国产免费完整高清电视剧在线看|国产免费观看高清电视剧|国产免费观看高清电视剧在线观看|国产免费观看高清完整版在线观看没重返地球|国产免费一区二区三区四区视频|国产在线观看免费高清电视剧大全

2024

2024

  • Record 397 of

    Title:Sub-nanosecond Rising-edge Narrow Pulse Driver Circuit and Analog Simulation
    Author Full Names:Li, Yi(1,2); Wen, Wenlong(1); Wang, Qianhao(1); Li, Qianglong(1); Zhao, Hualong(1); Li, Feng(1)
    Source Title:Guangzi Xuebao/Acta Photonica Sinica
    Language:Chinese
    Document Type:Journal article (JA)
    Abstract:Semiconductor lasers have made great progress in theoretical research,practical application and technological development in the half century since their introduction. Today,they occupy the majority of the market share in the entire laser field,and are widely used in a variety of fields such as communication networks,medical aesthetics,laser sensing,and single-photon detection. Photon detection,for example,is a technique capable of detecting extremely low noise,with enhanced sensitivity enabling it to capture the smallest energy quantum of light,the photon. Not only does this technique allow for the precise counting of individual photons,which greatly enhances the accuracy and efficiency of detection,but it is also widely used in fields such as laser ranging and LIDAR to achieve high-resolution distance measurement and target detection. In laser ranging,the onset time of a laser pulse is usually defined by the rising edge of the pulse,so the steepness of the rising edge directly affects the accuracy of time-of-flight measurement. In LIDAR systems,a fast rising edge helps to shorten the laser emission time and increase the laser power,which in turn enhances the system's ability to sense the environment. Therefore,as the source of the laser signal,a semiconductor laser outputting narrow pulses with fast rising edges is crucial for improving the system accuracy. In this paper,a narrow pulse circuit with sub-nanosecond rising edge is designed,and the effects of inductance,capacitance and other parameters in the circuit on the rising edge of the output laser pulse are theoretically analyzed. The driver circuit uses a GaN integrated module with built-in driver as the main switch,and the semiconductor laser diode is driven by a reasonably designed driver circuit. At the same time,F(xiàn)ield Programmable Gate Array(FPGA)is used as the control core to design the timing signals to realize the precise adjustment of the laser diode's pulse width and repetition frequency; and the thermoelectric cooler is driven by ADN8831 to realize the constant temperature control of the semiconductor laser. By simulating the circuit,it was found that the capacitor's ability to store and release energy increases with its value,allowing the circuit to release more charge per pulse,resulting in wider pulses and higher peak currents. Resistance only affects the peak current and an increase in resistance decreases the peak current. An increase in inductance extends the duration of the rising edge and reduces the peak current. Parasitic parameters in loop circuits,such as inductance,not only affect the speed of the pulse,but also affect the pulse waveform,making it more rounded or"dome"shaped. A relatively small capacitance has no significant effect on the overall performance. By reasonably designing the inductance and capacitance parameters and optimizing the circuit layout and wiring,sub-nanosecond rising edge laser narrow pulses can be achieved. The final experimental validation shows that the pulse front reaches 630 ps,the pulse width is adjustable from 5 ns to 15 ns,the repetition frequency is adjustable from 1 kHz to 10 kHz,the temperature of the LD is set from 25 ℃ to 26 ℃,and the RMS test value of the 12-hour power stability is 0.51%. ? 2024 Chinese Optical Society. All rights reserved.
    Affiliations:(1) Photonic Manufacturing System and Application Research Center, Xi'an Institute of Optics and Precision Mechanics, Chinese Academy of Sciences, Xi'an; 710119, China; (2) School of Optoelectronics, University of Chinese Academy of Sciences, Beijing; 100049, China
    Publication Year:2024
    Volume:53
    Issue:10
    Article Number:1014002
    DOI Link:10.3788/gzxb20245310.1014002
    數(shù)據(jù)庫ID(收錄號):20244717395111
  • Record 398 of

