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Bound states in the continuum for encoded imaging
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作者 HOU Shuai-Xing YANG Si-Jia +1 位作者 SHEN Yun DENG Xiao-Hua 《红外与毫米波学报》 北大核心 2026年第1期90-96,共7页
Metasurfaces are artificial structures that can finely control the characteristics of electromagnetic waves at subwavelength scales,and they are widely used to manipulate the propagation,phase,amplitude,and polariza⁃t... Metasurfaces are artificial structures that can finely control the characteristics of electromagnetic waves at subwavelength scales,and they are widely used to manipulate the propagation,phase,amplitude,and polariza⁃tion of light.In this work,a bound state in the continuum(BIC)structure based on a metallic metasurface is pro⁃posed.By adjusting the metallic structure using CST and COMSOL software,a significant quasi-BIC peak can be achieved at a frequency of 0.8217 terahertz(THz).Through multi-level expansion analysis,it is found that the electric dipole(ED)is the main factor contributing to the resonant characteristics of the structure.By leveraging the characteristics of BIC,an imaging system was created and operated.According to the simulation results,the imaging system demonstrated excellent sensitivity and resolution,revealing the great potential of terahertz imag⁃ing.This research not only provides new ideas for the creation of BIC structures but also offers an effective refer⁃ence for the development of high-performance terahertz imaging technology. 展开更多
关键词 metasurface bound states in the continuum TERAHERTZ multi-level expansion imaging
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Cutting-edge Advances in Raman Imaging Technology and Its Interdisciplinary Research with Aggregate Science
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作者 LI Yuting LUO Liang 《高等学校化学学报》 北大核心 2026年第4期54-71,共18页
Raman imaging,as a molecular spectroscopy technique,has been widely studied and applied in research fields such as life sciences and food safety due to its excellent specificity and high resolution.However,its develop... Raman imaging,as a molecular spectroscopy technique,has been widely studied and applied in research fields such as life sciences and food safety due to its excellent specificity and high resolution.However,its development still faces challenges such as weak signals,slow acquisition speed,and insufficient penetration depth.In recent years,the rapid development of aggregate science has provided new insights for addressing these limitations.Aggregation-induced emission(AIE)materials exhibit enhanced signals in the aggregated state,which may compensate for the inherent weak Raman signals.This article reviews the cutting-edge progress of Raman imaging technology and its current status in cross-disciplinary research with aggregate science,emphasizing the strategy of constructing AIE-Raman dual-responsive probes through molecular engineering to achieve functional complementarity between fluorescence localization and Raman quantification,thereby significantly improving detection sensitivity and specificity.These probes have demonstrated single-cell resolution and high spatiotemporal accuracy in applications such as tumor surgical navigation,diagnosis and treatment of drug-resistant bacteria,and dynamic monitoring of organelles.We also analyze the bottlenecks in this field,such as biological safety and the complexity of molecular design,and outline the future development directions,including intelligent responsive probes,artificial intelligence-assisted analysis,and multimodal fusion platforms.The integration of Raman imaging and AIE sheds new light in the field of medical imaging. 展开更多
关键词 Raman imaging PROBE AGGREGATE Aggregation-induced emission(AIE)
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Novel AIE Fluorescent Probes for Ultrahigh Sensitivity and High Photostability in Lipid Droplets Imaging
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作者 GAO Xin QING Jia +5 位作者 HU Yichen SHANGGUAN Zhichun LIANG Tongling ZHOU Yongsheng ZHANG Guanxin ZHANG Deqing 《高等学校化学学报》 北大核心 2026年第4期102-110,共9页
