IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0408538
(2003-04-07)
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발명자
/ 주소 |
- Angelsen, Bjørn A. J.
- Johansen, Tonni F.
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대리인 / 주소 |
Cohen, Pontani, Lieberman &
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인용정보 |
피인용 횟수 :
7 인용 특허 :
4 |
초록
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A method of correcting for pulse reverberations in ultrasound imaging using two-dimensional transducer arrays, and uses such reduction in element signals and beam signal before estimation of corrections for phase front aberrations of the ultrasound wave. The pulse reverberation is estimated by two t
A method of correcting for pulse reverberations in ultrasound imaging using two-dimensional transducer arrays, and uses such reduction in element signals and beam signal before estimation of corrections for phase front aberrations of the ultrasound wave. The pulse reverberation is estimated by two transmit events, where the second event is determined by measurement and processing on measurement on echoes of the first event. In a second embodiment of the invention, the reverberation is estimated by a single transmit event, using two receive beams and processing on these. In a third embodiment of the invention the reverberation from very strong scatterers is reduced by adjustment of the active transmit aperture.
대표청구항
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1. A method for correcting pulse reverberations in a received signal along a direction of each image beam during ultrasound imaging, comprising the steps of:forming ultrasound beams for at least one of transmittal or reception by an ultrasound transducer array having a one or two-dimensional distrib
1. A method for correcting pulse reverberations in a received signal along a direction of each image beam during ultrasound imaging, comprising the steps of:forming ultrasound beams for at least one of transmittal or reception by an ultrasound transducer array having a one or two-dimensional distribution of elements, and adjusting an active transmit aperture of the transducer array to form a transmit beam that minimizes transmitted energy that collides with highly reflective materials that produce pulse reverberations in the received signal to ensure an adequate level of spatial resolution in an ultrasound image. 2. The method for correcting pulse reverberations during ultrasound imaging according to claim 1, wherein the active transmit aperture is manually adjusted, and the ultrasound image is used to determine a balance between a reduction in pulse reverberation noise and a reduction of image resolution.3. The method for correcting pulse reverberations during ultrasound imaging according to claim 1, wherein the active transmit aperture is automatically adjusted based on a total energy in a back scattered signal to a specific depth in a defined region.4. The method for correcting phase-front aberrations during ultrasound imaging, wherein prior to estimation of correction filters or approximate delay the pulse reverberations in the ultrasound signal are first reduced according to the method of claim 1, and amplitude corrections for the front aberrations are performed using sub-aperture or element signals along with the reduced pulse reverberations.5. A method for correcting Class I and Class II pulse reverberations in a received signal along a direction of each image beam during ultrasound imaging, where ultrasound beams on at least one of transmittal or reception are formed with an ultrasound transducer array having a two-dimensional distribution of elements, the method comprising the steps of:grouping array elements of the transducer array during the at least one of transmittal or reception into sub-apertures, a same signal being transmitted on each sub-aperture element during the transmittal with at least one of individual delay or amplitude corrections so that sub-aperture transmit beams are formed, and during the reception the signals from individual elements after at least one of a delay or amplitude corrections are summed into received sub-aperture signals so that received sub-aperture beams are formed, dimensions of the sub-apertures being less than a spatial correlation length of pulse reverberation wave fronts at the transducer array, driving the transducer elements with a 1st set of transmit pulses for directional steering and focusing of the beam in said direction of the image beam during a 1st transmit event, recording a set of 1st received sub-aperture signals from the 1st transmit event, a set of 1st received sub-aperture beams being directed in a mirror direction to the direction of said image beam about a normal to each sub-aperture, and filtering an initial interval of each of the 1st sub aperture received signals in corresponding reverberation correction filters to generate a set of reverberation correction transmit signals corresponding to each sub-aperture, each of said reverberation correction transmit signals being transmitted at a corresponding sub-aperture in a 2nd transmit event. 