    Title:A Centroiding algorithm for high precision cross strip anode readout of Photon Imaging Detector
    Author Full Names:Zuo, Xiaoyun(1,2); Zheng, Jinkun(1,2); Duan, Jinyao(1,2); Xu, Linmeng(1,2); Tuo, Hongli(1,2); Yang, Yang(1,2); Bai, Yonglin(1,2)
    Source Title:Proceedings of SPIE - The International Society for Optical Engineering
    Language:English
    Document Type:Conference article (CA)
    Conference Title:2024 Conference on Spectral Technology and Applications, CSTA 2024
    Conference Date:May 9, 2024 - May 11, 2024
    Conference Location:Dalian, China
    Conference Sponsor:Chinese Society for Optical Engineering
    Abstract:The cross strip (XS) anode detector is a photon counting imaging detector with high spatial resolution and good position resolution. This kind of detector is widely used in material science, medical imaging and environmental monitoring, especially in detecting weak photon signals. However, in order to fully tap the potential of the XS anode detector, advanced algorithms are needed to optimize the processing of image data. Centroiding algorithm, as one of the key factors affecting the imaging of detector, plays a vital role in improving the performance of detector. The traditional centroiding algorithm mainly relies on the peak value of charge distribution to locate the centroid, but it is easily disturbed by noise. In order to weaken the negative effect of noise, this paper designs a centroiding algorithm based on convolution, which selects data by setting threshold value and calculates the average value of all data larger than threshold value. In addition, considering that the input signal may introduce noise, the filtering operation is specially introduced. The experimental results demonstrate the superiority of the proposed method in calculating the centroid position. Compared with the traditional algorithm, the mean value interpolation convolution algorithm proposed in this paper improves the precision of solving the centroid coordinates and has good robustness. Specifically, the error range of the algorithm is obviously smaller than that of the traditional algorithm, and its error range is no more than 5%. This means that higher spatial resolution and faster counting rates can be expected without sacrificing too much accuracy. ? 2024 SPIE.
    Affiliations:(1) Key Laboratory of Ultrafast Photoelectric Diagnostic Technology, Xi'an Institute of Optics and Precision Mechanics (XIOPM), Chinese Academy of Sciences, Xi'an; 710119, China; (2) University of Chinese Academy of Sciences (UCAS), Beijing; 100049, China
    Publication Year:2024
    Volume:13283
    Article Number:132831P
    DOI Link:10.1117/12.3035681
    數(shù)據(jù)庫ID(收錄號):20245217584406
  • Record 399 of

    Title:Blue-green emitting ZnS0.75O0.25:Ce3+,x%Tb3+ phosphor with tunable fluorescence lifetime
    Author Full Names:Xing, Xue(1,2,3); Cao, Weiwei(1); Wu, Zhaoxin(2); Bai, Xiaohong(1); Gao, Jiarui(1); Liang, Xiaozhen(1); Wang, Bo(1); Wang, Chao(1); Shi, Dalian(1); Lv, Linwei(1); Bai, Yonglin(1)
    Source Title:Materials Letters
    Language:English
    Document Type:Journal article (JA)
    Abstract:A series of ZnS0.75O0.25:0.1%Ce3+,x%Tb3+ phosphors were prepared by high temperature solid state reaction method. These phosphors exhibited two mixed phases consisting of hexagonal phase ZnS and hexagonal phase ZnO with the average particle size of 13.83 μm and emitted blue-green light. The luminescence mechanism consisted of Zn vacancy defects, the 5d1 → 2F5/2 radiative transitions of Ce3+, the 5D4 → 7F5 and 5D4 → 7F6 radiative transition of Tb3+ induced by the energy transfer of Ce3+ → Tb3+. An equation for the variation of the fluorescence lifetime of ZnS0.75O0.25:0.1%Ce3+,x%Tb3+ phosphors with concentration of Tb3+ fraction was obtained by exponential fitting. The short fluorescence lifetime could be tuned within the range of 113 μs to 550 μs with the increase of Tb3+ concentration, and the color was tunable from blue to blue-green, which is of important application in the field of high-energy particle detection. ? 2024 Elsevier B.V.
    Affiliations:(1) Key Laboratory for Space Science Low Light Level Detection Technology, Xi'an Institute of Optics & Precision Mechanics, Chinese Academy of Sciences, Shaanxi, Xi'an; 710119, China; (2) School of Electronic Science and Engineering, Xi'an Jiaotong University, Shaanxi, Xi'an; 710049, China; (3) University of Chinese Academy of Sciences, Beijing; 100049, China
    Publication Year:2024
    Volume:372
    Article Number:137028
    DOI Link:10.1016/j.matlet.2024.137028
    數(shù)據(jù)庫ID(收錄號):20243116772657
  • Record 400 of

