Patent application number | Description | Published |
20080262355 | METHOD AND APPARATUS FOR FAST 3D ULTRASOUND IMAGING - The present invention provides a method and apparatus for fast 3D ultrasound imaging. The method comprises data acquisition, desired data selection, data smoothing, table construction, ray casting, table look-up, ray synthesis and final result output. The apparatus comprises an acquisition module, a selection module, a smoothing module, a construction module, a ray casting module, a table look-up module, a synthesis module and an output module. The present invention can avoid a huge amount of unnecessary reconstruction calculations by smoothing preprocessing and constructing the reconstruction table and the gradient table as well as transforming coordinates of the points where necessary. The present invention has greater practical applicability, because the existing imaging technology demands that the radius for rotating the probe be identical to the radius of the probe. | 10-23-2008 |
20090054780 | METHOD AND DEVICE FOR REAL-TIME COMPUTATION OF POINT-BY-POINT APODIZATION COEFFICIENTS - A method for real-time computation of point-by-point apodization coefficients used for beam-forming includes storing apodization coefficients of receiving focus points in memory, and computing at least one of an included angle between a vector from a transducer element to a receiving point and a normal vector of the transducer element, and a trigonometric function value of the included angle. The method also includes addressing the memory storing the apodization coefficients according to the quantized included angle or trigonometric function value, and reading the apodization coefficients. In one embodiment, the method may include computing in advance apodization coefficients of a receiving focus point as the starting point for the subsequent interpolation operation and another receiving focus point as the ending point, and deriving, for each receiving channel, apodization coefficients of the points situated between these two receiving focus points through an interpolation operation. | 02-26-2009 |
20090088644 | CIRCULAR ARC WIDE BEAM TRANSMISSION METHOD AND APPARATUS FOR ULTRASONIC IMAGING - A circular arc wide beam transmission method includes setting parameters for a focusing circular arc and calculating a transmission delay for each of the array elements in a transmission aperture of a probe based on the parameters for the focusing circular arc. An ultrasonic imaging system controls each array element to transmit ultrasonic waves according to the transmission delay for that array element. | 04-02-2009 |
20090131794 | METHOD AND APPARATUS FOR QUICKLY DETERMINING AN IMAGING REGION IN AN ULTRASONIC IMAGING SYSTEM - A method and apparatus for quickly determining an imaging region associated with the current transmission in an ultrasonic imaging system includes determining a profile of the imaging region to be processed and, in turn, boundaries of that imaging region according to characteristics of the current transmitted sound field and the demand of the imaging mode. The method also includes computing a set of rectangular coordinates of points on the imaging region to be processed according to the determined boundaries. | 05-21-2009 |
20090143680 | METHOD AND APPARATUS FOR SCAN CONVERSION AND INTERPOLATION OF ULTRASONIC LINEAR ARRAY STEERING IMAGING - A method and apparatus for scan conversion and interpolation of linear array steering imaging in an ultrasonic system are disclosed. The method computes the points that are most related to the point to be interpolated in the principal direction of the point spread function and performs interpolation in the principal direction of the point spread function according to the steering angle of the scan lines so as to obtain a more accurate interpolation result. | 06-04-2009 |
20100152581 | DIGITAL REORDERING UNIT, ULTRASONIC FRONT-END DEVICE AND OPERATING METHOD THEREOF - A digital reordering unit, an ultrasonic front-end device and operating method thereof are provided. The ultrasonic front-end device for use in an ultrasonic system, compatible with P types of reception channels, where P is an integer larger than or equal to 1; the ultrasonic front-end device being connected between a probe and a detector of the ultrasonic system and controlled by a primary controller of the ultrasonic system; the probe having M array elements, where M is an integer larger than or equal to 1, the ultrasonic front-end device having an ultrasonic transmission part and an ultrasonic reception part, wherein the ultrasonic transmission part comprises a transmission beamformer and M transmission driving units, and has M transmission channels; the ultrasonic reception part comprises M high-voltage isolation circuits, RC amplifiers, RC ADCs and a beamformer electrically connected in said order and has RC reception