Ultrasound imaging method and device with prediction of artefacts induced between reconstruction modes
First Claim
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1. A method of inspecting a structure to detect a presence of potential defects therein, including steps implemented by a processor coupled to a multi element transducer having M transmitters of an ultrasound signal and N receivers of the ultrasound signal, the method comprising:
- transmitting successively via the M transmitters the ultrasound signal in the structure, and recording in the N receivers echoes combining from propagation of the ultrasound signal in the structure, to acquire a set of M*N ultrasound signals Sij(t), where i denotes one of the transmitters, j denotes one of the receivers, and t denotes time;
determining, for each point of a first sub-region of a region of the structure and for each transmitter-receiver pair i-j, a time of flight of a path in accordance with a first ultrasound wave propagation model that goes through the point from a corresponding transmitter i to a corresponding receiver j;
determining a second sub-region of the region of the structure, wherein for each transmitter-receiver pair i-j a point of the region belongs to the second sub-region when a time of flight of a path in accordance with a second ultrasound wave propagation model that goes through the point from the corresponding transmitter i to the corresponding receiver j coincides with a time of flight of a path in accordance with the first ultrasound wave propagation model that goes through one of the points of the first sub-region from the corresponding transmitter i to the corresponding receiver j;
forming an image of the region of the structure by synthetic focusing, wherein for each point of the region, and for each transmitter-receiver pair i-j, an ultrasound signal considered at a time of flight of the path in accordance with the second ultrasound wave propagation model that goes through the point of the region from the corresponding transmitter i to the corresponding receiver j is exploited uniquely if said time of flight coincides with one, or differs with all, of the times of flight of the paths in accordance with the first ultrasound wave propagation model that goes through one of the points of the first sub-region from the corresponding transmitter i to the corresponding receiver j.
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Abstract
The invention relates to an ultrasound imaging method for imaging a part (1), characterized by the implementation of the following steps:
- selecting a first sub-region ({tilde over (Z)}) of the part from a first image (IA(Z)) of a region (Z) of the part (1),
- determining, for each point of the first selected sub-region ({tilde over (Z)}), the times of flight (TijA({tilde over (Z)})) corresponding to the paths according to a first reconstruction mode (A) going through the point from a transmitter i to a receiver j for a set of M*N transmitter-receiver couples of an ultrasound signal;
- determining a second sub-region of the part, a point (P) of the region belonging to the second sub-region when a time of flight (TijB(P)) of the path according to a second reconstruction mode (B) going through the point (P) from a transmitter i to a receiver j of said set of M*N transmitter-receiver couples coincides with a time of flight (TA({tilde over (Z)})) of a path according to the first reconstruction mode from a transmitter to a receiver from the transmitter i to the receiver j going through one of the points of the first selected sub-region.
13 Citations
8 Claims
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1. A method of inspecting a structure to detect a presence of potential defects therein, including steps implemented by a processor coupled to a multi element transducer having M transmitters of an ultrasound signal and N receivers of the ultrasound signal, the method comprising:
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transmitting successively via the M transmitters the ultrasound signal in the structure, and recording in the N receivers echoes combining from propagation of the ultrasound signal in the structure, to acquire a set of M*N ultrasound signals Sij(t), where i denotes one of the transmitters, j denotes one of the receivers, and t denotes time; determining, for each point of a first sub-region of a region of the structure and for each transmitter-receiver pair i-j, a time of flight of a path in accordance with a first ultrasound wave propagation model that goes through the point from a corresponding transmitter i to a corresponding receiver j; determining a second sub-region of the region of the structure, wherein for each transmitter-receiver pair i-j a point of the region belongs to the second sub-region when a time of flight of a path in accordance with a second ultrasound wave propagation model that goes through the point from the corresponding transmitter i to the corresponding receiver j coincides with a time of flight of a path in accordance with the first ultrasound wave propagation model that goes through one of the points of the first sub-region from the corresponding transmitter i to the corresponding receiver j; forming an image of the region of the structure by synthetic focusing, wherein for each point of the region, and for each transmitter-receiver pair i-j, an ultrasound signal considered at a time of flight of the path in accordance with the second ultrasound wave propagation model that goes through the point of the region from the corresponding transmitter i to the corresponding receiver j is exploited uniquely if said time of flight coincides with one, or differs with all, of the times of flight of the paths in accordance with the first ultrasound wave propagation model that goes through one of the points of the first sub-region from the corresponding transmitter i to the corresponding receiver j. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. An inspecting device for detecting potential defects in a structure, comprising:
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M transmitters of an ultrasound signal in the structure to be image; N receivers of an ultrasound signal Sij(t) coming from the structure to be imaged, the index i designating one of the transmitters, the index j designating one of the receivers, and t representing time; and a processor coupled to the M transmitters and the N receivers, wherein the processor is configured to; determine, for each point of a first sub-region of a region of the structure, and for each transmitter-receiver pair i-j, a time of flight corresponding to a path in accordance with a first ultrasound wave propagation model that goes through the point from a corresponding transmitter i to a corresponding receiver j; determine a second sub-region of the region of the structure, wherein for each transmitter-receiver pair i-j a point of the region belongs to the second sub-region when a time of flight of a path in accordance with a second ultrasound wave propagation model that goes through the point from the corresponding transmitter i to the corresponding receiver j coincides with a time of flight of a path in accordance with the first ultrasound wave propagation model that goes through one of the points of the first sub-region from the corresponding transmitter i to the corresponding receiver j; forming an image of the region of the structure by synthetic focusing, wherein for each point of the region, and for each transmitter-receiver pair i-j, an ultrasound signal considered at the time of flight of the path in accordance with the second ultrasound wave propagation model that goes through the point of the region from the corresponding transmitter i to the corresponding receiver j is exploited uniquely if said time of flight coincides with one, or differs with all, of the times of flight of the paths in accordance with the first ultrasound wave propagation model that goes through one of the points of the first sub-region from the corresponding transmitter i to the corresponding receiver j.
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Specification