6. A method for correcting pulse reverberations during ultrasound imaging according to claim 5, further comprising the steps of:combining and storing received signal elements from said 1st transmit event with a set of 2nd received sub-aperture signals, directions of said 2nd received sub-aperture beams being in the direction of said image beam, transmitting reverberation correction transmit signals in said 2nd transmit event for each corresponding sub-aperture, the direction of the 2nd sub-aperture beam being in the direction of the image beam, combining received signal elements from said 2nd transmit event into a set of 3rd received sub-aperture signals, a direction of the 3rd received sub-aperture beams being in the same direction as the 2nd received sub-aperture beams, and combining said set of 2nd received sub-aperture signals and said set of 3rd received sub-aperture signals to create a set of reverberation corrected sub-aperture signals that is used for further processing of image data along said direction of the image beam. 7. The method for correcting pulse reverberations during ultrasound imaging according to claim 5, further comprising the steps of:transmitting a synchronized combination of said set of 1st transmit pulses during said 2nd transmit event for each sub-aperture followed by said corresponding reverberation correction transmit signal for each sub-aperture, said direction of the sub-aperture transmit beam being in the same direction of said image beam, and combining received signal elements from said 2nd transmit event into a set of 2nd received sub-aperture signals, said direction of the 2nd received sub-aperture beam being in the same direction as said image beam, wherein said set of 2nd received sub-aperture signals are used as reverberation corrected sub-aperture signals for further processing of image data along said direction of the image beam. 8. The method for correcting pulse reverberations during ultrasound imaging according to claim 5, wherein the sub-apertures comprise one element, and all sub-aperture beam directions are given by the beam direction of the elements.9. The method for correcting pulse reverberations during ultrasound imaging according to claim 5, wherein said reverberation correction filter responses are adapted to individual transducer arrays and elements are stored in a memory circuit in an array probe or a probe connector for reading into an imaging instrument via an array probe connector.10. A method for correcting Class II or Class III pulse reverberations in a received beam signal during ultrasound imaging for an image range interval around a receive focus rf along each image beam direction, where ultrasound beams on at least one of transmittal or reception are formed with an ultrasound transducer array having a two-dimensional distribution of elements, and for each image beam direction, the method comprising the steps of:A: transmitting into tissue a 1st pulsed transmit beam with focus at rt along the image beam direction, forming a 1st received beam signal from array signal elements received from said 1st transmit beam, the 1st received beam being focused at rf along the image beam direction, to form a basis for estimating a reverberation corrected image signal for said image range interval around rf, and forming a 2nd received beam signal from array signal elements received from said 1st transmitted beam with a 2nd received beam spatial response, B: transmitting a 2nd pulsed transmit beam with a 2nd transmit beam spatial response, and forming a 3rd received beam signal from the array signal elements received from said 2nd transmit beam with a 3rd received beam spatial response, and C: forming a 4th signal by filtering said 2nd received beam signal with said 3rd received beam signal for further filtering with a reflection coefficient filter to form an estimate of pulse reverberations in said 1st received beam signal in said image range interval around rf, wherein reverberation corrections of said 1st received beam signal are obtained by subtracting said 4th signal from said 1st received beam signal to form a reverberation corrected beam signal of the ultrasound image in said image range interval around rf along said image beam direction. 11. The method for correcting Class II pulse reverberations in the received beam signal during ultrasound imaging according to claim 10, whereinwithin said image range interval said 2nd received beam spatial response has convex spherical phase fronts centered around a center of the array, said 2nd transmit beam spatial response is equal to said 1st received beam spatial response, and said 3rd received beam spatial response has a focus as a mirror point of rf around a reflecting face of the array. 12. The method for correcting Class II or Class III pulse reverberation in the received beam signal during ultrasound imaging according to claim 11, wherein a focus of the 1st received beam focus rf moves rapidly outwards from the array so that the focus follows a first order scattering from the 1st transmit pulse to form a dynamic focusing of the received beam signal, and a focus of the received beam having a focus as a mirror point of rf around a reflecting face of the array dynamically follows the focus of the 1st received beam.13. The method for correcting Class III pulse reverberations in the received beam signal during ultrasound imaging according to claim 10, whereinwithin said image range interval said 2nd received beam spatial response has convex spherical phase fronts centered around a center of the array, said 2nd transmit beam spatial response has a focus as a mirror point of rf around a reflecting face of the array, and said 3rd received beam spatial response is equal to said 1st received beam spatial response. 