LEADER 01177nam0 2200313 450 001 000040146 005 20150116120645.0 010 $a0-19-924024-8 100 $a20150116d1996----km-y0itaa50------ba 101 0 $aeng 102 $aGB 200 1 $aAncestor masks and aristocratic power in Roman culture$fHarriet I. Flower 210 $aOxford$cClarendon Press$d1996 215 $aXIV, 411 p.$cill.$d22 cm. 300 $aBibliogr.: P. 362-392 e un indice delle persone e delle fonti 606 1 $aRiti funebri$yRoma antica 606 2 $aMaschere$yRoma antica 606 2 $aAristocrazia$yRoma antica 676 $a393.0937$v(22. ed.)$9Usi e costumi funebri. Italia antica 700 1$aFlower,$bHarret I.$0447520 801 0$aIT$bUniversità della Basilicata - B.I.A.$gREICAT$2unimarc 912 $a000040146 996 $aAncestor masks and aristocratic power in Roman culture$9105591 997 $aUNIBAS BAS $aLETTERE CAT $aTTM$b30$c20150116$lBAS01$h1032 CAT $aTTM$b30$c20150116$lBAS01$h1206 FMT Z30 -1$lBAS01$LBAS01$mBOOK$1BASA1$APolo Storico-Umanistico$2DID$BDidattica$3FM/113237$6113237$5L113237$820150116$f04$FPrestabile Didattica LEADER 01067nam a2200289 i 4500 001 991002151379707536 005 20020507160716.0 008 000717s1993 it ||| | ita 020 $a8814045097 035 $ab11616106-39ule_inst 035 $aLE02731359$9ExL 040 $aDip.to Studi Giuridici$bita 082 0 $a344.4503137 084 $aPR-III/A 100 1 $aColombo, Gian Mario$0406270 245 13$aLe organizzazioni di volontariato :$baspetti civilistici e fiscali /$cGian Mario Colombo 260 $aMilano :$bA. Giuffrè,$c[1993] 300 $axviii, 209 p. ;$c23 cm. 500 $aSegue: Appendice normativa. 500 $aIn testa al front.: Centro studi ragionieri 650 4$aServizio sociale volontario$xLegislazione 907 $a.b11616106$b02-04-14$c02-07-02 912 $a991002151379707536 945 $aLE027 PR-III/A 3$g1$iLE027I-2682$lle027$o-$pE0.00$q-$rl$s- $t0$u0$v0$w0$x0$y.i11832186$z02-07-02 996 $aOrganizzazioni di volontariato$9689175 997 $aUNISALENTO 998 $ale027$b01-01-00$cm$da $e-$fita$git $h3$i1 LEADER 02421oam 2200637 450 001 9910707063603321 005 20160316100845.0 035 $a(CKB)5470000002460851 035 $a(OCoLC)888489985 035 $a(EXLCZ)995470000002460851 100 $a20140822d1989 ua 0 101 0 $aeng 135 $aurmn||||||||| 181 $ctxt$2rdacontent 182 $cc$2rdamedia 183 $acr$2rdacarrier 200 10$aDepositional controls on the Late Campanian Sego sandstone and implications for associated coal-forming environments in the Uinta and Piceance basins /$fby Karen J. Franczyk 210 1$a[Reston, Va.] :$cDepartment of the Interior, U.S. Geological Survey,$d1989. 210 2$a[Washington, D.C.] :$cUnited States Government Printing Office. 215 $a1 online resource (iv, 17 pages, 2 pages of plates) $cillustrations, maps 225 1 $aU.S. Geological Survey bulletin ;$v1787-F 225 1 $aEvolution of sedimentary basins--Uinta and Piceance basins ;$vch. F 300 $aTitle from title screen (viewed Aug. 18, 2014). 320 $aIncludes bibliographical references. 606 $aCoal$xGeology$zColorado$zPiceance Creek Watershed 606 $aCoal$xGeology$zUinta Basin (Utah and Colo.) 606 $aGeology, Stratigraphic$yCretaceous 606 $aSandstone$zColorado$zPiceance Creek Watershed 606 $aSandstone$zUinta Basin (Utah and Colo.) 606 $aCoal$xGeology$2fast 606 $aCretaceous Geologic Period$2fast 606 $aGeology, Stratigraphic$2fast 606 $aSandstone$2fast 607 $aColorado$zPiceance Creek Watershed$2fast 607 $aUnited States$zUinta Basin$2fast 615 0$aCoal$xGeology 615 0$aCoal$xGeology 615 0$aGeology, Stratigraphic 615 0$aSandstone 615 0$aSandstone 615 7$aCoal$xGeology. 615 7$aCretaceous Geologic Period. 615 7$aGeology, Stratigraphic. 615 7$aSandstone. 700 $aFranczyk$b Karen J.$01386669 712 02$aGeological Survey (U.S.), 801 0$bCOP 801 1$bCOP 801 2$bOCLCO 801 2$bOCLCF 801 2$bTRAAL 801 2$bGPO 906 $aBOOK 912 $a9910707063603321 996 $aDepositional controls on the Late Campanian Sego sandstone and implications for associated coal-forming environments in the Uinta and Piceance basins$93529351 997 $aUNINA LEADER 09134nam 22007334a 450 001 9910143683103321 005 20241120173237.0 010 $a9786610821877 010 $a9781280821875 010 $a1280821876 010 $a9780470079812 010 $a0470079819 010 $a9780470079805 010 $a0470079800 024 7 $a10.1002/0470079819 035 $a(CKB)1000000000356650 035 $a(EBL)287282 035 $a(SSID)ssj0000235894 035 $a(PQKBManifestationID)11201196 035 $a(PQKBTitleCode)TC0000235894 035 $a(PQKBWorkID)10165430 035 $a(PQKB)10525489 035 $a(MiAaPQ)EBC287282 035 $a(CaBNVSL)mat05201456 035 $a(IDAMS)0b0000648104a905 035 $a(IEEE)5201456 035 $a(OCoLC)86278331 035 $a(PPN)187176795 035 $a(Perlego)2767257 035 $a(EXLCZ)991000000000356650 100 $a20060505d2007 uy 0 101 0 $aeng 135 $aur|n|---||||| 181 $ctxt 182 $cc 183 $acr 200 10$aRemote sensing with polarimetric radar /$fHarold Mott 210 $a[Los Alamitos, CA] $cIEEE Press ;$aHoboken, N.J. $cWiley-Interscience$d2007 215 $a1 online resource (327 p.) 300 $aDescription based upon print version of record. 