Array calibration for radar low-angle tracking based on electromagnetic matched field processing
The essence of the radar low-angle tracking is to estimate accurately the height of a specified target in the presence of complicated propagation conditions, including specular multipath propagation, diffuse reflection, diffraction propagation, range-dependent atmosphere refractivity stratification...
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| Published in | 2008 8th International Symposium on Antennas, Propagation and EM Theory pp. 1406 - 1409 |
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| Main Authors | , , |
| Format | Conference Proceeding |
| Language | English |
| Published |
IEEE
01.11.2008
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| Subjects | |
| Online Access | Get full text |
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| Abstract | The essence of the radar low-angle tracking is to estimate accurately the height of a specified target in the presence of complicated propagation conditions, including specular multipath propagation, diffuse reflection, diffraction propagation, range-dependent atmosphere refractivity stratification and other anomalous propagations conditions (e.g., ducting). An effective array data model for low-angle tracking is the prerequisite to many model-based low-angle tracking algorithm. The commonly-used planewave arrival data model usually can not take into account much aforementioned anomalous propagation in radar low-angle tracking, which results in serve performance deterioration in the practical low-angle tracking scenario. In light of the electromagnetic matched field processing (EM-MFP), an effective method of array calibration is proposed in this paper, in which the numerical solution of the parabolic wave equation (PWE) at sensor locations in 3D space is substituted for the traditional plane-wave arrival data model. The biggest advantage to using the PWE method is that it gives a full-wave solution for the field in the presence of range-dependent environments, and almost all aforementioned anomalous propagations conditions can be taken into account automatically. For demonstration, comparisons of the array data for a classic low-angle tracking scenario are presented between the traditional planewave arrival data model and the proposed PWE data model. |
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| AbstractList | The essence of the radar low-angle tracking is to estimate accurately the height of a specified target in the presence of complicated propagation conditions, including specular multipath propagation, diffuse reflection, diffraction propagation, range-dependent atmosphere refractivity stratification and other anomalous propagations conditions (e.g., ducting). An effective array data model for low-angle tracking is the prerequisite to many model-based low-angle tracking algorithm. The commonly-used planewave arrival data model usually can not take into account much aforementioned anomalous propagation in radar low-angle tracking, which results in serve performance deterioration in the practical low-angle tracking scenario. In light of the electromagnetic matched field processing (EM-MFP), an effective method of array calibration is proposed in this paper, in which the numerical solution of the parabolic wave equation (PWE) at sensor locations in 3D space is substituted for the traditional plane-wave arrival data model. The biggest advantage to using the PWE method is that it gives a full-wave solution for the field in the presence of range-dependent environments, and almost all aforementioned anomalous propagations conditions can be taken into account automatically. For demonstration, comparisons of the array data for a classic low-angle tracking scenario are presented between the traditional planewave arrival data model and the proposed PWE data model. |
| Author | Xiao-min Cao Ling-qin Meng Bu-hong Wang |
| Author_xml | – sequence: 1 surname: Bu-hong Wang fullname: Bu-hong Wang organization: Telecommun. Eng. Inst., Air Force Eng. Univ., Xi'an – sequence: 2 surname: Ling-qin Meng fullname: Ling-qin Meng organization: Sch. of Commun. & Inf. Eng., Shanghai Univ., Shanghai – sequence: 3 surname: Xiao-min Cao fullname: Xiao-min Cao organization: Air Force Simulation-training Centre of Beijing, Beijing |
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| Snippet | The essence of the radar low-angle tracking is to estimate accurately the height of a specified target in the presence of complicated propagation conditions,... |
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| SubjectTerms | Calibration Data models Electromagnetic diffraction Electromagnetic fields Electromagnetic propagation Electromagnetic reflection Optical reflection Radar tracking Sensor arrays Target tracking |
| Title | Array calibration for radar low-angle tracking based on electromagnetic matched field processing |
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