LEADER 03909oam 2200949 c 450 001 9910157639903321 005 20220221094418.0 010 $a3-8309-8443-X 024 3 $a9783830984436 035 $a(CKB)3710000001001474 035 $a(Waxmann)9783830984436 035 $a(EXLCZ)993710000001001474 100 $a20220221h20162017 uy 0 101 0 $aeng 135 $aurnnunnnannuu 181 $ctxt$2rdacontent 182 $cc$2rdamedia 183 $acr$2rdacarrier 200 14$aThe Regional Structure of Hungarian Folk Culture$b[electronic resource]$fBala?zs Borsos 205 $a1st, New ed. 210 $aMu?nster$cWaxmann$d2016 210 $d2016, c2017 215 $a1 online resource (436 p.)$cwith numerous maps 311 $a3-8309-3443-2 330 $a,This book is about one of the most important questions under investigation both in Hungary and throughout Europe, namely, how and under what effects is traditional popular culture territorially distributed. This work uses new methods and new sources; it is based on the digital elaboration of the biggest and most comprehensive data set of Hungarian ethnological research, the 634 maps of the Atlas of Hungarian Folk Culture. Borsos's interdisciplinary elaboration creates a synthesis in ethnocartography with the help of mathematical, statistical methods and computerised cluster analysis, and thus assures an important leap in the science of ethnography.' Committee of Ethnology, Hungarian Academy of Sciences ,This work is a compendium, in the classical sense of the word, justifying, clarifying or eventually refuting our former knowledge obtained on the extremely rich distribution pattern of land and culture which characterises the Hungarian people. A comprehensive outlook, giving help to find our way in the complicated spatial labyrinth of cultural organisation.' Bala?zs Balogh, Director, HAS RCH Institute of Ethnology 606 $aHungarian folk culture 606 $aAtlas of Hungarian Folk Culture 606 $atraditional popular culture 606 $aterritorial distribution 606 $aHungary 606 $aethnocarthography 606 $aethnography 606 $acluster analysis 606 $aethnographic atlas 606 $afolk culture 606 $aregional structure 606 $aHungarian language area 606 $acultural regions 606 $adialect 606 $adialectic distribution 606 $asettlement and building 606 $acottage industry and handicrafts 606 $aeveryday life 606 $aDeutsche und osteuropa?ische Volkskunde 606 $aAlltagskultur 606 $atransport 606 $atraffic and trade 606 $asociety 606 $akinship 606 $aand life cycle events 615 4$aHungarian folk culture 615 4$aAtlas of Hungarian Folk Culture 615 4$atraditional popular culture 615 4$aterritorial distribution 615 4$aHungary 615 4$aethnocarthography 615 4$aethnography 615 4$acluster analysis 615 4$aethnographic atlas 615 4$afolk culture 615 4$aregional structure 615 4$aHungarian language area 615 4$acultural regions 615 4$adialect 615 4$adialectic distribution 615 4$asettlement and building 615 4$acottage industry and handicrafts 615 4$aeveryday life 615 4$aDeutsche und osteuropa?ische Volkskunde 615 4$aAlltagskultur 615 4$atransport 615 4$atraffic and trade 615 4$asociety 615 4$akinship 615 4$aand life cycle events 700 $aBorsos$b Bala?zs$4aut$01206840 801 0$bWaxmann 801 1$bWaxmann 906 $aBOOK 912 $a9910157639903321 996 $aThe Regional Structure of Hungarian Folk Culture$92783983 997 $aUNINA LEADER 07731nam 2200433 450 001 9910817302003321 005 20230125191324.0 010 $a1-60807-823-X 035 $a(CKB)3710000001078690 035 $a(MiAaPQ)EBC4821266 035 $a(CaBNVSL)mat09100766 035 $a(IEEE)9100766 035 $a(EXLCZ)993710000001078690 100 $a20200730d2015 uy 101 0 $aeng 135 $aurcnu|||||||| 181 $2rdacontent 182 $2rdamedia 183 $2rdacarrier 200 10$aRF Coaxial Slot Radiators 210 1$aNorwood :$cArtech House,$d2015. 