Two novel aggregation-induced emission(AIE)-active probes,TPA-H and TPA-2 F,were designed and synthesized based on a triphenylamine(TPA)core.Systematic characterization demonstrated that both probes exhibit excellent ... Two novel aggregation-induced emission(AIE)-active probes,TPA-H and TPA-2 F,were designed and synthesized based on a triphenylamine(TPA)core.Systematic characterization demonstrated that both probes exhibit excellent biocompatibility(cell viability>90%at concentrations up to 50μmol/L)and outstanding LD-targeting speci⁃ficity with minimal colocalization with other organelles such as mitochondria and lysosomes.During early differentia⁃tion of 3 T 3-L 1 adipocytes,both TPA-2 F and TPA-H clearly visualized small and nascent LDs that were difficult to be detected with BODIPY,indicating superior imaging sensitivity compared to the existing fluorescent probes for LDs.Moreover,TPA-2 F demonstrated exceptional photostability,retaining over 90%of its initial fluorescence intensity after 100 continuous laser scanning cycles,significantly outperforming TPA-H.This work not only provides two high-performance LD imaging tools but also highlights the potential of AIE luminogens(AIEgens)in organelle-specific bioimaging,offering promising avenues for early diagnosis and mechanistic research of lipid-related metabolic diseases. 展开更多
关键词 Aggregation-induced emission(AIE) Fluorescence imaging Lipid Droplets PHOTOSTABILITY
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Millimeter wave imaging of Range Migration Algorithm with adaptive background filtering
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作者 CHENG Zhi-Hua ZHOU Ran +3 位作者 WANG Meng YU Tao WANG Yu-Lan YAO Jian-Quan 《红外与毫米波学报》 北大核心 2026年第2期279-284,共6页
This paper proposes a novel Range Migration Algorithm(RMA)integrated with an adaptive background filtering method specifically designed for near-field millimeter-wave imaging scenarios where targets are in close proxi... This paper proposes a novel Range Migration Algorithm(RMA)integrated with an adaptive background filtering method specifically designed for near-field millimeter-wave imaging scenarios where targets are in close proximity to background structures.This method simulates the attention distribution mode of the human visual system which is used in Artificial Intelligence(AI)and called the Attention Mechanism.Based on the concept of static clutter filtering,the frequency-domain signals of the scanning aperture are divided into grid cells.Background scattering functions are established by analyzing the motion processes within each cell,and the background interference is linearly filtered out.An analysis of the manifestation of background scattering interference within the algorithm is carried out,and the impact of the grid cell dimension on the imaging quality is investigated.Experimental results show that the proposed method exhibits the capability to enhance the signal-to-noise ratio of both the target and the background.It effectively suppresses the background interference,leading to a more prominent image,meanwhile without imposing the excessive computational load.The method offers a novel solution for improving the performance of millimeter-wave imaging technology in practical applications. 展开更多
关键词 information processing technology millimeter-wave imaging Range Migration Algorithm(RMA) attention mechanism adaptive background filtering
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Diagnostic value of morphological features of breast lesions on DWI and T2WI assessed using Breast Imaging Reporting and Data System lexicon descriptors
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作者 ZHANG Liying ZHANG Tongzhen ZHAO Xin 《南方医科大学学报》 北大核心 2025年第9期1809-1817,共9页