311 08$a9780470074763 311 08$a0470074760 320 $aIncludes bibliographical references and index. 327 $aPREFACE. -- ACKNOWLEDGMENTS. -- 1. ELECTROMAGNETIC WAVES. -- 1.1. The Time-Invariant Maxwell Equations. -- 1.2. The Electromagnetic Traveling Wave. -- 1.3. Power Density. -- 1.4. The Polarization Ellipse. -- 1.5. Polarization Vector and Polarization Ratio. -- 1.6. Circular Wave Components. -- 1.7. Change of Polarization Basis. -- 1.8. Ellipse Characteristics in Terms of P and Q. -- 1.9. Coherency and Stokes Vectors. -- 1.10. The Poincare Sphere. -- References. -- Problems. -- 2. ANTENNAS. -- 2.1. Elements of the Antenna System. -- 2.2. The Vector Potentials. -- 2.3. Solutions for the Vector Potentials. -- 2.4. Far-Zone Fields. -- 2.5. Radiation Pattern. -- 2.6. Gain and Directivity. -- 2.7. The Receiving Antenna. -- 2.8. Transmission Between Antennas. -- 2.9. Antenna Arrays. -- 2.10. Effective Length of an Antenna. -- 2.11. Reception of Completely Polarized Waves. -- 2.12. Gain, Effective Area, and Radiation Resistance. -- 2.13. Maximum Received Power. -- 2.14. Polarization Efficiency. -- 2.15. The Modified Friis Transmission Equation. -- 2.16. Alignment of Antennas. -- References. -- Problems. -- 3. COHERENTLY SCATTERING TARGETS. -- 3.1. Radar Targets. -- 3.2. The Jones Matrix. -- 3.3. The Sinclair Matrix. -- 3.4. Matrices With Relative Phase. -- 3.5. FSA-BSA Conventions. -- 3.6. Relationship Between Jones and Sinclair Matrices. -- 3.7. Scattering with Circular Wave Components. -- 3.8. Backscattering. -- 3.9. Polarization Ratio of the Scattered Wave. -- 3.10. Change of Polarization Basis: The Scattering Matrix. -- 3.11. Polarizations for Maximum and Minimum Power. -- 3.12. The Polarization Fork. -- 3.13. Nonaligned Coordinate Systems. -- 3.14. Determination of Scattering Parameters. -- References. -- Problems. -- 4. AN INTRODUCTION TO RADAR. -- 4.1. Pulse Radar. -- 4.2. CW Radar. -- 4.3. Directional Properties of Radar Measurements. -- 4.4. Resolution. -- 4.5. Imaging Radar. -- 4.6. The Traditional Radar Equation. -- 4.7. The Polarimetric Radar Equation. -- 4.8. A Polarimetric Radar. 327 $a4.9. Noise. -- References. -- Problems. -- 5. SYNTHETIC APERTURE RADAR. -- 5.1. Creating a Terrain Map. -- 5.2. Range Resolution. -- 5.3. Azimuth Resolution. -- 5.4. Geometric Factors. -- 5.5. Polarimetric SAR. -- 5.6. SAR Errors. -- 5.7. Height Measurement. -- 5.8. Polarimetric Interferometry. -- 5.9. Phase Unwrapping. -- References. -- Problems. -- 6. PARTIALLY POLARIZED WAVES. -- 6.1. Representation of the Fields. -- 6.2. Representation of Partially Polarized Waves. -- 6.3. Reception of Partially Polarized Waves. -- References. -- Problems. -- 7. SCATTERING BY DEPOLARIZING TARGETS. -- 7.1. Targets. -- 7.2. Averaging the Sinclair Matrix. -- 7.3. The Kronecker-Product Matrices. -- 7.4. Matrices for a Depolarizing Target: Coherent Measurement. -- 7.5. Incoherently Measured Target Matrices. -- 7.6. Matrix Properties and Relationships. -- 7.7. Modified Matrices. -- 7.8. Names. -- 7.9. Additional Target Information. -- 7.10. Target Covariance and Coherency Matrices. -- 7.11. A Scattering Matrix with Circular Components. -- 7.12. The Graves Power Density Matrix. -- 7.13. Measurement Considerations. -- 7.14. Degree of Polarization and Polarimetric Entropy. -- 7.15. Variance of Power. -- 7.16. Summary of Power Equations and Matrix Relationships. -- References. -- Problems. -- 8. OPTIMAL POLARIZATIONS FOR RADAR. -- 8.1. Antenna Selection Criteria. -- 8.2. Lagrange Multipliers. -- A. COHERENTLY