Abstract: Disclosed are a medical indicator measuring method and an ultrasound diagnostic device therefor. The medical indicator measuring method according to an embodiment includes the steps of: an ultrasound diagnostic device acquiring ultrasound image data, extracting characteristic points from the acquired ultrasound image data, generating figure information configured from the extracted characteristic points, determining an anatomical structure from the generated figure information, and measuring a medical indicator on the basis of the determined anatomical structure.

Abstract: An ultrasound imaging device and a clutter filtering method using the same are disclosed. The clutter filtering method using the ultrasound imaging device according to one embodiment includes obtaining ultrasound data from a field-of-view (FOV) of an object, generating decomposition data including common scale information by performing rank matrix decomposition once on all of the obtained ultrasound data, estimating local characteristic information by reflecting spatial information on each pixel to the common scale information, and extracting a blood flow signal by performing filtering on each pixel based on the estimated local characteristic information.

Abstract: An ultrasound imaging device and a clutter filtering method using the same are disclosed. The clutter filtering method using the ultrasound imaging device according to one embodiment includes obtaining ultrasound data from a field-of-view (FOV) of an object, generating decomposition data including common scale information by performing rank matrix decomposition once on all of the obtained ultrasound data, estimating local characteristic information by reflecting spatial information on each pixel to the common scale information, and extracting a blood flow signal by performing filtering on each pixel based on the estimated local characteristic information.

Abstract: An ultrasonic transducer having a flexible printed circuit board with a thick metal layer and a manufacturing method thereof are disclosed. The ultrasonic transducer, according to an embodiment of the present invention, comprises: an active element that generates an ultrasonic signal, wherein the active element has a thickness of ¼? or less at the center frequency of the generated ultrasonic signal; and a flexible printed circuit board that includes a metal layer with a predetermined thickness, which is formed on one surface of the active element and is electrically connected to the active element, wherein the metal layer blocks ultrasonic waves that propagate in an opposite direction to a predetermined travel path of the ultrasonic waves.

Abstract: A software-based ultrasound imaging system is disclosed. According to some embodiments of the present disclosure, a method and an architecture for efficiently transmitting, processing, and storing channel data in the software-based ultrasound imaging system are provided.

Abstract: A beamforming device, an ultrasonic imaging device, and a beamforming method, which allow a simple spatial smoothing operation, are disclosed. A beamforming device according to an embodiment of the present invention comprises: a spatial smoothing unit for transforming a received signal into another space, using a transformation function configured by low frequency components, calculating a transformed signal by a spatial smoothing operation using a transformation function in a transformation space, and estimating an averaged spatial covariance matrix; a weighted value operation unit for operating a weighted value of the transformed signal from the averaged spatial covariance matrix which has been estimated by the spatial smoothing operation; and a synthesis unit for generating a beam signal, using the transformed signal and the weighted value of the transformed signal.

Abstract: A beamforming device, an ultrasonic imaging device, and a beamforming method, which allow a simple spatial smoothing operation, are disclosed. A beamforming device according to an embodiment of the present invention comprises: a spatial smoothing unit for transforming a received signal into another space, using a transformation function configured by low frequency components, calculating a transformed signal by a spatial smoothing operation using a transformation function in a transformation space, and estimating an averaged spatial covariance matrix; a weighted value operation unit for operating a weighted value of the transformed signal from the averaged spatial covariance matrix which has been estimated by the spatial smoothing operation; and a synthesis unit for generating a beam signal, using the transformed signal and the weighted value of the transformed signal.

Abstract: An ultrasonic transducer having a flexible printed circuit board with a thick metal layer and a manufacturing method thereof are disclosed. The ultrasonic transducer, according to an embodiment of the present invention, comprises: an active element that generates an ultrasonic signal, wherein the active element has a thickness of ¼? or less at the center frequency of the generated ultrasonic signal; and a flexible printed circuit board that includes a metal layer with a predetermined thickness, which is formed on one surface of the active element and is electrically connected to the active element, wherein the metal layer blocks ultrasonic waves that propagate in an opposite direction to a predetermined travel path of the ultrasonic waves.

Abstract: The present disclosure provides an ultrasonic transducer including a swivel member, a linking member and an array. The swivel member rotates upon receiving an actuating force and has a thrust mechanism. The linking member is connected to the swivel member to make a movement along a pendulum motion path upon receiving thrust generated by the thrust mechanism of the swivel member. The array is connected to the linking member to rotate a predetermined angle upon receiving thrust generated by the movement of the linking member. In some embodiments, the swivel member has an insertion pin coupled to the linking member including a guide groove for receiving the insertion pin, and the guide groove length is greater than the insertion pin diameter. The array includes a stop for restraining the linking member from moving side to side. The present disclosure also provides a method of operating the aforementioned ultrasonic transducer.

Abstract: The present disclosure of at least one embodiment provides a method for manufacturing ultrasound probes comprising a machining process, the method including depoling a piezoelectric element as a material for the ultrasonic probes before the machining process.

