Your search keyword '"Tan, Xiaomin"' showing total 7 results

1. Design and On-Orbit Performance of Ku-Band Phased-Array Synthetic-Aperture Radar Payload System.

Author

Yan, Wei, Tan, Xiaomin, Wu, Jiang, Yuan, Mingze, Dang, Hongxing, and Chang, Wujun

Subjects

*PHASED array antennas, *SPACE-based radar, *HAZARD mitigation, *SEA ice, *FOREST monitoring

Abstract

The current emphasis in the advancement of space-based synthetic-aperture radar (SAR) is on lightweight payloads under 100 kg with resolutions surpassing 1 m. This focus is directed toward meeting the launch criteria for multiple satellites on a single rocket and cutting costs. This article discusses the creation and progress of a Ku-band SAR payload for the Taijing-4(03) satellite, launched on 23 January 2024 and accompanied by four other satellites. The SAR payload design was customized to meet the demands of a micro-nano satellite platform, resulting in a lightweight, flat design weighing less than 80 kg, seamlessly integrated with the plate-shaped satellite platform. The article also introduces a beam optimization strategy for the phased array SAR antenna, significantly boosting the SAR system's performance. The SAR payload provides various operating modes like slide-spot, strip, Scan 1, Scan 2, and others, with a maximum achievable resolution exceeding 1 m. Extensive in-orbit testing of the payload produced numerous high-quality SAR images with potential uses in emergency disaster mitigation, safeguarding ecosystems, monitoring forests, managing crops, tracking sea ice, and more. [ABSTRACT FROM AUTHOR]

Published

2024

2. 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

3. Non-rigid registration of multi-phase liver CT data using fully automated landmark detection and TPS deformation.

Author

Zhang, Xuejun, Tan, Xiaomin, Gao, Xin, Wu, Dongbo, Zhou, Xiangrong, and Fujita, Hiroshi

Subjects

*HEPATIC portal system, *LIVER, *SUPPORT vector machines, *PROCESS optimization, *COMPUTED tomography, *MULTIDETECTOR computed tomography

Abstract

In case of the complicated anatomical structure of the liver, landmark points on a three dimensional (3D) liver surface is hardly distinguished as corresponding pairs visually and automated landmark placing will be extremely time saving for liver registration. This paper presents a fully automated landmark detection method to register livers on multi-phase computed tomography (CT) images. Edge texture features and Support Vector Machine (SVM) are applied to detect the discriminated landmarks of the liver, including both surface and internal points. Using the information of liver shape, 3D gray level co-occurrence matrix is calculated into texture features, from which the most informatics there features are selected by our optimization algorithm for choosing a sub-set of features from a high dimensional feature set. Then automated landmarks detection begins at scanning surface points on the pre-contrast and portal venous phase images, where positive outputs of the SVM classifier are regarded as initial candidates and final candidates are obtained by eliminating false positives (FPs). Finally, relied on the detected landmarks, thin plate splines (TPS) algorithm is used to register livers. Five surface landmarks, together with internal landmarks of the liver center from every 25 mm slice interval, can be detected automatically with sensitivity of 88.33% and accuracy of 98.5%. Surface-based mean error (SME) is decreased from 3.80 to 2.87 mm on average, while SME value has increased 32.4 and 8.0% on average respectively when comparing with the rigid and B-spline methods. The results demonstrate that edge textures and SVM classifier are effective in the automated landmark detection. Together with TPS algorithm, fully automated liver registration is able to be achieved on multi-phase CT images. [ABSTRACT FROM AUTHOR]

Published

2019

4. Effects of creep properties of materials on unified creep constraint parameter Ac for cracked pipes.

Author

Tan, Xiaomin, Wang, Guozhen, Tu, Shantung, and Xuan, Fuzhen

Subjects

*CREEP (Materials), *MECHANICAL properties of condensed matter, *PIPE, *FINITE element method

Abstract

Extensive finite element analyses of cracked pipes with different crack sizes and orientations have been conducted to investigate effects of creep properties of materials on the unified creep constraint parameter Ac. The results show that the constraint parameter Ac is independent on Norton's coefficient A, and it is only affected by the creep exponent n of materials. For a given crack size, with increasing n, Ac decreases and constraint level increases. The Ac of lower constraint cracks is more sensitive to n. The unified correlation equations between Ac and n have been obtained for cracked pipes with a wide range of crack sizes and constraint levels. They may be used to estimate the constraint parameter Ac at different positions along the crack fronts in cracked pipes made of materials with different n values. The two-parameter C*-Ac approach for assessing creep life of cracked pipes has also been discussed. [ABSTRACT FROM AUTHOR]

Published

2019

5. Reactive oxygen species-activated self-amplifying prodrug nanoagent for tumor-specific Cu-chelate chemotherapy and cascaded photodynamic therapy.

