An ultrasonic diagnostic device includes: a probe including a plurality of elements; a transmission unit that transmits an ultrasonic beam by performing transmission focusing in a first direction from the plurality of elements; a reception unit that generates element data by processing reception signals output from the plurality of elements that has received an ultrasonic echo generated by the transmitted ultrasonic beam; an element data processing unit that generates reflection component removal data by removing a reflection component generated from the first direction from the element data; an image generation unit that generates an ultrasonic image by performing reception focusing for the element data; and a control unit that controls the image generation unit to generate an image signal along a second direction different from the first direction by performing reception focusing in the second direction for the reflection component removal data generated by the element data processing unit.

An ultrasonic diagnostic device includes: a probe including a plurality of elements; a transmission unit that transmits an ultrasonic beam by performing transmission focusing in a first direction from the plurality of elements; a reception unit that generates element data by processing reception signals output from the plurality of elements that has received an ultrasonic echo generated by the transmitted ultrasonic beam; an element data processing unit that generates reflection component removal data by removing a reflection component generated from the first direction from the element data; an image generation unit that generates an ultrasonic image by performing reception focusing for the element data; and a control unit that controls the image generation unit to generate an image signal along a second direction different from the first direction by performing reception focusing in the second direction for the reflection component removal data generated by the element data processing unit.

A method and system for imaging a sample uses a 2D array of bias-sensitive, ultrasound transducers arranged in first and second strips, and a source of radiation to stimulate the sample to be imaged. The second electrode strips are sequentially biased according to sequential biasing patterns of voltages that correspond to rows or columns of an invertible matrix. For each biasing pattern, signals are measured from the first electrode strips to detect return signals from the sample that result from the sample being stimulated. A dataset is calculated based on the measured signals, the dataset comprising an effective signal for each of a plurality of transducer elements in the array. An image of the sample is generated based on the dataset.

The invention is to provide an ultrasonic image with a clear tissue structure while reducing speckle noise of the ultrasonic image. An ultrasonic wave is transmitted from the transducer to the subject, and an echo generated in the subject is received. The first ultrasonic image and the second ultrasonic image are generated using a reception signal. The second ultrasonic image is an image smoother than the first ultrasonic image. The image processing unit calculates filter coefficients using pixel values of corresponding pixels of the first ultrasonic image and the second ultrasonic image, and generates an output image by processing one of the first ultrasonic image and the second ultrasonic image using the filter coefficients.

Systems and methods for performing shear wave elastography using push and/or detection ultrasound beams that are generated by subsets of the available number of transducer elements in an ultrasound transducer. These techniques provide several advantages over currently available approaches to shear wave elastography, including the ability to use a standard, low frame rate ultrasound imaging system and the ability to measure shear wave speed throughout the entire field-of-view rather than only those regions where the push beams are not generated.

An ultrasound signal processing device: performing transmission events each involving selecting a group among transducer elements arranged in line in an ultrasound probe, and causing the group to transmit ultrasound towards a subject; for each transmission event, receiving ultrasound reflection from the subject; and generating a frame acoustic line signal based on sub-frame acoustic line signals that are generated based on the ultrasound reflection. The ultrasound signal processing device includes: a calculator that calculates, based on reflected ultrasound, a motion amount indicating movement between image signals for the subject; and a synthesizer generating the frame acoustic line signal based on the sub-frame acoustic line signals. The number of sub-frame acoustic line signals that the synthesizer uses to generate a frame acoustic line signal decreases when the motion amount is equal to or greater than a predetermined threshold.

A first beam scanning plane and a second beam scanning plane are formed alternately. For formation of the first beam scanning plane, transmission/reception control is performed so that the beam deflection angle increases continuously toward the negative side from a first end to a second end in the electronic scanning direction. For formation of the second beam scanning plane, transmission/reception control is performed so that the beam deflection angle increases continuously toward the positive side from the second end to the first end in the electronic scanning direction.

An ultrasound diagnostic device including a transmitter and a delay-and-sum unit. The transmitter selects a tertiary transducer array that coincides in an azimuth direction with a transmission focal point, two partial primary transducer arrays that sandwich the tertiary transducer array in the azimuth direction, and two secondary transducer arrays that sandwich the tertiary and partial primary transducer arrays in the azimuth direction, and causes transmission from the tertiary and secondary transducer arrays of an ultrasound beam with a larger signal intensity in a high frequency band than that transmitted from the partial primary transducer arrays. The delay-and-sum unit sets calculation target areas that have different positions in the azimuth direction, and executes delay-and-sum processing with respect to each of the calculation target areas to generate acoustic line signal frame data.

A processor in an ultrasonic diagnostic apparatus controls an ultrasonic probe 2 to transmit a first ultrasonic beam to a first region A1, transmit a second ultrasonic beam to a second region A2, and transmit a third ultrasonic beam to a third region A3, wherein the first and third ultrasonic beams are focused ultrasonic beams having focus points F, and the second ultrasonic beam is an ultrasonic beam formed by a plane wave. The processor produces an ultrasonic image comprised of a first ultrasonic image for the first region A1, a second ultrasonic image for the second region A2, and a third ultrasonic image for the third region A3 based on first, second, and third echo signals obtained from said first, second, and third regions A1, A2, A3.

An ultrasonic diagnostic device includes: a probe including a plurality of elements; a transmission unit that transmits an ultrasonic beam by performing transmission focusing in a first direction from the plurality of elements; a reception unit that generates element data by processing reception signals output from the plurality of elements that has received an ultrasonic echo generated by the transmitted ultrasonic beam; an element data processing unit that generates reflection component removal data by removing a reflection component generated from the first direction from the element data; an image generation unit that generates an ultrasonic image by performing reception focusing for the element data; and a control unit that controls the image generation unit to generate an image signal along a second direction different from the first direction by performing reception focusing in the second direction for the reflection component removal data generated by the element data processing unit.