Patent application number | Description | Published |
20080242982 | METHODS AND APPARATUS FOR ULTRASOUND IMAGING - Blood flow information is used to reduce noise manifest in blood vessel ultrasound B-mode images. A blood flow signal is obtained by a flow detector. After wall filtering, only the flow signal power in the blood vessel lumen remains, while signal power from stationary tissue region is suppressed. The flow signal component is used to calculate a flow component parameter that is used to generate a gain control signal α that reduces noise in a B-mode image. | 10-02-2008 |
20080242994 | METHODS AND APPARATUS FOR ULTRASOUND IMAGING - The maximum frequency in a Doppler spectrum is obtained and used as an aliasing detector. When aliasing occurs, frequencies greater than a frequency limit change from one frequency region to another. When aliasing is detected, a zero frequency baseline is shifted to prevent future aliasing. | 10-02-2008 |
20090112096 | METHODS AND APPARATUS FOR ULTRASOUND IMAGING - A system and method is disclosed that examines Doppler spectrum signals output by an ultrasound system when measuring blood flow velocity to determine a proper Doppler gain and to suppress noise manifest in the Doppler spectrum. Noise present in the Doppler spectrum is examined and used as a criterion for optimal gain. If the Doppler gain is too high or too low in accordance with predetermined levels, overall gain is adjusted accordingly. | 04-30-2009 |
20110015526 | METHODS AND APPARATUS FOR ULTRASOUND IMAGING - Some embodiments include acquisition of color Doppler data, detection of one or more transitions of the color Doppler data, each of the one or more transitions being between a first area representing flow velocity in a first direction and a second area representing flow velocity not in the first direction, and application of a first set of aliasing corrections to the color Doppler data to generate second color Doppler data. | 01-20-2011 |
20110040188 | METHODS AND APPARATUS FOR ULTRASOUND IMAGING - Some embodiments include acquisition of color Doppler data, and detection of one or more transitions of the color Doppler data, each of the one or more transitions being between a first area representing flow velocity in a first direction and a second area representing flow velocity not in the first direction. A normalized energy function across one or more of the one or more transitions is calculated, a configuration of flow areas within the color Doppler data is determined, and aliasing corrections for the color Doppler data are determined based on the normalized energy functions and the configuration of flow areas. | 02-17-2011 |
20110245668 | METHODS AND APPARATUS FOR ULTRASOUND IMAGING - A first ultrasound pulse is applied to biological tissue to create shear waves in the biological tissue, a focused ultrasound pulse is transmitted into the biological tissue, one or more ultrasound signals is received from the biological tissue, and shear waves are detected in the biological tissue based on the received one or more ultrasound signals. At least one propagation property associated with the detected shear waves is determined, and the determined at least one propagation property is displayed. | 10-06-2011 |
20110245672 | METHODS AND APPARATUS FOR ULTRASOUND IMAGING - A first ultrasound pulse is applied to biological tissue to create shear waves in the biological tissue, a focused ultrasound pulse is transmitted into the biological tissue, one or more ultrasound signals is received from the biological tissue, and shear waves are detected in the biological tissue based on the received one or more ultrasound signals. At least one propagation property associated with the detected shear waves is determined, and the determined at least one propagation property is displayed. | 10-06-2011 |
20110245678 | METHODS AND APPARATUS FOR ULTRASOUND IMAGING - A first ultrasound pulse is applied to biological tissue to create shear waves in the biological tissue, a focused ultrasound pulse is transmitted into the biological tissue, one or more ultrasound signals is received from the biological tissue, and shear waves are detected in the biological tissue based on the received one or more ultrasound signals. At least one propagation property associated with the detected shear waves is determined, and the determined at least one propagation property is displayed. | 10-06-2011 |
20110317902 | METHOD AND APPARATUS OF IMAGE PROCESSING TO DETECT EDGES - An edge detection filter comprising an array of filter coefficients having an odd number of rows and columns, a first set of zero coefficients extending along a direction traversing the array through a center position to form a first and second side, a second set of positive coefficients extending away from the direction on the first side, and a third set of negative coefficients extending away from the direction on the second side. | 12-29-2011 |
20120253194 | METHODS AND APPARATUS FOR ULTRASOUND IMAGING - A first ultrasound pulse is applied to biological tissue to create shear waves in the biological tissue, a focused ultrasound pulse is transmitted into the biological tissue, one or more ultrasound signals is received from the biological tissue, and shear waves are detected in the biological tissue based on the received one or more ultrasound signals. At least one shear wave propagation property associated with the detected shear waves is determined, and the determined at least one propagation property is displayed. Ultrasound beam steering is used to improve measurement accuracy. | 10-04-2012 |
20130030298 | METHODS AND APPARATUS FOR ULTRASOUND IMAGING - Actual ultrasound attenuation in tissue is used to calculate gain compensation profiles which are used to create a uniform image. Axial, lateral, elevation gain profiles are used to correct the attenuation and ultrasound variation in each direction. In addition, automatic activation of the automatic gain compensation is described. | 01-31-2013 |
20130261452 | METHODS AND APPARATUS FOR ULTRASOUND IMAGING - A first ultrasound pulse is applied to biological tissue to create shear waves in the biological tissue, a focused ultrasound pulse is transmitted into the biological tissue, one or more ultrasound signals is received from the biological tissue, and shear waves are detected in the biological tissue based on the received one or more ultrasound signals. At least one propagation property associated with the detected shear waves is determined, and the determined at least one propagation property is displayed. A strain image is obtained by either acoustic radiation forces or mechanical compression, e.g., by an ultrasound probe. The strain image is then converted to a new shear wave velocity image by using a previously-obtained shear wave velocity image. | 10-03-2013 |
20130261453 | METHODS AND APPARATUS FOR ULTRASOUND IMAGING - A first ultrasound pulse is applied to biological tissue to create shear waves in the biological tissue, a focused ultrasound pulse is transmitted into the biological tissue, one or more ultrasound signals is received from the biological tissue, and shear waves are detected in the biological tissue based on the received one or more ultrasound signals. At least one propagation property associated with the detected shear waves is determined, and the determined at least one propagation property is displayed. A strain image is obtained by either acoustic radiation forces or mechanical compression, e.g., by an ultrasound probe. The strain image is then converted to a new shear wave velocity image by using a previously-obtained shear wave velocity image. | 10-03-2013 |
20130267847 | METHODS AND APPARATUS FOR ULTRASOUND IMAGING - A first ultrasound pulse is applied to biological tissue to create shear waves in the biological tissue, an ultrasound pulse is transmitted into the biological tissue, one or more ultrasound signals is received from the biological tissue, and shear waves are detected in the biological tissue based on the received one or more ultrasound signals. At least one propagation property associated with the detected shear waves is determined, and the determined at least one propagation property is displayed. | 10-10-2013 |