Author

Chen, Jie, Tan, Xiaomin, Huang, Yanjuan, Xu, Congjun, Zeng, Zishan, Shan, Ting, Guan, Zilin, Xu, Xiaoyu, Huang, Zeqian, and Zhao, Chunshun

Subjects

*PHOTODYNAMIC therapy, *REACTIVE oxygen species, *CANCER chemotherapy, *ANTINEOPLASTIC agents, *DISULFIRAM, *PHOTOSENSITIZERS

Abstract

Disulfiram (DSF), an effective FDA-approved anti-alcoholism drug, shows potent antitumor activity by producing Cu(DTC) 2 , a chelate of its metabolite diethyldithiocarbamate (DTC) and copper. However, the rapid metabolism and unselective distribution of DSF and the insufficient endogenous copper severely restrict enough bioactive Cu(DTC) 2 generation in tumor tissues to achieve satisfactory antitumor effect. Moreover, directly Cu(DTC) 2 administration also suffers from serious systemic toxicity. Herein, a reactive oxygen species (ROS)-activatable self-amplifying prodrug nanoagent (HA-DQ@MOF) was developed for the stable co-delivery of DTC prodrug and Cu-quenched photosensitizer, aiming to achieve tumor-specific dual-activation of highly-toxic Cu(DTC) 2 -mediated chemotherapy and cascaded photodynamic therapy (PDT). The ROS-cleavable hyaluronic acid-conjugated DTC prodrug (HA-DQ) was decorated on Cu2+ and photosensitizer Zn-TCPP coordinated MOF (PDT-shielded state) to construct HA-DQ@MOF. HA-DQ@MOF could specifically activated in ROS-overexpressed tumor cells to rapidly release DTC, while remaining relatively stable in normal cells. The free DTC immediately grabbed Cu2+ from MOF to in situ generate highly-cytotoxic Cu(DTC) 2 chelate, accompanied by MOF dissociation to restore the PDT effect of Zn-TCPP. Importantly, ROS produced by PDT could in turn trigger more DTC release, which further promoted Zn-TCPP liberation, forming a self-amplifying prodrug/photosensitizer activation positive feedback loop. Experimental results confirmed the dual-activated and combined tumor-killing effect of Cu(DTC) 2 -mediated chemotherapy and Zn-TCPP-based PDT with little systemic toxicity. This work provides a dual-activated "low toxic-to-toxic" transformable treatment pattern for tumor-specific chemo-photodynamic therapy. [ABSTRACT FROM AUTHOR]

Published

2022

6. The Cry48Aa N-terminal Domain is Responsible for Cry48Aa–Cry49Aa Interaction in Lysinibacillus sphaericus Toxin.

Author

Guo, Qingyun, Gao, Yuan, Xing, Chong, Ding, Lu, Dai, Xiaohua, Xie, Qinghua, and Tan, Xiaomin

Subjects

*TOXINS, *CULEX quinquefasciatus, *N-terminal residues, *PROTEIN binding, *ESCHERICHIA coli, *LARVAE

Abstract

The Cry48Aa/Cry49Aa binary toxin from Lysinibacillus sphaericus is composed of a three-domain Cry-like toxin (Cry48Aa) and a binary-like protein (Cry49Aa) that work together to kill Culex quinquefasciatus mosquito larvae through a novel interaction between its two components. The aim of this study was to identify the functional regions of Cry48Aa that were involved in the interaction with Cry49Aa. Eight Cry48Aa truncated fragments were constructed from both N- and C-termini and expressed in Escherichia coli. Only the individual or combined N69K truncated fragment, a Cry48Aa N-terminal derivative consisting of three domains, showed larvicidal activity against C. quinquefasciatus larvae, while the other fragments exhibited significant loss of biological activity. Far-Western dot blot analysis showed that Cry48Aa N-terminal regions had the ability to bind to Cry49Aa protein. These results demonstrate that the N-terminal domain of Cry48Aa plays a crucial role in responsible for the full virulence to mosquito larvae and the interaction with Cry49Aa as a binary toxin. [ABSTRACT FROM AUTHOR]

Published

2020

7. Attitude maneuver strategy for zero Doppler beam center of fast response SAR satellite.

Author

HE Rongrong, HE Baoping, FENG Fan, DANG Hongxing, and Tan Xiaomin

Abstract

The attitude maneuver parameter is derived from six elements of satellite orbit in ECI for traditional yaw-steering method. Only the Doppler centroid frequency of satellite main axis is compensated to zero. The error slant range and Doppler centroid frequency drift arose by the installation error between antenna and satellite and the beam angle departing from coordinate axis in elevation and azimuth direction are not removed. The requirements of SAR system time order and on-board real-time processor of response SAR satellite isn't satisfied. A new strategy of SAR antenna beam to target in zeros-Doppler plane of ECF was proposed so that Doppler frequency of beam center for fast response SAR satellite would be zero. Firstly, the accurate time order and look parameter was computed. Secondly, satellite's three axes direction was derived from SAR beam's three axes direction in ECF. Finally, the attitude maneuver parameters were obtained. The simulation results by Matlab show that applying the strategy to the fast response SAR satellite, the Doppler frequency 29kHz of earth rotation, 360Hz of installation error and 3950Hz of the beam departing angle are compensated to 0 Hz. Simultaneously the slant error 6.28 km is compensated to meter level. [ABSTRACT FROM AUTHOR]

Published

2018