Structured random permutation pulse compression systems and methods
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
A61B-008/14
G01N-029/34
H03K-007/00
H03C-001/00
H03C-007/00
H03C-099/00
출원번호
US-0657736
(2012-10-22)
등록번호
US-8747321
(2014-06-10)
발명자
/ 주소
Sankar, Pat
출원인 / 주소
Scidea Research, Inc.
대리인 / 주소
Knobbe, Martens, Olson & Bear LLP
인용정보
피인용 횟수 :
2인용 특허 :
20
초록▼
A structured randomly permutated pulse compression system comprises an FM transmitter configured to receive an input signal and transmit an output signal. The FM transmitter is configured to modulate the frequency of the output signal by modulating the frequency of the output signal according to a s
A structured randomly permutated pulse compression system comprises an FM transmitter configured to receive an input signal and transmit an output signal. The FM transmitter is configured to modulate the frequency of the output signal by modulating the frequency of the output signal according to a structured random permutation of time samples of the input signal. At least one antenna interfaces with the FM transmitter. The FM receiver is configured to auto-correlate the output signal with a return signal.
대표청구항▼
1. An ultrasound-based diagnostic medical imaging system, the system comprising: at least one transducer, the transducer configured to be placed near a tissue surface, the transducer comprising a piezoelectric crystal configured to produce ultrasound waves for transmission into the tissue surface an
1. An ultrasound-based diagnostic medical imaging system, the system comprising: at least one transducer, the transducer configured to be placed near a tissue surface, the transducer comprising a piezoelectric crystal configured to produce ultrasound waves for transmission into the tissue surface and to receive ultrasound waves reflected from structures below the tissue surface;a modulator configured to be connected to the piezoelectric crystal, the modulator configured to generate an output signal by modulating an input signal according to a structured random permutation pulse compression sequence, the modulator further configured to transmit the output signal through the piezoelectric crystal;a data processing controller configured to be connected to the transducer, the data processing controller configured to receive the reflected ultrasound waves through the transducer, the data processing controller further configured to correlate the reflected ultrasound waves with the produced ultrasound waves; andan image generator configured to generate an image based on the correlation of the reflected sound waves with the produced ultrasound waves. 2. The ultrasound-based diagnostic medical imaging system of claim 1, wherein the input signal is a linear frequency modulation signal. 3. The ultrasound-based diagnostic medical imaging system of claim 1, wherein the input signal is a rectangular pulse. 4. The ultrasound-based diagnostic medical imaging system of claim 1, wherein the input signal is a barker code modulating a rectangular pulse. 5. The ultrasound-based diagnostic medical imaging system of claim 1, wherein the input signal is a pseudo random number code modulating a rectangular pulse. 6. The ultrasound-based diagnostic medical imaging system of claim 1, wherein the input signal is a non-linear frequency modulation signal. 7. The ultrasound-based diagnostic medical imaging system of claim 1, wherein the data processing controller is further configured to exclude values of the reflected ultrasound waves above a threshold value prior to correlating the reflected ultrasound waves with the produced ultrasound waves. 8. An ultrasound-based diagnostic medical imaging system, the system comprising: at least one transducer configured to be placed proximate a tissue surface, the transducer comprising a piezoelectric crystal configured to produce ultrasound waves for transmission into the tissue surface and to receive ultrasound waves reflected from below the tissue surface;a modulator configured to connect to the piezoelectric crystal, the modulator configured to generate an output signal by modulating an input signal according to a structured random permutation pulse compression sequence, the modulator further configured to transmit the output signal through the piezoelectric crystal; anda data processing controller configured to communicate with the transducer, the data processing controller configured to receive the reflected ultrasound waves through the transducer, the data processing controller further configured to correlate the reflected ultrasound waves with the produced ultrasound waves and communicate the correlation with an image generator. 9. The ultrasound-based diagnostic medical imaging system of claim 8, wherein the input signal is a linear frequency modulation (LFM) signal. 10. The ultrasound-based diagnostic medical imaging system of claim 8, wherein the input signal is a rectangular pulse. 11. The ultrasound-based diagnostic medical imaging system of claim 8, wherein the input signal is a barker code modulating a rectangular pulse. 12. The ultrasound-based diagnostic medical imaging system of claim 8, wherein the input signal is a pseudo random number code modulating a rectangular pulse. 13. The ultrasound-based diagnostic medical imaging system of claim 8, wherein the input signal is a non-linear frequency modulation signal. 14. The ultrasound-based diagnostic medical imaging system of claim 8, wherein the data processing controller is further configured to exclude values of the reflected ultrasound waves above a threshold value prior to correlating the reflected ultrasound waves with the produced ultrasound waves. 15. An ultrasound-based diagnostic medical imaging system, the system comprising: at least one transducer, the transducer configured to be placed on a tissue surface, the transducer comprising a piezoelectric crystal configured to produce ultrasound waves for transmission into the tissue surface and to receive reflected ultrasound waves bounced off structures below the tissue surface;a modulator configured to be connected to the piezoelectric crystal, the modulator configured to generate an output signal by modulating an input signal according to a structured random permutation pulse compression sequence, the modulator further configured to transmit the output signal through the piezoelectric crystal;a data processing controller configured to be connected to the transducer, the data processing controller configured to receive the reflected ultrasound waves through the transducer, the data processing controller further configured to correlate the reflected ultrasound waves with the produced ultrasound waves;an image generator configured to generate an image based on the correlation of the reflected sound waves with the produced ultrasound waves; anda display configured to display the generated image to a user. 16. The ultrasound-based diagnostic medical imaging system of claim 15, wherein the input signal is a linear frequency modulation (LFM) signal. 17. The ultrasound-based diagnostic medical imaging system of claim 15, wherein the input signal is a rectangular pulse. 18. The ultrasound-based diagnostic medical imaging system of claim 15, wherein the input signal is a barker code modulating a rectangular pulse. 19. The ultrasound-based diagnostic medical imaging system of claim 15, wherein the input signal is a pseudo random number code modulating a rectangular pulse. 20. The ultrasound-based diagnostic medical imaging system of claim 15, wherein the input signal is a non-linear frequency modulation signal.
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