Abstract: An implantable medical device includes a secondary coil for receiving an RF signal from the external terminal by an induced electromotive force excited by an external terminal primary coil. RF signal includes a power signal for energizing the medical device and data signal generated upon modulation of the power signal for use in controlling the medical device. The implantable medical device further comprises: a power processing block for converting the received power signal into DC for use by the implantable medical device; a data communication circuit activated by the DC supplied from the power processing block for demodulating the modulated data signal from the RF signal; a charge unit for charging a battery with the DC supplied from the power processing block; and a control unit to be operative by a power supply from the battery for controlling the implantable medical device according to the demodulated data signal.

Abstract: A method and an apparatus for processing data for an ultrasound image reconstruction are disclosed. In some embodiments, a method and an apparatus for processing data for reconstructing an ultrasound image are provided, which are capable of storing first frame data generated by a focused ultrasound in a realtime display mode and a parameter for the first frame data, and when a specific event is detected as occurring, and additionally storing second frame data generated by an unfocused ultrasound and a parameter for the second frame data, thus expanding the scope of application of the data for an image reconstruction and acquiring various formats of improved ultrasound images.

Abstract: An ultrasonic transducer and a manufacturing method therefor are disclosed. The ultrasonic transducer, according to one embodiment of the present invention, comprises: an ultrasonic transducer body generating ultrasonic waves by using an active element to externally irradiate the ultrasonic waves through a lens part, and receiving reflected waves of the externally irradiated ultrasonic waves to convert the reflected waves into electrical signals; and a backing block joined to the opposite side of at least the lens part of the ultrasonic transducer body so as to attenuate the ultrasonic waves. According to one embodiment of the present invention, a backing material of the backing block is composed of a damping grease mixture. The damping grease mixture can be a material in which metal powder is mixed as a filler by using the damping grease as a dispersion medium. For example, the damping grease can be a mixture in which polytetrafluoroethylene (PTFE) is mixed as a viscosity increasing agent.

Abstract: The present invention relates to an ultrasonic probe having a vibration generating function, and an ultrasonic diagnostic apparatus comprising the same. The ultrasonic probe comprises a probe body; a transducer; and a vibration generating unit. The transducer is fixed to one end of the probe body, has a contact portion in contact with the surface of a test subject, and transmits and receives ultrasonic signals. The vibration generating unit is embedded in the probe body, and compresses and decompresses the surface of the test subject by the transducer by vibrating the probe body while the transducer is in contact with the surface of the test subject.

Abstract: The present disclosure in some embodiments provides a medical device and to a method of operating the medical device. The medical device, comprising: a monitoring information processor configured to process and display cardiovascular information acquired through diagnosing or monitoring a target area of a patent body; a comparison unit configured to compare at least one values selected from the cardiovascular information with at least one threshold values; a cardiovascular information analysis unit configured to analyze the cardiovascular information provided depending on the result of comparison performed by the comparison unit and to produce an analysis result; and a therapeutic parameter setup unit configured to generate a setup information based on a part or all of the cardiovascular information and the analysis result and to generate therapeutic pulses for adjusting a level of a treatment on the patient body according to the setup information.

Abstract: An ultrasonic probe having a plurality of arrays connected in a parallel structure and an ultrasonic image diagnosing apparatus including the same are disclosed. The ultrasonic probe according to one embodiment of the present invention comprises: a first array; a second array connected in parallel to the first array in the elevation direction of the first array and having a focal distance different from that of the first array by having width different from that of the first array in the elevation direction; and a switch or a multiplexer for selecting an array to be activated.

Abstract: A beamforming apparatus, an ultrasound imaging apparatus, and a beamforming method are disclosed. The beamforming apparatus according to an exemplary embodiment may include a filter to select predetermined first columns, which correspond to low-frequency components, among columns that composes a transform function; and a beamforming processor to transform an input signal to another space by using a transform function composed of the predetermined selected first columns, and generate a beam signal through signal processing in the transformed space.

Abstract: An apparatus and method for a vector interpolation of an ultrasound image are provided. The apparatus includes a probe, beam former, demodulator and interpolation processor. The probe converts an electric signal into an ultrasound signal, transmits the ultrasound signal to an object, and converts a reflected ultrasound signal from the object into a reflected electric signal. The beam former forms a receive-focused signal based on the electric signal converted from the reflected ultrasound signal by the probe. The demodulator demodulates the receive-focused signal for forming I data corresponding to in-phase components and Q data corresponding to quadrature-phase components. And the interpolation processor performs a vector interpolation with 1:M weighting (M is a natural number) between different complex-valued signals, based on the I data and the Q data.

Abstract: An ultrasonic diagnostic apparatus, a graphic environment control device for use therein, and a control method therefor are provided. The ultrasonic diagnostic apparatus includes: a touch panel for detecting an operator's touch position; a display for displaying images in response to ultrasonic waves radiated from a probe and reflections of the ultrasonic waves; and a graphic control unit for displaying an input panel layout corresponding to the touch panel on the display, selecting a position on the input panel layout corresponding to a touch position detected by the touch panel, and performing a control operation corresponding to the position selected on the input panel layout.

Abstract: Embodiments of the present disclosure provide an ultrasonic cavity probe including a grip configured to be held by a user, a lens unit having a predetermined curvature radius, and configured to be inserted into a bodily cavity and to be brought into contact with a skin inside the bodily cavity, a head unit including a first side for mounting the lens unit and rounded corners, and a connecting portion configured to connect the head unit and the grip and to make a first angle with the head unit.