Electronic scanning radar apparatus, received wave direction estimating method, and received wave direction estimating program
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01S-013/34
G01S-007/35
G01S-013/93
G01S-013/58
G01S-003/74
G01S-013/00
G01S-007/00
출원번호
US-0333405
(2011-12-21)
등록번호
US-8847815
(2014-09-30)
우선권정보
JP-2010-286637 (2010-12-22)
발명자
/ 주소
Kanamoto, Junji
출원인 / 주소
Honda elesys Co., Ltd.
대리인 / 주소
Arent Fox LLP
인용정보
피인용 횟수 :
6인용 특허 :
19
초록▼
An electronic scanning radar apparatus mounted on a moving object includes a receiving unit including a plurality of antennas receiving a received wave arriving from a target having reflected a transmitted wave, a beat signal generating unit generating a beat signal from the transmitted wave and the
An electronic scanning radar apparatus mounted on a moving object includes a receiving unit including a plurality of antennas receiving a received wave arriving from a target having reflected a transmitted wave, a beat signal generating unit generating a beat signal from the transmitted wave and the received wave, a frequency resolving unit resolving the beat signal in beat frequencies and to calculate complex data based on the beat signal resolved for each beat frequency, and an azimuth detecting unit calculating a direction of arrival of the received wave based on original complex data calculated based on the beat signal, wherein the azimuth detecting unit includes a data extending unit generating extended complex data by extending the number of data based on the original complex data, and a first computation processing unit calculating the direction of arrival of the received wave based on the extended complex data.
대표청구항▼
1. An electronic scanning radar apparatus mounted on a moving object, comprising: a receiving unit including a plurality of antennas receiving a received wave arriving from a target having reflected a transmitted wave;a beat signal generating unit configured to generate a beat signal from the transm
1. An electronic scanning radar apparatus mounted on a moving object, comprising: a receiving unit including a plurality of antennas receiving a received wave arriving from a target having reflected a transmitted wave;a beat signal generating unit configured to generate a beat signal from the transmitted wave and the received wave;a frequency resolving unit configured to resolve the beat signal in beat frequencies having a predetermined frequency bandwidth and to calculate complex data based on the beat signal resolved for each beat frequency; andan azimuth detecting unit configured to calculate a direction of arrival of the received wave based on original complex data which is the complex data calculated based on the beat signal,wherein the azimuth detecting unit includesa data extending unit configured to generate extended complex data by extending the number of data based on the original complex data, anda first computation processing unit configured to calculate the direction of arrival of the received wave based on the extended complex data. 2. The electronic scanning radar apparatus according to claim 1, wherein the azimuth detecting unit further includes a second computation processing unit configured to generate a coefficient used to generate the extended complex data in a linear equation created based on the original complex data. 3. The electronic scanning radar apparatus according to claim 2, wherein the data extending unit is configured to generate the extended complex data based on the original complex data and the coefficient. 4. The electronic scanning radar apparatus according to claim 2, wherein the first computation processing unit includes: an order-increased matrix creating unit configured to create an order-increased matrix which is increased to a predetermined desired order and which has the extended complex data as elements;an eigenvalue decomposition unit configured to obtain eigenvalues and eigenvectors by applying eigenvalue decomposition to the order-increased matrix; anda wave number estimating unit configured to calculate an estimated wave number by estimating the wave number of the arrival wave based on the obtained eigenvalues and the eigenvectors, andwherein the direction of arrival of the received wave is calculated based on a subspace determined by the estimated wave number. 5. The electronic scanning radar apparatus according to claim 4, wherein the first computation processing unit further includes: a pseudo-inverse matrix calculating unit configured to calculate a pseudo-inverse matrix of a signal subspace included in the subspace determined by the estimated wave number; anda first coefficient calculating unit configured to calculate a first AR coefficient derived from the pseudo-inverse matrix of the signal subspace and a variance value of white noise, andwherein the first computation processing unit is configured to perform a computational process based on a principal component AR spectrum estimating method. 6. The electronic scanning radar apparatus according to claim 4, wherein the first computation processing unit further includes a matrix filter unit configured to average the order-increased matrix having the generated extended complex data as elements based on the information corresponding to the target, and wherein the eigenvalue decomposition unit is configured to obtain eigenvalues and eigenvectors by applying eigenvalue decomposition to the averaged order-increased matrix. 7. The electronic scanning radar apparatus according to claim 4, wherein the first computation processing unit further includes a first normal equation filter unit configured to average the order-increased matrices and right-hand vectors which are constituent parts of a first normal equation created based on the extended complex data which is extended based on the complex data acquired in a predetermined number of detection cycles including the present detection cycle. 8. The electronic scanning radar apparatus according to claim 2, wherein the coefficient is calculated based on a linear equation expressing an autoregressive model in a spectrum estimating method using the autoregressive model. 9. The electronic scanning radar apparatus according to claim 2, wherein the data extending unit is configured to generate the extended complex data based on the coefficient calculated in a present detection cycle out of detection cycles in which the process of calculating the direction of arrival of the received wave is repeatedly performed. 