural Health Monitoring -- 2.5 Conclusions -- References -- 3 Galvanic Cell-Based Self-powered Devices -- 3.1 Dual-Galvanic Cell-Based Self-powered Devices -- 3.1.1 The Paper-Based Test Strip -- 3.1.2 The Electronic Reader -- 3.2 Single-Galvanic Cell-Based Self-powered Devices -- 3.2.1 The Galvanic Cell -- 3.2.2 The Electronic Reader -- 3.2.3 Point-Of-Care Device Characterization -- 3.2.4 Results Summary -- 3.3 Conclusions -- References -- 4 Ubiquitous Self-powered Architectures -- 4.1 Exploiting the Transducer Role as a Sensor and Power Source Simultaneously -- 4.2 Ubiquitous Self-powered Architecture -- 4.3 Conclusions -- References -- 5 LoRa Autosensed Self-powered Monitoring for Smart Industry -- 5.1 Low-Power Communications -- 5.1.1 Long-Range Communications -- 5.1.2 Long-Range Wide-Area Network -- 5.2 Algorithm to Enable LPWAN on Critical Low-Power Scenarios -- 5.3 Scenario Test -- 5.4 Conclusions -- References -- 6 Conclusions and Future Work -- 6.1 Conclusions -- 6.2 Future Work.SpringerBriefs in Applied Sciences and Technology Renewable energy sourcesEnergy harvestingTechnological innovationsRenewable energy sources.Energy harvesting.Technological innovations.621.042Alvarez-Carulla Albert1261562Miribel-Catala Pere LluisColomer-Farrarons JordiMiAaPQMiAaPQMiAaPQBOOK9910616368903321Self-Powered Energy Harvesting Systems for Health Supervising Applications2937939UNINA