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100   $a20202207d2022      |y         0
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181   $ctxt$2rdacontent
182   $cc$2rdamedia
183   $acr$2rdacarrier
200 00$aVibration Energy Harvesting for Wireless Sensors
210   $aBasel$cMDPI - Multidisciplinary Digital Publishing Institute$d2022
215   $a1 online resource (240 p.)
311 08$a3-0365-4463-1 
311 08$a3-0365-4464-X 
330   $aKinetic energy harvesters are a viable means of supplying low-power autonomous electronic systems for the remote sensing of operations. In this Special Issue, through twelve diverse contributions, some of the contemporary challenges, solutions and insights around the outlined issues are captured describing a variety of energy harvesting sources, as well as the need to create numerical and experimental evidence based around them. The breadth and interdisciplinarity of the sector are clearly observed, providing the basis for the development of new sensors, methods of measurement, and importantly, for their potential applications in a wide range of technical sectors.
606   $aHistory of engineering and technology$2bicssc
606   $aTechnology: general issues$2bicssc
610   $aanalytical model
610   $abeam model
610   $abi-stable oscillator
610   $abifurcation
610   $abistable oscillator
610   $acomputational fluid dynamics
610   $adamage detection
610   $adamage sensitive feature
610   $adirect-force generator
610   $aefficiency
610   $aefficiency measurement
610   $aelectromagnetic
610   $aelectromagnetic energy harvester
610   $aelectromagnetic transducer
610   $aenergy harvester
610   $aenergy harvesting
610   $aequivalent model
610   $afinite element method (FEM)
610   $afrequency response analysis
610   $afrequency-up conversion
610   $aharmonic balance method
610   $ahysteretic effect
610   $alead zirconate titanate (PZT)
610   $aload resistance optimization
610   $alow-frequency vibration energy harvesting
610   $amacro fiber composites (MFC)
610   $amagnetostriction
610   $amodel
610   $an/a
610   $anonlinearities
610   $aoptimum sensor distribution
610   $apiezoelectric
610   $apiezoelectric ceramic
610   $apiezoelectric energy harvesting
610   $apipe leak detection
610   $apolyvinylidene fluoride (PVDF)
610   $apower conversion
610   $apower flow
610   $apower prediction
610   $aPVDF patches
610   $areal vibration
610   $asensing
610   $asmart materials
610   $aSMART materials
610   $astructural health monitoring
610   $aStructural Health Monitoring
610   $aTerfenol-D
610   $atest
610   $atrain
610   $atriboelectric energy harvesting
610   $aultrasonic system
610   $avibration
610   $avibration energy-harvesting system
610   $avibrations
610   $awireless sensor
610   $awireless sensors
615  7$aHistory of engineering and technology
615  7$aTechnology: general issues
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200 10$aApplied Number Theory /$fby Harald Niederreiter, Arne Winterhof
205   $a1st ed. 2015.
210  1$aCham :$cSpringer International Publishing :$cImprint: Springer,$d2015.
215   $a1 online resource (X, 442 p. 20 illus., 7 illus. in color.)
300   $aBibliographic Level Mode of Issuance: Monograph
311   $a3-319-22320-8 
327   $aPreface -- 1 A Review of Number Theory and Algebra -- 2 Cryptography -- 3 Coding Theory -- 4 Quasi-Monte Carlo Methods -- 5 Pseudorandom Numbers -- 6 Further Applications -- Bibliography -- Index.
330   $aThis textbook effectively builds a bridge from basic number theory to recent advances in applied number theory. It presents the first unified account of the four major areas of application where number theory plays a fundamental role, namely cryptography, coding theory, quasi-Monte Carlo methods, and pseudorandom number generation, allowing the authors to delineate the manifold links and interrelations between these areas.  Number theory, which Carl-Friedrich Gauss famously dubbed the queen of mathematics, has always been considered a very beautiful field of mathematics, producing lovely results and elegant proofs. While only very few real-life applications were known in the past, today number theory can be found in everyday life: in supermarket bar code scanners, in our cars? GPS systems, in online banking, etc.  Starting with a brief introductory course on number theory in Chapter 1, which makes the book more accessible for undergraduates, the authors describe the four main application areas in Chapters 2-5 and offer a glimpse of advanced results that are presented without proofs and require more advanced mathematical skills. In the last chapter they review several further applications of number theory, ranging from check-digit systems to quantum computation and the organization of raster-graphics memory.  Upper-level undergraduates, graduates and researchers in the field of number theory will find this book to be a valuable resource.
606   $aNumber theory
606   $aInformation theory
606   $aData structures (Computer science)
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615  0$aInformation theory.
615  0$aData structures (Computer science)
615 14$aNumber Theory.
615 24$aInformation and Communication, Circuits.
615 24$aData Structures and Information Theory.
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