Szczegóły Szczegóły PDF BIBTEX RIS Tytuł artykułu Narrow Beam Ultrasonic Transducer Matrix Model for Projection Imaging of Biological Media Tytuł czasopisma Archives of Acoustics Rocznik 2010 Wolumin vol. 35 Numer No 1 Autorzy Opieliński, Krzysztof ; Gudra, Tadeusz ; Pruchnicki, Piotr Słowa kluczowe ultrasonic projection ; directional ultrasonic transducer matrix ; multielement ultrasonic probe ; electrode attachment optimisation Wydział PAN Nauki Techniczne Zakres 91-109 Wydawca Polish Academy of Sciences, Institute of Fundamental Technological Research, Committee on Acoustics Data 2010 Typ Artykuły / Articles Identyfikator DOI: 10.2478/v10168-010-0007-3 ; ISSN 0137-5075 ; eISSN 2300-262X Źródło Archives of Acoustics; 2010; vol. 35; No 1; 91-109 Referencje Chiao R. (1996), Aperture formation on reduced-channel arrays using the transmit-receive apodization matrix, null, 1567. ; Drinkwater B. (2006), Ultrasonic arrays for non-destructive evaluation: A review, NDT&E International, 39, 525. ; Eames M. (2008), Fabrication and evaluation of fully-sampled, two-dimensional transducer array for "Sonic Window" imaging system, Ultrasonics, 48, 376. ; Ermert H. (2000), A New Concept for a Real-Time Ultrasound Transmission Camera, null, 1611. ; Granz B. (1987), Acoustical Imaging, 15, 213. ; Green P. (1974), Acoustical Holography, 5, 493. ; Hoctor R. (1990), The Unifying Role of the Coarray in Aperture Synthesis for Coherent and Incoherent Imaging, Proceedings of the IEEE, 78, 4, 735. ; Johnson J. (2005), Coherent-Array Imaging Using Phased Subarrays. Part I: Basic Principles, IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, 52, 1, 37. ; Karaman M. (2009), Minimally Redundant 2-D Array Design for 3-D Medical Ultrasound Imaging, IEEE Transactions on Medical Imaging, 28, 7, 1051. ; Kim J-J. (2006), Real-Time High-Resolution 3D Imaging Method Using 2D Phased Arrays Based on Sparse Synthetic Focusing Technique, null, 1995. ; Lockwood G. (1996), Optimizing the Radiation Pattern of Sparse Periodic Two-Dimensional Arrays, IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, 43, 1, 15. ; Nowicki A. (1995), Basis of Doppler Ultrasonography. ; Nowicki A. (2009), Nonlinearly Coded Signals for Harmonic Imaging, Archives of Acoustics, 34, 1, 63. ; Opielinski K. (2005), Computer Recognition Systems (Advances in Soft Computing), 645. ; Opielinski K. (2006), Determining the acoustic field distribution of ultrasonic multi-element probes, Archives of Acoustics, 31, 4, 391. ; Opielinski K. (2009), Multielement ultrasonic probes for projection imaging, null. ; Opielinski K. J., Gudra T., Pruchnicki P. (2009), <i>The method of a medium internal structure imaging and the device for a medium internal structure imaging</i> [in Polish], Patent Application No. P389014 to the Patent Office of the Republic of Poland, Wrocław University of Technology. ; Opielinski K. (2010), A Digitally Controlled Model of an Active Ultrasonic Transducer Matrix for Projection Imaging of Biological Media, Archives of Acoustics, 35, 1, 75. ; Parmar N. (2006), An investigation of the use of transmission ultrasound to measure acoustic attenuation changes in thermal therapy, Med. Bio. Eng. Comput, 44, 583. ; O. Ramm von (1983), Beam steering with linear arrays, IEEE Trans. Biomed. Eng, BME-30, 8, 438. ; Somer J. (1969), Electronic sector scanning with ultrasonic beams, null, 27. ; Trots I. (2008), Double pulse transmission - signal-to-noise ratio improvement in ultrasound imaging, Archives of Acoustics, 33, 4, 593. ; Trots I. (2009), Synthetic Transmit Aperture in Ultrasound Imaging, Archives of Acoustics, 34, 4, 685. ; Thomenius K. (1996), Evolution of ultrasound beamformers, null, 1615. ; Wildes D. (1997), Elevation performance of 1.25D and 1.5D Transducer Arrays, IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, 44, 5, 1027. ; Wygant I. (2006), Beamforming and hardware design for a multichannel front-end integrated circuit for real-time 3D catheter-based ultrasonic imaging, SPIE Medical Imaging, 6147. ; Wygant I. (2006), An Integrated Circuit with Transmit Beamforming and Parallel Receive Channels for Real-Time Three-Dimensional Ultrasound Imaging, null, 2186. ; Yen J. (2004), Real-Time Rectilinear 3-D Ultrasound Using Receive Mode Multiplexing, IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, 51, 2, 216.