SCATTERING TARGETS. -- 8.3. Maximum Power. -- 8.4. Power Contrast: Backscattering. -- B. DEPOLARIZING TARGETS. -- 8.5. Iterative Procedure for Maximizing Power Contrast. -- 8.6. The Backscattering Covariance Matrix. -- 8.7. The Bistatic Covariance Matrix. -- 8.8. Maximizing Power Contrast by Matrix Decomposition. -- 8.9. Optimization with the Graves Matrix. -- References. -- Problems. -- 9. CLASSIFICATION OF TARGETS. -- A. CLASSIFICATION CONCEPTS. -- 9.1. Representation and Classification of Targets. -- 9.2. Bayes Decision Rule. -- 9.3. The Neyman-Pearson Decision Rule. -- 9.4. Bayes Error Bounds. 327 $a9.5. Estimation of Parameters from Data. -- 9.6. Nonparametric Classification. -- B. CLASSIFICATION BY MATRIX DECOMPOSITION. -- 9.7. Coherent Decomposition. -- 9.8. Decomposition of Power-Type Matrices. -- C. REMOVAL OF UNPOLARIZED SCATTERING. -- 9.9. Decomposition of the D Matrix. -- 9.10. Polarized Clutter. -- 9.11. A Similar Decomposition. -- 9.12. Polarimetric Similarity Classification. -- References. -- Problems. -- APPENDIX A. FADING AND SPECKLE. -- Reference. -- APPENDIX B. PROBABILITY AND RANDOM PROCESSES. -- B.1. Probability. -- B.2. Random Variables. -- B.3. Random Vectors. -- B.4. Probability Density Functions in Remote Sensing. -- B.5. Random Processes. -- References. -- APPENDIX C. THE KENNAUGH MATRIX. -- APPENDIX D. BAYES ERROR BOUNDS. -- References. -- INDEX. 330 $aDiscover the principles and techniques of remote sensing with polarimetric radar This book presents the principles central to understanding polarized wave transmission, scattering, and reception in communication systems and polarimetric and non-polarimetric radar. Readers gain new insight into the methods for remotely gathering data about the earth's surface and atmosphere with polarimetric synthetic-aperture radar and polarimetric interferometry, including the changes that take place with seasons, floods, earthquakes, and other natural phenomena. In particular, with the book's focus on polarimetric radars, readers discover how to exploit the many special features of these systems, which provide the maximum amount of information that can be obtained remotely with radar. Introductory-level coverage of electromagnetic wave propagation, antennas, radar and synthetic aperture radar, probability and random processes, and radar interferometry serves as a foundation for advancing to more complex material. A more advanced mathematical and technical treatment enables readers to fully grasp polarized wave transmission, propagation, and reception in communication systems and polarimetric-radar remote sensing. Readers will discover much new material in this text, including: . Distinguishing between coherently-measured and incoherently-measured target matrices for power, recognizing that the two matrix types are not equivalent in representing targets. Removing unpolarized components from the scattered wave and deriving a target matrix for classification from the resulting coherently-scattered wave. Selecting an antenna polarization to maximize the contrast between desired and undesired depolarizing targets Problems ranging in complexity from introductory to challenging are presented throughout the text. Engineers will find this an ideal reference to help them fully utilize the powerful capabilities of polarimetric radar. It will also help agronomists, geographers, meteorologists, and other scientists who use remotely obtained data about the earth to evaluate procedures and better interpret the data. The book can also be tailored to both undergraduate and graduate courses in remote sensing, and recommendations are given for text material suitable for such courses. 606 $aRadar 606 $aRemote sensing 606 $aRadio waves$xPolarization 606 $aPolarimetric remote sensing 615 0$aRadar. 615 0$aRemote sensing. 615 0$aRadio waves$xPolarization. 615 0$aPolarimetric remote sensing. 676 $a621.36/78 700 $aMott$b Harold$0521950 801 0$bMiAaPQ 801 1$bMiAaPQ 801 2$bMiAaPQ 906 $aBOOK 912 $a9910143683103321 996 $aRemote sensing with polarimetric radar$9835400 997 $aUNINA