channels, where RC=[N, 2N, 3N . . . p*N], N being an integer larger than or equal to 1, being characterized in that, M low-voltage analog switches and a network of resistors are serially connected between the M high-voltage isolation circuits and the RC amplifiers, wherein M low-voltage analog switches are configured to electrically connect RC array elements of the M array elements in the probe and the RC respective reception channels in the ultrasonic reception part as the scan lines of the ultrasonic diagnostic system change, and the network of resistors configured to connect the RC reception channels connected by the M low-voltage analog switches with the RC amplifiers, the network of resistors comprising M inputs IN[ | 06-17-2010 |
20100189335 | ULTRASOUND IMAGE ENHANCEMENT AND SPECKLE MITIGATION METHOD - A method for enhancing an ultrasound image is provided, wherein the ultrasound image is segmented into a feature region and a non-feature region, while sufficiently utilizing features contained in the ultrasound image, in particular including some inconspicuous features. the enhanced image according to present invention is not susceptive of the image segmentation and avoid dependence of the enhancement effect on the segmentation template, so as not to produce an evident artificial boundary between the feature region and the non-feature region but to highlight some special information in the image and to remove or mitigate invalid information. Thus the enhanced ultrasound image is particularly suitable for the visual system of the human beings. | 07-29-2010 |
20100189346 | ULTRASOUND IMAGE ENHANCEMENT AND SPECKLE MITIGATION METHOD - A method for enhancing an ultrasound image is provided, wherein the ultrasound image is segmented into a feature region and a non-feature region, while sufficiently utilizing features contained in the ultrasound image, in particular including some inconspicuous features, the enhanced image according to present invention is not susceptive of the image segmentation and avoid dependence of the enhancement effect on the segmentation template, so as not to produce an evident artificial boundary between the feature region and the non-feature region but to highlight some special information in the image and to remove or mitigate invalid information. Thus the enhanced ultrasound image is particularly suitable for the visual system of the human beings. | 07-29-2010 |
20100202567 | REAL-TIME DIGITAL QUADRATURE DEMODULATION METHOD AND DEVICE FOR ULTRASONIC IMAGING SYSTEM - A real-time digital quadrature demodulation method and device for the ultrasonic imaging system are disclosed in this invention. In addition to a multiplying step and a filtering step, the method further comprises a sine and cosine table generating step for generating the sine and cosine table in real time, and a filter parameter generating step for generating corresponding filter parameters in real time to filter signals from the multipliers. The device comprises two multipliers, two filters, a sine and cosine table generating module, a filter parameter generating module, and two parameter memories. The real-time digital quadrature demodulation method and device for the ultrasonic imaging system according to the invention are capable of effectively saving the storage resource, and are easily controllable. | 08-12-2010 |
20110096965 | ULTRASOUND IMAGE ENHANCEMENT AND SPECKLE MITIGATION METHOD - A method for enhancing an ultrasound image is provided, wherein the ultrasound image is segmented into a feature region and a non-feature region, while sufficiently utilizing features contained in the ultrasound image, in particular including some inconspicuous features. the enhanced image according to present invention is not susceptive of the image segmentation and avoid dependence of the enhancement effect on the segmentation template, so as not to produce an evident artificial boundary between the feature region and the non-feature region but to highlight some special information in the image and to remove or mitigate invalid information. Thus the enhanced ultrasound image is particularly suitable for the visual system of the human beings. | 04-28-2011 |
20110164794 | METHODS AND SYSTEMS FOR COLOR FLOW DYNAMIC FRAME PERSISTENCE - Methods and systems for color flow dynamic frame persistence in ultrasonic imaging are provided. | 07-07-2011 |
20110299755 | METHODS AND SYSTEMS FOR EXTENDED ULTRASOUND IMAGING - An ultrasound imaging system and method provides for extended imaging. | 12-08-2011 |
20130237829 | METHODS AND SYSTEMS FOR COLOR FLOW DYNAMIC FRAME PERSISTENCE - Methods and systems for color flow dynamic frame persistence in ultrasonic imaging are provided. | 09-12-2013 |
20140023251 | METHODS AND SYSTEMS FOR COLOR FLOW DYNAMIC FRAME PERSISTENCE - Methods and systems for color flow dynamic frame persistence in ultrasonic imaging are provided. | 01-23-2014 |