Imaging TechnologyHua Lee, Glen Wade Very Good,No Highlights or Markup,all pages are intact. |
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Page 276
... axis . ( i ) The spins are being refocused . ( j ) Spin echo is generated along y ' axis . 2 ) exp [ 17 √ ' " ( xG2 ( 1 ' ) S { xGx ] If a line is selected by some means , as will be discussed later , application of a field gradient ...
... axis . ( i ) The spins are being refocused . ( j ) Spin echo is generated along y ' axis . 2 ) exp [ 17 √ ' " ( xG2 ( 1 ' ) S { xGx ] If a line is selected by some means , as will be discussed later , application of a field gradient ...
Page 299
... axis . The two orthogonal axes of the processed image are range and cross - range ( azimuth ) . The position along the range axis is de- termined by time delay of the received pulse , and the posi- tion along the cross - range axis is ...
... axis . The two orthogonal axes of the processed image are range and cross - range ( azimuth ) . The position along the range axis is de- termined by time delay of the received pulse , and the posi- tion along the cross - range axis is ...
Page 364
... axis direction is arbitrary . ) Define the unit sphere to be fixed with respect to the object so it shares the ... axis is chosen to point in the RLOS direction at the center time of the imaging interval . The x ' axis is oriented along ...
... axis direction is arbitrary . ) Define the unit sphere to be fixed with respect to the object so it shares the ... axis is chosen to point in the RLOS direction at the center time of the imaging interval . The x ' axis is oriented along ...
Contents
Digital Holography T S Huang Proceedings of the IEEE September 1971 | 33 |
Evaluating Quantization Error in PhaseOnly Holograms H Lee and G Wade IEEE Transactions on Sonics | 67 |
Acoustic Imaging with Holography and Lenses G Wade IEEE Transactions on Sonics and Ultrasonics | 101 |
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acoustic imaging Acoustical Holography algorithm amplitude angle antenna applications approach approximation array attenuation axis azimuth beam cells coherent components Computerized Tomography correlation detection detector diffraction discussed Doppler electron equation field filter focal Fourier transform frequency function hologram holography IEEE IEEE Trans illumination image reconstruction imaging system input integral inverse laser layer lens line integral linear magnetic measured method microscope microwave noise object obtained optical optical pattern recognition output parameters pattern phase Phys piezoelectric plane problem Proc processor projection pulse radar image Radon transform range range-Doppler receiver recorded reference reflection resolution rotation sample scanner scanning scattered Seasat seismic sensor shown in Fig signal processing space spatial spatial frequency surface synthetic aperture synthetic aperture radar target techniques three-dimensional tion tomography transducer transmitted two-dimensional ultrasonic ultrasound vector velocity wave wavelength X-ray