210 2$a[Piscataqay, New Jersey] :$cIEEE Xplore,$d[2015] 215 $a1 online resource (322 pages) $cillustrations 225 1 $aArtech House antennas and propagation library 311 $a1-60807-822-1 320 $aIncludes bibliographical references and index. 327 $aMachine generated contents note: 1.1.Analytical and Numerical Analysis of Coaxial Slot Radiators -- 1.2.Wave Theory of Coaxial Radiators -- 1.2.1.The Propagation Wave in the Coaxial Line (zor=to0 0 Region) -- 1.3.The Relationship Between Circuit Theory and Wave Theory -- 1.3.1.The Equivalent Circuit in the Coaxial Line (z 0 Region) -- References -- Selected Bibliography -- 2.1.Theoretical Background -- 2.2.Equivalent Lumped-Element Circuits Modeling -- 2.3.Admittance Modeling -- 2.3.1.Admittance Integral Modeling -- 2.3.2.Series Admittance Solutions -- 2.4.Rational Expression Modeling -- References -- Selected Bibliography -- 3.1.Boundary-Matching Method Modeling -- 3.1.1.Reflection in a Stratified Medium -- 3.1.2.Integral Admittance Model -- 3.1.3.Integral Admittance Models (Practical Cases) -- 3.2.Image Method Modeling -- 3.3.Semi-Empirical Closed-Form Modeling -- 3.3.1.Total Capacitance CT in the Finite-Layer Medium -- 3.3.2.Effective Complex Relative Permittivity, Eeff -- 3.3.3.Empirical Admittance Model of a Finite-Thickness Sample -- References -- Selected Bibliography -- 4.1.Theoretical Background -- 4.1.1.Current Distribution on Dipole and Monopole -- 4.1.2.Pocklington's Equation -- 4.1.3.Halien's Equation -- 4.2.Induced Electromagnetic Field (EMF) Modeling -- 4.3.End Correction for a Monopole Driven from a Coaxial Line -- 4.4.Equivalent Lumped-Element Circuits Modeling -- 4.4.1.Equivalent Circuits Modeling (in Free Space) -- 4.4.2.Equivalent Circuits Modeling (in Dielectric Medium) -- 4.5.Mutual Impedance -- 4.5.1.Two-Element Array -- 4.5.2.Arrays of Three or More Elements -- References -- Selected Bibliography -- 5.1.Theoretical Background -- 5.2.Transmission-Line Impedance Modeling -- 5.2.1.Propagation Constant kL and Characteristic Impedance ZC -- 5.2.2.Characteristic Impedance Zc -- 5.2.3.Input Impedance ZIN at the Driving Point -- 5.3.Integral Electric Field Modeling -- 5.3.1.Electromagnetic Fields in a Dielectric-Coated Layer (Region 2) -- 5.3.2.Electromagnetic Fields in a Dissipative Medium (Region 3) -- 5.3.3.Near-Field and Far-Field Integral Formulations -- 5.4.Equivalent Lumped-Element Circuit Modeling -- 5.5.Modified Dielectric-Coated Monopole -- References -- Selected Bibliography -- 6.1.Summary of MoM Computation Steps for Electrostatic Cases -- 6.1.1.Electrostatic Cases -- 6.1.2.Open-Ended Coaxial Probe -- 6.1.3.Dipole -- 6.2.Summary of MoM Computation Steps for Electrodynamics Cases -- 6.2.1.Electrodynamics Cases -- 6.2.2.Open-Ended Coaxial Probe: Governing Equations -- 6.2.3.Dipole: Governing Equations -- 6.2.4.Open-Ended Coaxial Probe: Final Interpretation -- 6.2.5.Dipole: Final Interpretation -- 6.3.Mathematical Background of MoM -- 6.3.1.Point-Matching Method -- 6.4.Summary of Three Kinds of Basis Functions Fn(z) -- 6.4.1.Piecewise Uniform Functions (Rectangular Pulse Functions) -- 6.4.2.Piecewise Linear Functions (Linear Triangular Functions) -- 6.4.3.Piecewise Sinusoidal Functions -- 6.4.4.Galerkin's Method in Basis Functions -- 6.5.Example of Galerkin's MoM Computation -- 6.5.1.Galerkin's Method with Piecewise Sinusoidal Functions -- 6.6.Open-Ended Coaxial Probe -- 6.6.1.Nevels's Equation, Piecewise