Your search keyword '"Tan, Xiaomin"' showing total 3 results

1. Transmit Beampattern Design for Distributed Satellite Constellation Based on Space–Time–Frequency DoFs.

Author

Tan, Xiaomin, Duan, Chongdi, Li, Yu, Chen, Jinming, and An, Jianping

Subjects

*REMOTE sensing, *COHERENT radar, *MICROSPACECRAFT, *GENETIC algorithms, *DEGREES of freedom, *RADAR

Abstract

For distributed satellite constellations, detection performance can be equivalently regarded as a single large satellite by the cooperative operation of multiple small satellites, which is a promising research topic of the Next-Generation Radar (NGR) system. However, dense grating lobes inevitably occur in the synthetic transmit pattern due to its distributed configuration, as a result of which the detection performance of dynamic coherent radar is seriously weakened. In this paper, a novel transmit beampattern optimization method for dynamic coherent radar based on a distributed satellite constellation is presented. Firstly, the effective coherent detection range interval is determined by several influence factors, i.e., coherent detection, far-field, and system link constraints. Then, we discuss the quantitative evaluation method for coherent integration in terms of synchronization error, beam pointing error, and high-speed motion characteristics and we allocate the corresponding terms in a reasonable way from the perspective of engineering. Finally, the space–time–frequency degrees of freedom (DOFs), which can be collected from satellite spacing, carrier frequencies, and platform motion characteristics, are utilized to realize a robust transmit beampattern with low sidelobe by invoking a genetic algorithm (GA). Simulation results validate the effectiveness of our theoretic analysis, and unambiguous coherent transmit beamforming with a satellite constellation of limited scale is accomplished. [ABSTRACT FROM AUTHOR]

Published

2022

2. Design and Performance Evaluation of Microwave Landing Radar Used for Deep Space

Author

Zheng Shi, Tan Xiaomin, Dang Hongxing, Liu Ruidong, Lanlan Zhou, and He Yapeng

Subjects

Deep space exploration, Soft landing, law, Range (aeronautics), Orbit (dynamics), NASA Deep Space Network, Radar, Envelope (radar), Geology, Microwave, Remote sensing, law.invention

Abstract

As an important equipment for deep space soft landing, microwave radar provides range and velocity for the probe. Accuracy and operational envelope of range and velocity are key design indexes for landing radar, at the same time, it must be small, lightweight and reliable for deep space exploration. The performance, tested both on ground and in orbit when landing on the moon, is excellent. Based on the telemetry of Chang'e 3 and Chang'e 4 probe, reflectivity of moon surface can be gotten, this will be useful for future detection and microwave radar design.

Published

2019

3. House structure feature enhancement using Multi-view high resolution SAR images

Author

Tan Xiaomin, Zhang Xuanmin, Yang Juanjuan, Sun Jia, Dang Hongxing, and Gao Yang

Subjects

Synthetic aperture radar, Structure (mathematical logic), Scattering, Computer science, business.industry, Aggregate (data warehouse), law.invention, Feature (computer vision), law, Radar imaging, Trajectory, Computer vision, Artificial intelligence, Radar, business

Abstract

Electromagnetic scattering characteristics of house vary with different viewing directions. Due to the complex structure, such as facets, edges and corners, only parts of the house features are attainable under a certain observation angle in synthetic aperture radar (SAR) imagery. Since structure features are important for target detection and recognition, collecting more target features is great benefit for SAR application. In this paper, a new method of house structure feature enhancement using SAR images acquired in multi-view directions is proposed. By combining the images of targets of interest at different view angles, the aggregate radar scattering image is produced, which greatly facilitates structure interpreting. Results are presented with SAR images acquired by an airborne sensor, showing the promising performance of the method.

Published

2017