The possibility of isolated target 3-D position estimation and optimal receiver position determination in SS-BSAR

Cheng Hu; Teng Long; Tao Zeng

doi:10.1007/s11432-008-0119-9

The possibility of isolated target 3-D position estimation and optimal receiver position determination in SS-BSAR

Cheng Hu, Teng Long^*, Tao Zeng

^*Corresponding author for this work

School of Information and Electronics

Research output: Contribution to journal › Article › peer-review

7 Citations (Scopus)

Abstract

Starting from the generalized ambiguity function of bistatic SAR (BSAR), it is shown that 3-D point target estimation can be carried out in space-surface bistatic SAR (SS-BSAR). Appropriate analytical equations, based on maximum likelihood estimation (MLE), are derived and confirmed via computer simulation. Furthermore, the performance of the estimate using the Crammer-Rao bound is analyzed for the case in question, thus further revealing the possibility and potential of target 3-D position estimation. Setting the determinant maximum of the information matrix as the criterion, the optimal receiver position and multi-receiver configuration are analytically determined in the SS-BSAR system. Simulation results also validate the correctness of the analytical calculation.

Original language	English
Pages (from-to)	1372-1383
Number of pages	12
Journal	Science in China, Series F: Information Sciences
Volume	51
Issue number	9
DOIs	https://doi.org/10.1007/s11432-008-0119-9
Publication status	Published - Sept 2008

Keywords

Crammer-Rao bound
MLE
Optimal receiver position
Position estimation
SS-BSAR

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10.1007/s11432-008-0119-9

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Hu, C., Long, T., & Zeng, T. (2008). The possibility of isolated target 3-D position estimation and optimal receiver position determination in SS-BSAR. Science in China, Series F: Information Sciences, 51(9), 1372-1383. https://doi.org/10.1007/s11432-008-0119-9

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abstract = "Starting from the generalized ambiguity function of bistatic SAR (BSAR), it is shown that 3-D point target estimation can be carried out in space-surface bistatic SAR (SS-BSAR). Appropriate analytical equations, based on maximum likelihood estimation (MLE), are derived and confirmed via computer simulation. Furthermore, the performance of the estimate using the Crammer-Rao bound is analyzed for the case in question, thus further revealing the possibility and potential of target 3-D position estimation. Setting the determinant maximum of the information matrix as the criterion, the optimal receiver position and multi-receiver configuration are analytically determined in the SS-BSAR system. Simulation results also validate the correctness of the analytical calculation.",

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N2 - Starting from the generalized ambiguity function of bistatic SAR (BSAR), it is shown that 3-D point target estimation can be carried out in space-surface bistatic SAR (SS-BSAR). Appropriate analytical equations, based on maximum likelihood estimation (MLE), are derived and confirmed via computer simulation. Furthermore, the performance of the estimate using the Crammer-Rao bound is analyzed for the case in question, thus further revealing the possibility and potential of target 3-D position estimation. Setting the determinant maximum of the information matrix as the criterion, the optimal receiver position and multi-receiver configuration are analytically determined in the SS-BSAR system. Simulation results also validate the correctness of the analytical calculation.

AB - Starting from the generalized ambiguity function of bistatic SAR (BSAR), it is shown that 3-D point target estimation can be carried out in space-surface bistatic SAR (SS-BSAR). Appropriate analytical equations, based on maximum likelihood estimation (MLE), are derived and confirmed via computer simulation. Furthermore, the performance of the estimate using the Crammer-Rao bound is analyzed for the case in question, thus further revealing the possibility and potential of target 3-D position estimation. Setting the determinant maximum of the information matrix as the criterion, the optimal receiver position and multi-receiver configuration are analytically determined in the SS-BSAR system. Simulation results also validate the correctness of the analytical calculation.

KW - Crammer-Rao bound

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The possibility of isolated target 3-D position estimation and optimal receiver position determination in SS-BSAR

Abstract

Keywords

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