14. The method for correcting Class II pulse reverberations in the received beam signal during ultrasound imaging according to claim 10, whereinsaid 2nd received beam spatial response has a focus as a mirror point of rf around a reflecting face of the array, within said image range said 2nd transmit beam spatial response has convex spherical phase fronts centered at a center of a surface of the array, and said 3rd received beam spatial response is equal to said 1st received beam spatial response. 15. The method for correcting Class II pulse reverberations in the received beam signal during ultrasound imaging according to claim 10, whereinsaid 2nd received beam spatial response has a focus as a mirror point of rf around a reflecting face of the array, said 2nd transmit beam spatial response is equal to said 1st received beam spatial response, and in said image range said 3rd received beam spatial response has convex spherical phase fronts centered at a center of a surface of the array. 16. The method for correcting pulse reverberations in the received signal during ultrasound imaging according to claim 10, wherein step A and B are reversed in their order of occurrence.17. The method for correcting Class II or Class III pulse reverberations in the received beam signal during ultrasound imaging according to claim 10, whereinsaid 1st received beam spatial response is equal to said 1st transmit beam spatial response, within said image range interval said 2nd received beam spatial response has convex, spherical phase fronts centered around a center of the array, said 2nd transmit beam spatial response is equal to said 1st transmit beam spatial response, so that said 3rd received beam signal is formable from the received signal elements of the 1st transmit beam so that the 2st transmission is omittable, said 3rd received beam spatial response having a focus as a mirror point around an array reflecting face of a focus of said 1st received beam. 18. The method for correcting Class II or Class III pulse reverberations in the received beam signal in each image beam direction during ultrasound imaging, wherein a range along each image beam is divided into multiple image range intervals where the reverberation corrected receive beam signal for each interval is obtained according to claim 17, each interval has separate transmit pulses and received signals, and said 1st transmit beams is focused inside an actual interval to obtain the reverberation corrected beam signal for said interval.19. The method for correcting pulse reverberations during ultrasound imaging according to claim 10, wherein individual reflection coefficient filters are applied for each at least one transmitted or received signal element or sub-aperture signal before forming the beam with a focus as a mirror point of rf, and filtering with the refection coefficient filter in a final stage of forming said 4th signal is avoided.20. The method for correcting pulse reverberations during ultrasound imaging according to claim 10, wherein said receive beam signals are obtained from sub-aperture signals that are formed from received signal elements.21. The method for correcting pulse reverberations during ultrasound imaging according to claim 10, wherein reflection coefficient filter parameters for at least one of individual arrays, array elements, or array sub-apertures are stored in each array probe and read into an imaging instrument via a probe connector.22. The method for correcting Class III pulse reverberations in a received element or sub-aperture signals during ultrasound imaging for an image range interval around rf along each image beam direction, where ultrasound beams on at least one of transmittal or reception are formed with an ultrasound transducer array having a two-dimensional distribution of elements, and for each image beam direction, the method comprising the steps of:A: transmitting a 1st pulsed transmit beam into tissue with a focus at rt along the image beam direction, and recording a 1st received element or sub-aperture signal received from said 1st transmit beam, the 1st received sub-aperture signal being directed along a direction of the image beam, to form a basis for estimating a reverberation corrected element or sub-aperture signal for said image range interval around rf, and for forming a 2nd received beam signal from array signal elements received from said 1st transmit beam, within said image range interval the 2nd received beam spatial response has convex spherical phase fronts centered around a center of the array, B: transmitting a 2nd pulsed transmit beam into the tissue, said 2nd beam having a focus as a mirror point of rf around a reflecting face of the array, C: recording a 3rd received element or sub-aperture signals received from said 2nd transmit beam, the 3rd received sub-apertures being directed along said direction of the image beam, and D: forming a 4th element or sub-aperture signals by filtering said 2nd received beam signal with said 3rd received elements or sub-aperture signals for further filtering with a reflection coefficient filter to form an estimate of Class III pulse reverberations in said 1st received element or sub-aperture signals in said image range interval around rf, wherein reverberation corrections of said 1st received element or sub-aperture signals are obtained by subtracting said 4th element or sub-aperture signals from said 1st received element or sub-aperture signals to form reverberation corrected received elements or sub-aperture signals of the ultrasound image in said image range interval around rf along said direction of the image beam.
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