Objective To qualitatively assess the diagnostic performance of dynamic contrast enhancement(DCE),diffusionweighted imaging(DWI),and T2-weighted imaging(T2WI),alone or in combination,in the evaluation of breast cancer... Objective To qualitatively assess the diagnostic performance of dynamic contrast enhancement(DCE),diffusionweighted imaging(DWI),and T2-weighted imaging(T2WI),alone or in combination,in the evaluation of breast cancer.Methods We retrospectively reviewed the records of 394 consecutive patients with pathologically confirmed breast lesions who had undergone 3-T magnetic resonance imaging(MRI).The morphological characteristics of breast lesions were evaluated using DCE,DWI,and T2WI based on BI-RADS lexicon descriptors by trained radiologists.Patients were categorized into mass and non-mass groups based on MRI characteristics of the lesions,and the differences between benign and malignant lesions in each group were compared.Clinical prediction models for breast cancer diagnosis were constructed using logistic regression analysis.Diagnostic efficacies were compared using the area under the receiver operating characteristic curve(AUC)and DeLong test.Results For mass-like lesions,all the morphological parameters significantly differentiated benign and malignant lesions on consensus DCE,DWI,and T2WI(P<0.05).The combined method(DCE+DWI+T2WI)had a higher AUC(0.865)than any of the individual modality(DCE:0.786;DWI:0.793;T2WI:0.809)(P<0.05).For non-mass-like lesions,DWI signal intensity was a significant predictor of malignancy(P=0.036),but the model using DWI alone had a low AUC(0.669).Conclusion Morphological assessment using the combination of DCE,DWI,and T2WI provides better diagnostic value in differentiating benign and malignant breast mass-like lesions than assessment with only one of the modalities. 展开更多
关键词 breast cancer magnetic resonance imaging diffusion-weighted imaging T2-weighted imaging diagnostic accuracy
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Joint intra-frame and inter-frame imaging algorithm for spaceborne ISAR imaging of air target
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作者 ZHOU Yichen WANG Yong 《Journal of Systems Engineering and Electronics》 2026年第2期412-430,共19页
The spaceborne inverse synthetic aperture radar(ISAR)has attracted significant attention due to its extensive observation range and imaging performance.However,the complex motion between spaceborne platform and the ai... The spaceborne inverse synthetic aperture radar(ISAR)has attracted significant attention due to its extensive observation range and imaging performance.However,the complex motion between spaceborne platform and the air target leads to complex signal modulation.The scattering anisotropy and occlusion lead to the scattering points missing problem.These problems pose a serious challenge to the traditional ISAR imaging algorithms.Aiming at the above problems,this paper proposes a joint intra-frame and inter-frame imaging algorithm based on spaceborne ISAR.In this algorithm,we divide the long coherent processing interval into several sub-apertures using the narrow-band tracking data,and each-order terms of the signal within sub-aperture is derived in detail.Then,the intra-frame algorithm based on the parametric minimized image entropy search is proposed to correct the spatial-variant phase errors caused by the complex relative motion.As to the well-focused images from different views and the rotation parameters obtained in sub-apertures,the inter-frame algorithm based on wavelet transform can perform image registration and image fusion to obtain more detailed target feature information and more complete target structure.In simulated and real-measured data experiments,the effectiveness and superiority of the proposed algorithm are validated. 展开更多
关键词 spaceborne inverse synthetic aperture radar(ISAR) long coherent processing interval division intra-frame complex motion compensation inter-frame image fusion
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A 2-dicyanomethylene-3-cyano-4,5,5-trimethyl-2,5-dihydrofuran-based near-infrared fluorescence probe for the detection of hydrogen sulfide and imaging of living cells 被引量:1
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作者 ZHANG Linfang YIN Wenzhu YIN Gui 《无机化学学报》 北大核心 2025年第3期540-548,共9页
Using 2-dicyanomethylene-3-cyano-4,5,5-trimethyl-2,5-dihydrofuran(TCF)as a near-infrared fluorescent chromophore,we designed and synthesized a TCF-based fluorescent probe TCF-NS by introducing 2,4-dinitrophenyl ether ... Using 2-dicyanomethylene-3-cyano-4,5,5-trimethyl-2,5-dihydrofuran(TCF)as a near-infrared fluorescent chromophore,we designed and synthesized a TCF-based fluorescent probe TCF-NS by introducing 2,4-dinitrophenyl ether as the recognized site for H_(2)S.The probe TCF-NS displayed a rapid-response fluorescent against H_(2)S with high sensitivity and selection but had no significant fluorescence response to other biothiols.Furthermore,TCF-NS was applied to sense H_(2)S in living cells successfully with minimized cytotoxicity and a large Stokes shift. 展开更多
