Derivation of monopulse angle accuracy for phased array radar to achieve Cramer-Rao lower bound is presented in this paper. Antenna element positions originating from antenna center are used for difference beam taper in this monopulse angle estimation. For uniform linear array, the accuracy is 1.16 times higher than conventional monopulse method. In other words, SNR can be reduced by 1.3 dB to achieve required angle accuracy. Suboptimal difference beamforming taper for the subarray-based digital beamforming radar is also derived. Index Terms — monopulse, angle accuracy, Cramer-Rao lower bound, tape
Researchers have recently proposed a widely separated multiple-input multiple-output (MIMO) radar us...
Monopulse radars are used to track a target that appears in the look direction beam width. Significa...
Automotive radars suffer from low angular estimation accuracy due to the limited number of antennas ...
The monopulse angle measuring technique is widely adopted in radar systems due to its simplicity and...
Monopulse is an established technique for radar angle estimation. One can show that monopulse estima...
Monopulse is an established technique for phased array radars for fast and accurate angle estimation...
In some coherent radars, applying the monopulse technique requires not only a robust algorithm but a...
DoctorThe main objective is to estimate the unresolved one- or two- target angles in monopulse radar...
Novel methods for monopulse direction finding for linear frequency modulation based frequency divers...
High Resolution Radar techniques are applied to the problem of resolving a multiple target array and...
Traditional monopulse angle estimations are mainly based on phase comparison and amplitude compariso...
Traditional monopulse angle estimations are mainly based on phase comparison and amplitude compariso...
Abstract In variable polarimetric monopulse radars, due to the number and types of data channels, th...
Abstract The traditional four‐channel monopulse two‐target resolution algorithm can only apply to ph...
In this study, the authors propose a novel direction of arrival (DoA) estimation algorithm called ‘m...
Researchers have recently proposed a widely separated multiple-input multiple-output (MIMO) radar us...
Monopulse radars are used to track a target that appears in the look direction beam width. Significa...
Automotive radars suffer from low angular estimation accuracy due to the limited number of antennas ...
The monopulse angle measuring technique is widely adopted in radar systems due to its simplicity and...
Monopulse is an established technique for radar angle estimation. One can show that monopulse estima...
Monopulse is an established technique for phased array radars for fast and accurate angle estimation...
In some coherent radars, applying the monopulse technique requires not only a robust algorithm but a...
DoctorThe main objective is to estimate the unresolved one- or two- target angles in monopulse radar...
Novel methods for monopulse direction finding for linear frequency modulation based frequency divers...
High Resolution Radar techniques are applied to the problem of resolving a multiple target array and...
Traditional monopulse angle estimations are mainly based on phase comparison and amplitude compariso...
Traditional monopulse angle estimations are mainly based on phase comparison and amplitude compariso...
Abstract In variable polarimetric monopulse radars, due to the number and types of data channels, th...
Abstract The traditional four‐channel monopulse two‐target resolution algorithm can only apply to ph...
In this study, the authors propose a novel direction of arrival (DoA) estimation algorithm called ‘m...
Researchers have recently proposed a widely separated multiple-input multiple-output (MIMO) radar us...
Monopulse radars are used to track a target that appears in the look direction beam width. Significa...
Automotive radars suffer from low angular estimation accuracy due to the limited number of antennas ...
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