Multi-beam diffraction grating imager apparatus and method
First Claim
1. An ultrasonic imaging apparatus comprising:
- a quadrature diffraction grating transducer (QDGT) comprising an array of transducer elements for receiving a series of pulses of energy at a predetermined pulse rate and generating a plurality of beams at different angles corresponding to a plurality of frequencies toward an object to be imaged;
a lens coupled to said QDGT for physically separating different angle beams produced by said QDGT and focusing said beams to produce an array of focused points at spatial positions on said object;
a receiver for receiving reflected signals from said object having frequencies corresponding to said spatial positions, said receiver comprising a plurality of frequency filters operating in parallel, each filter selectively tuned to a different frequency for simultaneously receiving and separating the frequency components of said reflected signals to produce sample image data sets corresponding to spatial positions at particular time intervals;
means for producing rotational motion between a combination of said QDGT and said lens, and said object to enable generation of sample image data sets at other predetermined spatial positions; and
means for summing said sample image data sets at each of said predetermined spatial positions to produce a three dimensional image of said object.
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Abstract
An ultrasonic imaging apparatus comprising a transducer operative for receiving a pulse of energy containing multiple frequencies and generating a plurality of beams at different angles corresponding to a plurality of frequencies toward an object to be imaged; means for focusing said beams to produce an array of focused points at spatial positions on the object; a receiver for receiving reflected signals from the object having frequencies corresponding to the spatial positions and simultaneously filtering the reflected signals to produce sample image data sets corresponding to spatial positions at particular time intervals; and means for producing rotational motion between the transducer and the object to enable generation of sample image data sets at other predetermined spatial positions; and means for summing the sample image data sets at each of the predetermined spatial positions to produce an image of the object.
269 Citations
8 Claims
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1. An ultrasonic imaging apparatus comprising:
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a quadrature diffraction grating transducer (QDGT) comprising an array of transducer elements for receiving a series of pulses of energy at a predetermined pulse rate and generating a plurality of beams at different angles corresponding to a plurality of frequencies toward an object to be imaged;
a lens coupled to said QDGT for physically separating different angle beams produced by said QDGT and focusing said beams to produce an array of focused points at spatial positions on said object;
a receiver for receiving reflected signals from said object having frequencies corresponding to said spatial positions, said receiver comprising a plurality of frequency filters operating in parallel, each filter selectively tuned to a different frequency for simultaneously receiving and separating the frequency components of said reflected signals to produce sample image data sets corresponding to spatial positions at particular time intervals;
means for producing rotational motion between a combination of said QDGT and said lens, and said object to enable generation of sample image data sets at other predetermined spatial positions; and
means for summing said sample image data sets at each of said predetermined spatial positions to produce a three dimensional image of said object. - View Dependent Claims (2, 3, 4)
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5. A method for producing an image using an imaging system comprising the steps of:
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transmitting a series of pulses of energy at a predetermined pulse rate through a quadrature diffraction grating transducer QDGT toward an object to be imaged to generate a plurality of beams at different angles corresponding to a plurality of frequencies;
disposing a lens in optical alignment between said QDGT and said object for physically separating different angle beams produced by said QDGT and focusing said beams to produce an array of focused points at spatial positions on said object;
receiving reflected signals from said object having frequencies corresponding to said spatial positions;
simultaneously filtering said reflected signals to produce sample image data sets corresponding to spatial positions at particular time intervals;
rotating said QDGT and said lens about said object for generating sample image data sets at other predetermined spatial positions; and
summing said sample image data sets at each of said predetermined spatial positions for producing an image from said sample image data sets.
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6. A method for producing an image using an imaging system comprising the steps of:
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providing a diffraction grating transducer formed of an array of parallel transducer elements, each having different spacing values such that diffraction at one end of said array occurs at a first angle, and diffraction at a second end of said array occurs at a second angle greater than said first angle;
transmitting a pulse of energy through said diffraction grating transducer toward an object to be imaged to generate multiple beams at different angles corresponding to multiple frequencies;
focusing said beams to produce an array of focused points at spatial positions on said object, each corresponding to a particular one of said multiple frequencies, and having reflected signals from said object having frequencies corresponding to said spatial positions; and
simultaneously filtering said reflected signals at distinct frequencies to produce sample image data sets corresponding to the reflectivity of said spatial positions and frequencies at particular time intervals. - View Dependent Claims (7, 8)
rotating said transducer and lens with respect to said object and summing said sampled image data sets to produce a three-dimensional image of said object.
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8. The method according to claim 7, wherein said rotation is performed in angular increments of five degrees.
Specification