关键词 hydrogen sulfide near⁃infrared fluorescence probe cell imaging
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Research process on radioactive^(18)F-labelled chemical agents as positron emission tomography imaging probes for tumour detection
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作者 WU Rui ZHANG Yankun +2 位作者 LU Jiufu ZHANG Pengfei WANG Yang 《无机化学学报》 北大核心 2025年第9期1702-1718,共17页
Malignant tumours always threaten human health.For tumour diagnosis,positron emission tomography(PET)is the most sensitive and advanced imaging technique by radiotracers,such as radioactive^(18)F,^(11)C,^(64)Cu,^(68)G... Malignant tumours always threaten human health.For tumour diagnosis,positron emission tomography(PET)is the most sensitive and advanced imaging technique by radiotracers,such as radioactive^(18)F,^(11)C,^(64)Cu,^(68)Ga,and^(89)Zr.Among the radiotracers,the radioactive^(18)F-labelled chemical agent as PET probes plays a predominant role in monitoring,detecting,treating,and predicting tumours due to its perfect half-life.In this paper,the^(18)F-labelled chemical materials as PET probes are systematically summarized.First,we introduce various radionuclides of PET and elaborate on the mechanism of PET imaging.It highlights the^(18)F-labelled chemical agents used as PET probes,including[^(18)F]-2-deoxy-2-[^(18)F]fluoro-D-glucose([^(18)F]-FDG),^(18)F-labelled amino acids,^(18)F-labelled nucleic acids,^(18)F-labelled receptors,^(18)F-labelled reporter genes,and^(18)F-labelled hypoxia agents.In addition,some PET probes with metal as a supplementary element are introduced briefly.Meanwhile,the^(18)F-labelled nanoparticles for the PET probe and the multi-modality imaging probe are summarized in detail.The approach and strategies for the fabrication of^(18)F-labelled PET probes are also described briefly.The future development of the PET probe is also prospected.The development and application of^(18)F-labelled PET probes will expand our knowledge and shed light on the diagnosis and theranostics of tumours. 展开更多
关键词 ^(18)F RADIOACTIVE imaging positron emission tomography LABELLED TUMOUR
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A dual-emission carbon dots-based ratiometric sensor for detection and cellular imaging of Mn^(2+)ions
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作者 ZHANG Yuecheng MA Jing +6 位作者 SUN Lingbo CHEN Fei ZHANG Shiyu ZHANG Yuhan LI Miao ZHANG Yarong MA Hongyan 《中山大学学报(自然科学版)(中英文)》 北大核心 2025年第3期60-73,共14页
Manganese(Mn),an essential trace element in the human body,plays critical roles in many biological processes.Recent studies have discovered that Mn^(2+)may promote or directly activate the cGAS-STING pathway,thereby s... Manganese(Mn),an essential trace element in the human body,plays critical roles in many biological processes.Recent studies have discovered that Mn^(2+)may promote or directly activate the cGAS-STING pathway,thereby subsequently initiating the natural immune response and augmenting antitumor therapy.However,the current lack of accurate methods for Mn^(2+)determination in cells significantly limits their mechanism investigation;hence,it is urgent to establish novel tools to detect Mn^(2+)in cells.In this study,the dual-emission carbon dots were initially synthesized via the one-pot hydrothermal method employing L-aspartic acid and p-phenylenediamine as raw materials.In the presence of Mn^(2+),the emission peak centered at 350 nm exhibited significant enhancement,whereas another peak at 610 nm remained stable.Consequently,a ratiometric sensor for Mn^(2+)determination was established using the signal at 350 nm as the responsive signal and the signal at 610 nm as an internal reference.Under the optimal condition,a good linear relationship was achieved between the F350/F610 value and Mn^(2+)concentration ranging from 0.9 to 15μmol/L,with a calculated LOD of 61 nmol/L.Benefiting from the special Mn^(2+)-induced ratiometric approach,this method demonstrates outstanding sensitivity,selectivity,and stability,rendering it applicable for Mn^(2+)determination in complex biological samples,as well as Mn^(2+)imaging in MKN-45 and LO2 cells. 展开更多
