01680nam--2200481---450-99000198421020331620071017145153.0000198421USA01000198421(ALEPH)000198421USA0100019842120040906d1971----km-y0itay0103----balatIT||||||||001yyDivi Thomae Aquinatis doctoris angelici De regimine principum ad regem Cypri et De regimine Judaeorum ad ducissam Brabantiaepolitica opuscula duo ad fidem optimarum editionum diligenter recusa Joseph Mathis curanteEditio 2. revisaTorinoMarietti1971XII, 106 p.24 cmRipr. facs. dell'ed. del 1948Tit. della cop.: De regimine principumDe regimine principumDe regimine principum ad regem CypriDe regimine Judaerum ad ducissam Brabantiae172TOMMASO : d'Aquino<santo>290144MATHIS,GiuseppeITsalbcISBD990001984210203316II.2. 2817(IV A 617)23655 L.M.IV ASANT.91984 DDPGSANT.BKUMADDPGSIAV41020040906USA011642SIAV41020040907USA010914COPAT39020050525USA011112DDPG19020070118USA011512PATRY9020071017USA011451PATRY9020071017USA011451ANNAMARIA9020120619USA011354De regimine principum ad regem Cypri31242UNISA05302nam 2200661 450 991077800170332120230125223451.01-59693-145-0(CKB)1000000000787528(EBL)456880(OCoLC)434586610(SSID)ssj0000098414(PQKBManifestationID)11119329(PQKBTitleCode)TC0000098414(PQKBWorkID)10133619(PQKB)11074807(Au-PeEL)EBL456880(CaPaEBR)ebr10312906(CaBNVSL)mat09100178(IEEE)9100178(MiAaPQ)EBC456880(EXLCZ)99100000000078752820200729d2008 uy engur|n|---|||||txtccrAdvances in diagnostic and therapeutic ultrasound imaging /Jajit S. Suri [and others], editorsBoston ;Artech House,©2008.[Piscataqay, New Jersey] :IEEE Xplore,[2008]1 online resource (448 p.)Artech House bioinformatics & biomedical imaging seriesDescription based upon print version of record.1-59693-144-2 Includes bibliographical references and index.Advances in Diagnostic and Therapeutic Ultrasound Imaging; Contents; Preface; Part I Recent Advances in UltrasoundInstrumentation; Chapter 1 3-D Ultrasound Imaging; 1.1 Introduction; 1.2 Disadvantages of 2-D Ultrasound; 1.3 3-D Ultrasound Scanning Techniques; 1.4 Mechanical Scanning; 1.4.1 Linear Mechanical 3-D Scanners; 1.4.2 Tilt 3-D Mechanical Scanners; 1.4.3 Endocavity Rotational 3-D Scanners; 1.5 Free-Hand Scanning with Position Sensing; 1.5.1 Tracked 3-D US with Articulated Arm Sensing; 1.5.2 Free-Hand 3-D US with Acoustic Tracking.1.5.3 Free-Hand 3-D Scanning with Magnetic Field Sensing1.5.4 3-D US Tracked by Speckle Decorrelation; 1.6 Free-Hand 3-D US Scanning Without Position Sensing; 1.7 2-D Array Scanning for Dynamic 3-D Ultrasound (4-D US); 1.8 3-D Ultrasound Visualization; 1.8.1 Multiplanar Reformatting; 1.8.2 Volume Rendering Techniques; 1.9 3-D Ultrasound-Guided Prostate Therapy; 1.9.1 Early-Stage Prostate Cancer Management; 1.9.2 US-Guided Prostate Brachytherapy; 1.9.3 3-D TRUS-Guided Brachytherapy System; 1.9.4 3-D TRUS Imaging System; 1.9.5 Prostate Segmentation; 1.9.5.1 Initialization; 1.9.5.2 Refinement.1.9.5.3 Propagation1.9.6 Dosimetry; 1.9.7 Calibration of the Coordinate Systems; 1.9.8 Needle Segmentation; 1.10 Evaluation of 3-D TRUS-Guided Brachytherapy System; 1.10.1 Methods of Calibration; 1.10.1.1 Fiducial Localization Error; 1.10.1.2 Fiducial Registration Error; 1.10.1.3 Target Registration Error; 1.10.2 Results of Calibration; 1.10.3 Accuracy of Needle Placement; 1.10.4 Accuracy of Needle Angulation; 1.10.5 Accuracy of Needle Targeting; 1.10.6 Accuracy of Needle Tracking; 1.10.7 Accuracy of Seed Implantation; 1.11 Conclusions; Acknowledgments; References.Chapter 2 Despeckle Filtering in Ultrasound Imaging of the Carotid Artery2.1 Introduction; 2.2 Despeckle Filtering; 2.2.1 Local Statistics Filtering; 2.2.1.1 First-Order Statistics Filtering (lsmv, wiener); 2.2.1.2 Homogeneous Mask Area Filtering (lsminsc); 2.2.2 Median Filtering (median); 2.2.3 Maximum Homogeneity over a Pixel Neighborhood Filtering (homog); 2.2.4 Geometric Filtering (gf4d); 2.2.5 Homomorphic Filtering (homo); 2.2.6 Diffusion Filtering; 2.2.7 Wavelet Filtering (waveltc); 2.3 Methodology; 2.3.1 Material; 2.3.2 Recording of Ultrasound Images; 2.3.3 Despeckle Filtering.2.3.4 Texture Analysis2.3.4.1 Statistical Features (SF); 2.3.4.2 Spatial Gray-Level Dependence Matrices (SGLDMs); 2.3.4.3 Gray Level Difference Statistics (GLDS) [44]; 2.3.4.4 Neighborhood Gray Tone Difference Matrix (NGTDM) [45]; 2.3.4.5 Statistical Feature Matrix (SFM) [46]; 2.3.4.6 Laws Texture Energy Measures (TEM) [46]; 2.3.4.7 Fractal Dimension Texture Analysis (FDTA) [46]; 2.3.4.8 Fourier Power Spectrum (FPS) [46]; 2.3.5 Distance Measures; 2.3.6 Univariate Statistical Analysis; 2.3.7 kNN Classifier; 2.3.8 Image Quality Evaluation Metrics; 2.3.9 Visual Evaluation by Experts; 2.4 Results.This groundbreaking resource offers you exclusive coverage of the latest techniques in diagnostic and therapeutic 3-D ultrasound imaging instrumentation and techniques. Providing a solid overview of potential applications in clinical practice, you find need-to-know details on major diseases, including vascular diseases, breast cancer, cardiac abnormalities and prostate cancer.Artech House bioinformatics & biomedical imaging series.Ultrasonic imagingDiagnostic ultrasonic imagingUltrasonic wavesTherapeutic useUltrasonic imaging.Diagnostic ultrasonic imaging.Ultrasonic wavesTherapeutic use.616.07/543Suri Jasjit S1525104CaBNVSLCaBNVSLCaBNVSLBOOK9910778001703321Advances in diagnostic and therapeutic ultrasound imaging3867302UNINA