Uniform Function, and Point- Matching Method -- 6.6.2.Radial Electric Field, EP, Azimuth Magnetic Field, Hø, and Input Admittance, Yin, Interpretations -- 6.7.Center-Fed Dipole -- 6.7.1.Pocklington's Equation (Richmond's Expression), Piecewise Uniform Function, Magnetic Frill Sources, and Point-Matching Method -- 6.7.2.Input Impedance Zin -- 6.7.3.Far Electric Field Eø -- 6.7.4.Halien's Equation, Piecewise Uniform Function, and Point- Matching Method -- 6.7.5.Richmond's Method of Moments, Sinusoidal Pulse Functions, Delta-Gap Sources, and Galerkin's Method -- 6.8.Dielectric-Coated Dipole -- 6.9.Dipole Array -- References -- Selected Bibliography -- 7.1.Mathematical Background of the FDTD -- 7.1.1.Yee's Algorithm -- 7.1.2.MATLAB Codes for 1-D FDTD -- 7.2.Center-Fed Dipole -- 7.2.1.3-D FDTD Subcell Model -- 7.2.2.Improvement of the 3-D FDTD Subcell Model -- 7.2.3.Excitation Source -- 7.2.4.Boundary Conditions for 3-D FDTD -- 7.2.5.Postprocessing -- 7.2.6.MATLAB Codes for the 3-D Subcell FDTD -- 7.3.Monopole Driven from a Coaxial Line and an Open-Ended Coaxial Probe -- 7.3.1.1-D Coaxial Transmission-Line Feed Model -- 7.3.2.2-D FDTD Subcell Model -- 7.3.3.Boundary Conditions for the 2-D FDTD -- 7.4.Dielectric-Coated Dipole and Monopole -- 7.5.Heat Transfer from Dipole and Monopole -- References -- Selected Bibliography -- 8.1.Basic RF System to Measure the Reflection Coefficient -- 8.1.1.Time-Domain Reflectometry -- 8.1.2.Frequency-Domain Reflectometry -- 8.1.3.Operating Frequency -- 8.1.4.Commercial Test Instruments -- 8.2.One-Port Calibration -- 8.2.1.Principles of One-Port Calibration -- 8.2.2.Three-Standard Calibration -- 8.2.3.Alternative Three-Standard Calibration -- 8.2.4.One-Standard Calibration -- 8.2.5.De-Embedding Without Any Standard Value -- 8.3.Coaxial Radiator Performance Measurements -- 8.4.Dielectric Measurements Using Coaxial Radiators -- 8.5.Leaky Coaxial Cable Characteristics Measurements -- 8.5.1.Design Rules of Leaky Cable -- 8.5.2.Insertion Loss and Coupling Loss Measurements -- References -- Selected Bibliography -- 9.1.Communication Applications -- 9.1.1.Frequency-Independent Antennas: Log-Periodic Antennas -- 9.1.2.Sleeve Monopole Antennas -- 9.1.3.Conical Monopole Antennas -- 9.1.4.Disk-Loaded Monopole Antennas -- 9.1.5.Helical Monopole Antennas -- 9.1.6.Insulated Monopole Antennas -- 9.1.7.Dielectric Resonator Monopole Antennas -- 9.1.8.Negative Dielectric Resonator Monopole Antennas -- 9.1.9.Leaky Coaxial Cables -- 9.2.Health and Biomedical Applications -- 9.2.1.Dielectric Database for SAR Evaluation in Human Heads and Hyperthermia Treatment Simulation -- 9.2.2.Hyperthermia Applicators -- 9.2.3.Abnormal Tissues Detector -- 9.3.Agriculture and Food Processing -- 9.3.1.Soil Moisture Monitoring -- 9.3.2.Rubber Latex Quality Measurements -- 9.3.3.Oil Palm Fruit Ripeness Detector -- 9.3.4.Palm Oil Quality Monitoring -- 9.3.5.Rice Grain Moisture and Broken Rate Measurements -- 9.3.6.Fruit Sweetness Detector -- 9.4.Industrial and Scientific Materials Processing -- 9.4.1.Metal Crack Detector -- 9.4.2.Electric Field and Magnetic Field Probes -- References -- Selected Bibliography. 410 0$aArtech House antennas and propagation library. 606 $xAntennas (Electronics)$aMathematical models 615 0$xAntennas (Electronics)$aMathematical models. 676 $a621.382/4 700 $aYou$b Kok Yeow$01610171 801 0$bCaBNVSL 801 1$bCaBNVSL 801 2$bCaBNVSL 906 $aBOOK 912 $a9910817302003321 996 $aRF Coaxial Slot Radiators$93937805 997 $aUNINA