关键词 Mn^(2+) carbon dots RATIOMETRIC cell imaging FLUORESCENCE
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Ultrafast Self-powered Near-infrared Photodetectors and Imaging Array Based on Tin-lead Mixed Perovskites
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作者 LIU Jingjing YANG Zhichun +7 位作者 BAO Haotian MENG Xinqin QI Minru YANG Changgang ZHANG Guofeng QIN Chengbing XIAO Liantuan JIA Suotang 《发光学报》 北大核心 2025年第6期1037-1047,共11页
Tin-lead(Sn-Pb)mixed perovskites are extensively investigated in near-infrared(NIR)photodetectors(PDs)owing to their excellent photoelectric performance.However,achieving high-performance Sn-Pb mixed PDs remains chall... Tin-lead(Sn-Pb)mixed perovskites are extensively investigated in near-infrared(NIR)photodetectors(PDs)owing to their excellent photoelectric performance.However,achieving high-performance Sn-Pb mixed PDs remains challenging,primarily because of the rapid crystallization and the susceptibility of Sn^(2+) to oxidation.To ad⁃dress these issues,this study introduces the multifunctional molecules 2,3-difluorobenzenamine(DBM)to modulate the crystallization of Sn-Pb mixed perovskites and retard the oxidation of Sn^(2+),thereby significantly enhancing film quality.Compared with the pristine film,Sn-Pb mixed perovskite films modulated by DBM molecules exhibit a high⁃ly homogeneous morphology,reduced roughness and defect density.The self-powered NIR PDs fabricated with the improved films have a spectral response range from 300 nm to 1100 nm,a peak responsivity of 0.51 A·W^(-1),a spe⁃cific detectivity as high as 2.46×10^(11)Jones within the NIR region(780 nm to 1100 nm),a linear dynamic range ex⁃ceeding 152 dB,and ultrafast rise/fall time of 123/464 ns.Thanks to the outstanding performance of PDs,the fabri⁃cated 5×5 PDs array demonstrates superior imaging ability in the NIR region up to 980 nm.This work advances the development of Sn-Pb mixed perovskites for NIR detection and paves the way for their commercialization. 展开更多
关键词 tin-lead mixed perovskites near-infrared photodetectors imaging array oxidation crystallization modulation
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NIR-II quantum dot-labeled exosomes’imaging in treatment of ischemic peripheral nerve injury
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作者 OGURA Shingo SHAO Ke-Meng +6 位作者 ZHANG Xiao LI Hui-Zhu FENG Si-Jia WANG Yue-Ming CHEN Jun WU De-Hua WO Yan 《红外与毫米波学报》 北大核心 2025年第5期631-640,共10页
Ischemia is a significant factor affecting the repair of peripheral nerve injuries,while exosomes have been shown to promote angiogenesis.To further investigate the detailed processes and efficacy of exosome thera⁃py ... Ischemia is a significant factor affecting the repair of peripheral nerve injuries,while exosomes have been shown to promote angiogenesis.To further investigate the detailed processes and efficacy of exosome thera⁃py for ischemic peripheral nerve injuries,this study utilized glucose-modified near-infrared-II(NIR-II)quantum dots(QDs)to label adipose-derived stem cell exosomes(QDs-ADSC-Exos),enabling long-term in vivo NIR-II imaging of exosome treatment for ischemic peripheral nerve damage.Experimental results confirmed that QDs can be used for non-invasive in vitro labeling of exosomes,with QDs-ADSC-Exos exhibiting strong fluorescence signals in the NIR-II window and demonstrating favorable NIR-II imaging characteristics in vivo.Notably,QDsADSC-Exos showed accumulation at the site of nerve injury in cases of ischemic peripheral nerve damage.Func⁃tional neurological assessments indicated that QDs-ADSC-Exos effectively promoted neural regeneration.This study highlights the potential of exosomes in treating ischemic peripheral nerve injuries and elucidates the spatio⁃temporal characteristics of exosome therapy,providing objective evidence for the further optimization of exosomebased treatment protocols. 展开更多
关键词 NIR-II imaging quantum dots EXOSOMES peripheral nerve injury vascular injury
