Docket #: S02-161
Interpolation Filter for Subarray Image Reconstruction
This patented ultrasound imaging system reduces the hardware complexity for coherent array image formation and restoration. This technology is especially useful when there are fewer front-end electronic channels than the number of transducer elements in an array. The invention is applicable for both 2D and 3D imaging using either 1D or 2D linear arrays, respectively. The system reduces the frame rate by a factor of two or more while producing image quality equivalent to the "gold-standard" full phased array beamformer.
Application Of Separable 2-D Filters For 3-D Image Reconstruction. Each Point Represents A Single Beam That Extends Radially From The Center Of The Array.
Applications
- Ultrasound image processing – particularly for 3D systems with increased element count and increasing demand for front-end electronic channels
Advantages
- Simpler hardware requirements - compared to full-phased array imaging, uses significantly fewer front-end electronic channels than number of array elements
- High quality image - performance comparable to full phased array beamformer
K Space Response Of Psa Imaging Using An Edge Subarray
Patents
- Published Application: 20050101867
- Published Application: 20070208254
Similar Technologies
-
(1) An improved method for operating CMUTs under high and varying pressure, and (2) Production of pre-charged CMUTs for zero-external-bias operation S11-214(1) An improved method for operating CMUTs under high and varying pressure, and (2) Production of pre-charged CMUTs for zero-external-bias operation
-
System and device for improved ultrasound cavitation mapping S17-138System and device for improved ultrasound cavitation mapping
-
Improved Method for Fabricating 2-D CMUT Arrays S08-190Improved Method for Fabricating 2-D CMUT Arrays