10. The electronic scanning radar apparatus according to claim 9, further comprising a storage unit configured to store information corresponding to the target in correlation with the number of times of the detection cycles,wherein the data extending unit is configured to generate the extended complex data based on the coefficient which is stored in the storage unit as the information corresponding to the target and which is calculated in a preceding detection cycle previous to the present detection cycle. 11. The electronic scanning radar apparatus according to claim 10, wherein the data extending unit is configured to generate the extended complex data based on the original complex data calculated in the present detection cycle and the preceding complex data stored in the storage unit as the information corresponding to the target and calculated in the preceding detection cycle previous to the present detection cycle. 12. The electronic scanning radar apparatus according to claim 10, further comprising a target linking unit configured to correlate the targets detected in the present detection cycle and the preceding detection cycle and to store the information correlated with the correlated target in the storage unit. 13. The electronic scanning radar apparatus according to claim 12, wherein the target linking unit is configured to correlate the target detected in the present detection cycle and the preceding detection cycle based on a distance and a relative velocity, or based on a distance, a relative velocity, and an azimuth. 14. The electronic scanning radar apparatus according to claim 2, wherein the second computation processing unit includes: a normal equation creating unit configured to create a second normal equation based on the extended complex data; anda second coefficient calculating unit configured to calculate the coefficient derived based on the second normal equation. 15. The electronic scanning radar apparatus according to claim 14, wherein the second computation processing unit further includes a second normal equation filter unit configured to average the second normal equation, and wherein the second coefficient calculating unit is configured to calculate the coefficient from the averaged second normal equation. 16. The electronic scanning radar apparatus according to claim 1, further comprising a peak detecting unit configured to detect a peak value from intensity values of the beat frequencies to detect the presence of the target,wherein the azimuth detecting unit is configured to calculate the direction of arrival of the received wave based on the complex data corresponding to the target of which the presence is detected by the peak detecting unit. 17. The electronic scanning radar apparatus according to claim 16, further comprising a DBF unit configured to detect the presence and the azimuth of the target through the use of a digital beam forming process of enhancing receiving sensitivity in a desired direction in which the received wave is received based on the complex data,wherein the peak detecting unit is configured to detect the azimuth of the target based on the digital beam forming in the beat frequencies in the present detection cycle. 18. The electronic scanning radar apparatus according to claim 1, wherein the first computation processing unit is configured to create a matrix of which precision of elements is enhanced without increasing the order thereof. 19. A received wave direction estimating method in an electronic scanning radar apparatus mounted on a moving object, comprising: a receiving step of receiving a received wave arriving from a target having reflected a transmitted wave through the use of a plurality of antennas;a beat signal generating step of generating a beat signal from the transmitted wave and the received wave;a frequency resolving step of resolving the beat signal in beat frequencies having a predetermined frequency bandwidth and calculating complex data based on the beat signal resolved for each beat frequency; andan azimuth detecting step of calculating a direction of arrival of the received wave based on original complex data which is the complex data calculated based on the beat signal,wherein the azimuth detecting step includesa data extending step of generating extended complex data by extending the number of data based on the original complex data, anda first computation processing step of calculating the direction of arrival of the received wave based on the extended complex data. 20. A computer program product tangibly embodied on a non-transitory computer-readable medium causing a computer to perform a received wave direction estimating process in an electronic scanning radar apparatus mounted on a moving object, the received wave direction estimating process comprising: a receiving step of receiving a received wave arriving from a target having reflected a transmitted wave through the use of a plurality of antennas;a beat signal generating step of generating a beat signal from the transmitted wave and the received wave;a frequency resolving step of resolving the beat signal in beat frequencies having a predetermined frequency bandwidth and calculating complex data based on the beat signal resolved for each beat frequency; andan azimuth detecting step of calculating a direction of arrival of the received wave based on original complex data which is the complex data calculated based on the beat signal,wherein the azimuth detecting step includesa data extending step of generating extended complex data by extending the number of data based on the original complex data, anda first computation processing step of calculating the direction of arrival of the received wave based on the extended complex data.
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이 특허에 인용된 특허 (19)
Ando, Takamasa, Azimuth detecting apparatus and radar apparatus.
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Shirai, Hideki; Yamano, Chiharu; Natsume, Kazuma; Watanabe, Yuu; Sakamoto, Mai, Radar apparatus enabling simplified suppression of interference signal components which result from reception of directly transmitted radar waves from another radar apparatus.
Kim, Sang Dong; Oh, Dae Gun; Lee, Jong Hun, Radar signal processing method and apparatus for compensating for in-phase/quadrature-phase (I/Q) imbalance.
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