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Research on variable-speed scanning method for airborne area-array whiskbroom imaging system based on vertical flight path correction
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作者 JIN Jia-Rong HAN Gui-Cheng +2 位作者 ANG Chong-Ru WU Ren-Fei WANG Yue-Ming 《红外与毫米波学报》 北大核心 2025年第4期511-519,共9页
Airborne area-array whisk-broom imaging systems typically adopt constant-speed scanning schemes.For large-inertia scanning systems,constant-speed scanning requires substantial time to complete the reversal motion,redu... Airborne area-array whisk-broom imaging systems typically adopt constant-speed scanning schemes.For large-inertia scanning systems,constant-speed scanning requires substantial time to complete the reversal motion,reducing the system's adaptability to high-speed reversal scanning and decreasing scanning efficiency.This study proposes a novel sinusoidal variable-speed roll scanning strategy,which reduces abrupt changes in speed and acceleration,minimizing time loss during reversals.Based on the forward image motion compensation strategy in the pitch direction,we establish a line-of-sight(LOS)position calculation model with vertical flight path correction(VFPC),ensuring that the central LOS of the scanned image remains stable on the same horizontal line,facilitating accurate image stitching in whisk-broom imaging.Through theoretical analysis and simulation experiments,the proposed method improves the scanning efficiency by approximately 18.6%at a 90o whiskbroom imaging angle under the same speed height ratio conditions.The new VFPC method enables wide-field,high-resolution imaging,achieving single-line LOS horizontal stability with an accuracy of better than O.4 mrad.The research is of great significance to promote the further development of airborne area-array whisk-broom imaging technology toward wider fields of view,higher speed height ratios,and greater scanning efficiency. 展开更多
关键词 airborne remote sensing whisk-broom imaging image motion vertical flight path correction(VFPC) line-of-sight(LOS)stabilization
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Reverse design of solid propellant grain based on deep learning:Imaging internal ballistic data
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作者 Lin Sun Xiangyu Peng +4 位作者 Yang Liu Shu Long Weihua Hui Ran Wei Futing Bao 《Defence Technology(防务技术)》 2025年第8期374-385,共12页
The reverse design of solid rocket motor(SRM)propellant grain involves determining the grain geometry to closely match a predefined internal ballistic curve.While existing reverse design methods are feasible,they ofte... The reverse design of solid rocket motor(SRM)propellant grain involves determining the grain geometry to closely match a predefined internal ballistic curve.While existing reverse design methods are feasible,they often face challenges such as lengthy computation times and limited accuracy.To achieve rapid and accurate matching between the targeted ballistic curve and complex grain shape,this paper proposes a novel reverse design method for SRM propellant grain based on time-series data imaging and convolutional neural network(CNN).First,a finocyl grain shape-internal ballistic curve dataset is created using parametric modeling techniques to comprehensively cover the design space.Next,the internal ballistic time-series data is encoded into three-channel images,establishing a potential relationship between the ballistic curves and their image representations.A CNN is then constructed and trained using these encoded images.Once trained,the model enables efficient inference of propellant grain dimensions from a target internal ballistic curve.This paper conducts comparative experiments across various neural network models,validating the effectiveness of the feature extraction method that transforms internal ballistic time-series data into images,as well as its generalization capability across different CNN architectures.Ignition tests were performed based on the predicted propellant grain.The results demonstrate that the relative error between the experimental internal ballistic curves and the target curves is less than 5%,confirming the validity and feasibility of the proposed reverse design methodology. 展开更多
