Ultrasonographic device for performing luminance correction
First Claim
1. An ultrasonic diagnostic apparatus comprising:
- an ultrasonic probe;
a transmitter having a transmission signal generating circuit for generating a ultrasonic wave made by continuous wave or pulse wave and selectively transmitting the ultrasonic wave to a subject via the ultrasonic probe;
a receiver for phasing a reception signal received from the subject by the ultrasonic probe;
a Doppler processing unit for calculating Doppler frequency shift in the reception signal output from the receiver and calculating blood flow velocity of the subject on the basis of the Doppler frequency shift;
a display for displaying a time-varying waveform of the blood flow velocity;
a controller for controlling the transmitter, the receiver, the Doppler processing unit, and the display; and
a gray-level correcting unit for correcting gray level of an output result of the Doppler processing unit,wherein the gray-level correcting unit includes a filtering unit for separating a signal and a noise from each other, which are included in the time-varying waveform of the blood flow velocity of the subject obtained by the Doppler processing unit, with a correcting gray level of pixels of the time-varying waveform by using weighting values determined by a weighting function on the basis of differences between the gray level of each of the pixels and a gray level of each of the peripheral pixels thereof on a space defined by the blood flow velocity and time, and a gray-level corrector for performing a gray level correction using, as a parameter, a boundary value between signal intensity and noise intensity obtained by the filtering unit.
1 Assignment
0 Petitions
Accused Products
Abstract
The present invention provides an ultrasonic diagnostic apparatus realizing improved visibility of a contour shape of signal components in an ultrasonic blood flow spectrum display image. The apparatus includes a gray-level correction unit for correcting intensity of an output result of a Doppler processing unit. The Doppler processing unit calculates a Doppler frequency shift in a reception signal output from a receiver and calculates blood flow velocity of a subject on the basis of the Doppler frequency shift. The gray-level correction unit has: a filtering unit for separating a signal and a noise from each other, which are included in a time-varying waveform of the blood flow velocity of the subject obtained by the Doppler processing unit on the basis of continuity on a space defined by the blood flow velocity and time; and a gray-level corrector for performing a gray level correction using, as a parameter, a boundary value between signal intensity and noise intensity obtained by the filtering unit.
-
Citations
6 Claims
-
1. An ultrasonic diagnostic apparatus comprising:
-
an ultrasonic probe; a transmitter having a transmission signal generating circuit for generating a ultrasonic wave made by continuous wave or pulse wave and selectively transmitting the ultrasonic wave to a subject via the ultrasonic probe; a receiver for phasing a reception signal received from the subject by the ultrasonic probe; a Doppler processing unit for calculating Doppler frequency shift in the reception signal output from the receiver and calculating blood flow velocity of the subject on the basis of the Doppler frequency shift; a display for displaying a time-varying waveform of the blood flow velocity; a controller for controlling the transmitter, the receiver, the Doppler processing unit, and the display; and a gray-level correcting unit for correcting gray level of an output result of the Doppler processing unit, wherein the gray-level correcting unit includes a filtering unit for separating a signal and a noise from each other, which are included in the time-varying waveform of the blood flow velocity of the subject obtained by the Doppler processing unit, with a correcting gray level of pixels of the time-varying waveform by using weighting values determined by a weighting function on the basis of differences between the gray level of each of the pixels and a gray level of each of the peripheral pixels thereof on a space defined by the blood flow velocity and time, and a gray-level corrector for performing a gray level correction using, as a parameter, a boundary value between signal intensity and noise intensity obtained by the filtering unit. - View Dependent Claims (2, 3, 4)
-
-
5. An ultrasonic diagnostic apparatus comprising:
-
an ultrasonic probe; a transmitter having a transmission signal generating circuit for generating a ultrasonic wave made by continuous wave or pulse wave and selectively transmitting the ultrasonic wave to a subject via the ultrasonic probe; a receiver for phasing a reception signal received from the subject by the ultrasonic probe; a Doppler processing unit for calculating Doppler frequency shift in the reception signal output from the receiver and calculating blood flow velocity of the subject on the basis of the Doppler frequency shift; a display for displaying a time-varying waveform of the blood flow velocity; a controller for controlling the transmitter, the receiver, the Doppler processing unit, and the display; and a gray-level correcting unit for correcting gray level of an output result of the Doppler processing unit, wherein the gray-level correcting unit separates a signal and a noise from each other which are included the time-varying waveform of the blood flow velocity of the subject obtained by the Doppler processing unit, with a correcting gray level of pixels of the time-varying waveform by using weighting values determined by a weighting function on the basis of differences between the gray level of each of the pixels and a gray level of each of the peripheral pixels thereof on a space defined by the blood flow velocity and time, and performs an intensity correction by suppressing output intensity equal to or lower than a boundary point between signal intensity and noise intensity obtained as a result the separation of the signal and the noise. - View Dependent Claims (6)
-
Specification