关键词 SRM Propellant grain reverse design Time-series data imaging CNN
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A sparse moving array imaging approach for FMCW radar with dualaperture adaptive azimuth ambiguity suppression and adaptive QR decomposition
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作者 Yanwen Han Xiaopeng Yan +3 位作者 Jiawei Wang Sheng Zheng Hongrui Yu Jian Dai 《Defence Technology(防务技术)》 2025年第8期254-271,共18页
Range-azimuth imaging of ground targets via frequency-modulated continuous wave(FMCW)radar is crucial for effective target detection.However,when the pitch of the moving array constructed during motion exceeds the phy... Range-azimuth imaging of ground targets via frequency-modulated continuous wave(FMCW)radar is crucial for effective target detection.However,when the pitch of the moving array constructed during motion exceeds the physical array aperture,azimuth ambiguity occurs,making range-azimuth imaging on a moving platform challenging.To address this issue,we theoretically analyze azimuth ambiguity generation in sparse motion arrays and propose a dual-aperture adaptive processing(DAAP)method for suppressing azimuth ambiguity.This method combines spatial multiple-input multiple-output(MIMO)arrays with sparse motion arrays to achieve high-resolution range-azimuth imaging.In addition,an adaptive QR decomposition denoising method for sparse array signals based on iterative low-rank matrix approximation(LRMA)and regularized QR is proposed to preprocess sparse motion array signals.Simulations and experiments show that on a two-transmitter-four-receiver array,the signal-to-noise ratio(SNR)of the sparse motion array signal after noise suppression via adaptive QR decomposition can exceed 0 dB,and the azimuth ambiguity signal ratio(AASR)can be reduced to below-20 dB. 展开更多
关键词 Frequency modulated continuous wave (FMCW) Sparse motion array Range-azimuth imaging Azimuth ambiguity suppression DAAP Adaptive QR decomposition
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一种基于Integral Imaging和多基线立体匹配算法的深度测量方法 被引量:9
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作者 伍春洪 杨扬 游福成 《电子学报》 EI CAS CSCD 北大核心 2006年第6期1090-1095,共6页
Integral Imaging(II)是一种能够记录和显示全真三维场景的图像技术.该技术采用微透镜阵列记录空间场景,空间任意一点的深度信息只需通过一次成像即可直接获得.本文研究结合多基线立体匹配算法采用II直接获取物体空间信息的方法.其结果... Integral Imaging(II)是一种能够记录和显示全真三维场景的图像技术.该技术采用微透镜阵列记录空间场景,空间任意一点的深度信息只需通过一次成像即可直接获得.本文研究结合多基线立体匹配算法采用II直接获取物体空间信息的方法.其结果既可为下一代基于II的三维电视图像的数据处理提供应用基础,同时也可望应用于开发新型的深度测量工具. 展开更多
关键词 INTEGRAL imaging 深度测量 立体匹配 多基线算法 视差分析
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基于ERDAS IMAGING软件的TM影像几何精校正方法初探——以塔里木河流域为例 被引量:29
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作者 刘志丽 陈曦 《干旱区地理》 CSCD 北大核心 2001年第4期353-358,共6页
遥感图像的几何精校正一直是人们所关注的问题。本文初步探讨了利用ERDASIMAGING软件对塔里木河流域TM影像进行几何精校正的方法。ERDASIMAGING软件进行几何精校正具有操作简便、实用性强、速度快、几何精度高等特点。
关键词 ERDAS imaging TM影像 塔河流域 几何精校正 遥感影像 地面控制点
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基于ERDAS IMAGING的TM影像中较小水体识别方法 被引量:5
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作者 李小曼 王刚 《计算机应用与软件》 CSCD 北大核心 2008年第4期215-216,共2页
针对利用Landsat TM遥感影像中水体信息识别的常用方法对细小水体识别的局限性作了深入研究,提出了新的基于ERDAS IMAGING的较小水体识别方法。将TM影像中某3个波段组成的假彩色合成图转换到IHS彩色空间,构建模型进行细小水体的识别。... 针对利用Landsat TM遥感影像中水体信息识别的常用方法对细小水体识别的局限性作了深入研究,提出了新的基于ERDAS IMAGING的较小水体识别方法。将TM影像中某3个波段组成的假彩色合成图转换到IHS彩色空间,构建模型进行细小水体的识别。该方法有效地提高了细小水体识别的精度。 展开更多
关键词 LANDSAT TM ERDAS imaging较小水体IHS彩色空间
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Integral Imaging与模拟退火相结合的深度测量方法研究 被引量:1
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作者 刘献如 蔡自兴 +1 位作者 杨欣荣 伍春洪 《系统仿真学报》 CAS CSCD 北大核心 2009年第8期2303-2307,共5页
该文提出一种Integral Imaging和模拟退火相结合的深度测量方法。针对传统立体视深度测量的复杂性,采用全真三维显示技术Integral Imaging成像技术记录空间三维信息。利用带约束的特征匹配算法并综合多种信息分析Integral imaging视图... 该文提出一种Integral Imaging和模拟退火相结合的深度测量方法。针对传统立体视深度测量的复杂性,采用全真三维显示技术Integral Imaging成像技术记录空间三维信息。利用带约束的特征匹配算法并综合多种信息分析Integral imaging视图对之间的视差。将寻找匹配的问题设计为全局能量函数模型,并用模拟退火算法使该能量函数最小化,从而实现所有视图对中所有特征点的匹配。最后结合Integral Imaging深度估算公式获得空间深度信息。仿真结果表明该方法的有效性。 展开更多
关键词 INTEGRAL imaging 带约束的特征匹配 能量函数 模拟退火
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Near-field 3D imaging approach combining MJSR and FGG-NUFFT 被引量:3
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作者 WANG Shuzhen FANG Yang +2 位作者 ZHANG Jin’gang LUO Mingshi LI Qing 《Journal of Systems Engineering and Electronics》 SCIE EI CSCD 2019年第6期1096-1109,共14页
A near-field three-dimensional(3 D)imaging method combining multichannel joint sparse recovery(MJSR)and fast Gaussian gridding nonuniform fast Fourier transform(FGGNUFFT)is proposed,based on a perfect combination of t... A near-field three-dimensional(3 D)imaging method combining multichannel joint sparse recovery(MJSR)and fast Gaussian gridding nonuniform fast Fourier transform(FGGNUFFT)is proposed,based on a perfect combination of the compressed sensing(CS)theory and the matched filtering(MF)technique.The approach has the advantages of high precision and high efficiency:multichannel joint sparse constraint is adopted to improve the problem that the images recovered by the single channel imaging algorithms do not necessarily share the same positions of the scattering centers;the CS dictionary is constructed by combining MF and FGG-NUFFT,so as to improve the imaging efficiency and memory requirement.Firstly,a near-field 3 D imaging model of joint sparse recovery is constructed by combining the MF-based imaging method.Secondly,FGG-NUFFT and reverse FGG-NUFFT are used to replace the interpolation and Fourier transform in MF-based imaging methods,and a sensing matrix with high precision and high efficiency is constructed according to the traditional imaging process.Thirdly,a fast imaging recovery is performed by using the improved separable surrogate functionals(SSF)optimization algorithm,only with matrix and vector multiplication.Finally,a 3 D imagery of the near-field target is obtained by using both the horizontal and the pitching interferometric phase information.This paper contains two imaging models,the only difference is the sub-aperture method used in inverse synthetic aperture radar(ISAR)imaging.Compared to traditional CS-based imaging methods,the proposed method includes both forward transform and inverse transform in each iteration,which improves the quality of reconstruction.The experimental results show that,the proposed method improves the imaging accuracy by about O(10),accelerates the imaging speed by five times and reduces the memory usage by about O(10~2). 展开更多
关键词 interference imaging joint sparse recovery compressed sensing(CS) matching filtering(MF) fast Gaussian gridding nonuniform fast Fourier transform(NUFFT) near-field 3D imaging
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Design of task priority model and algorithm for imaging observation problem 被引量:4
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作者 WU Jian LU Fang +2 位作者 ZHANG Jiawei YANG Jinghui XING Lining 《Journal of Systems Engineering and Electronics》 SCIE EI CSCD 2020年第2期321-334,共14页
In the imaging observation system, imaging task scheduling is an important topic. Most scholars study the imaging task scheduling from the perspective of static priority, and only a few from the perspective of dynamic... In the imaging observation system, imaging task scheduling is an important topic. Most scholars study the imaging task scheduling from the perspective of static priority, and only a few from the perspective of dynamic priority. However,the priority of the imaging task is dynamic in actual engineering. To supplement the research on imaging observation, this paper proposes the task priority model, dynamic scheduling strategy and Heuristic algorithm. At first, this paper analyzes the relevant theoretical basis of imaging observation, decomposes the task priority into four parts, including target priority, imaging task priority, track, telemetry & control(TT&C)requirement priority and data transmission requirement priority, summarizes the attribute factors that affect the above four types of priority in detail, and designs the corresponding priority model. Then, this paper takes the emergency tasks scheduling problem as the background, proposes the dynamic scheduling strategy and heuristic algorithm. Finally, the task priority model,dynamic scheduling strategy and heuristic algorithm are verified by experiments. 展开更多
关键词 imaging OBSERVATION system imaging TASK PRIORITY TASK PRIORITY model dynamic SCHEDULING strategy HEURISTIC algorithm
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