    Title:Detection Error Analysis and Control in Close-range Conditions of Solid-state Hybrid LiDAR
    Author Full Names:Ye, Meitu(1,2); Xie, Meilin(1,2,3); Guo, Min(1,2); Shi, Heng(1,2,3); Tian, Yan(1,2); Hao, Wei(1,2); Ding, Lu(1,2); Tian, Guangyuan(1,2)
    Source Title:Guangzi Xuebao/Acta Photonica Sinica
    Language:Chinese
    Document Type:Journal article (JA)
    Abstract:In recent years,hybrid solid-state LiDAR has gained widespread application across aerospace,autonomous driving,and UAV remote sensing due to its reasonable cost and advanced manufacturing technology. Despite its advantages in portability and long-range detection capabilities,many researchers overlook the inherent challenges such as systematic errors,random interference,and instability issues,particularly the"edge tailing"effect within the near-field range of tens of meters. This phenomenon significantly impairs the reliability of close-range detection and testing tasks. This article begins by outlining the fundamental 3D imaging principles of solid-state LiDAR and discusses the unpredictability of near-field detection errors. It introduces a method for analyzing a measured target's 3D point cloud data using the Oriented Bounding Box (OBB) algorithm,establishing a framework for subsequent data acquisition and analysis. Experimental statistical methods were then employed to quantitatively analyze the measurement results,elucidating the influence of systematic"edge tailing"on the direct fitting results of spheres. This study also identifies a variance in echo intensity between the tailing and central points. Leveraging the existing discovery,an automatic denoising method was devised to eliminate noise from the tailing point clouds,thereby reducing systematic errors. Moreover,the analysis reveals that measurement distance, target surface colour, and motion speed significantly contribute to random errors. Recommendations are made for optimizing working distance,target colour,and flight speed in near-field detection to minimize these errors and enhance measurement stability. A series of experiments were conducted to verify the effectiveness of these methods,measuring the attitude of a large angular velocity rotating target at a 30-meter range. Identification of"expansive"trailing points at the target edges,is enabling the establishment of a precise cutoff threshold for their filtering,meaning that optimal working distances enhance the accuracy of tracking and measuring cooperative targets,with white being the preferred target colour for both day and night conditions. The necessity of defining the dynamic speed limit of the target to select a LiDAR with an appropriate frame rate,minimizes significant accuracy losses. For laser LiDAR systems with a nominal accuracy of ±2 cm,the comprehensive error reduction methods proposed can maintain size measurements of rotating targets within ±3 cm at a 30 m near-field range. The conclusions of this study offer valuable guidelines for the application of hybrid solid-state LiDAR in the tracking and rendezvous of far-field and large targets. ? 2024 Chinese Optical Society. All rights reserved.
    Affiliations:(1) Xi'an Institute of Optics and Precision Mechanics, CAS, Xi'an; 710119, China; (2) Key Laboratory of Space Precision Measurement Technology, Chinese Academy of Sciences, Xi'an; 710119, China; (3) Pilot National Laboratory for Marine Science and Technology(Qingdao), Qingdao; 266237, China
    Publication Year:2024
    Volume:53
    Issue:12
    Article Number:1212001
    DOI Link:10.3788/gzxb20245312.1212001
    數(shù)據(jù)庫ID(收錄號):20250317701006
  • Record 401 of

    Title:Nonmeasurable Range Elimination of Dispersive Interferometry
    Author Full Names:Huang, Jingsheng(1,5); Du, Wei(1); Wang, Jindong(1,2); Wang, Weiqiang(3); Wang, Yang(2); Li, Duidui(1); Chu, Sai T.(4); Zhang, Wenfu(2); Zhu, Tao(1)
    Source Title:ACS Photonics
    Language:English
    Document Type:Journal article (JA)
    Abstract:Dispersive interferometry (DPI) stands as a formidable method in both scientific and industrial realms, offering the capability for numerous measurement scenarios with remarkable accuracy over extensive ranges. The advent of on-chip soliton microcombs (SMCs) boasting a high repetition rate illuminates a promising pathway toward measurements free from dead zones. However, its application scenarios are considerably constrained by the nonmeasurable range (NMR)─the region proximate to the measurement period’s extreme points, which is circumscribed by the fast Fourier transform (FFT) steps and symmetry of the data calculation procedure. Here, we introduce an NMR elimination method that refines the DPI structure by engendering an asymmetric interference spectrum. Furthermore, a phase saltation tracking (PST) method for demodulating is devised, enabling measurements without NMR. Both simulation analyses and experimental outcomes affirm that our proposed method significantly enhances the performance of the DPI system by eliminating NMR and improving measurement precision. The Allan deviation of our method consistently remains lower than the DPI measurement results under identical conditions over an average time of 125 s, achieving 7.43 nm at 125 s. This method holds promising potential for application in emerging fields such as optical coherence tomography (OCT), long-distance ranging, and precision light detection and ranging (LIDAR). ? 2024 American Chemical Society.
    Affiliations:(1) Key Laboratory of Optoelectronic Technology & Systems (Ministry of Education), Chongqing University, Chongqing; 400044, China; (2) State Key Laboratory of Transient Optics and Photonics, Xi’an Institute of Optics and Precision Mechanics, Chinese Academy of Sciences, Xi’an; 710119, China; (3) School of Electronic Information and Artificial Intelligence, Shaanxi University of Science and Technology, Xi'an; 710021, China; (4) Department of Physics, City University of Hong Kong, Hong Kong; 999077, Hong Kong; (5) CNPC Research Institute of Safety and Environment Technology, Beijing; 10026, China
    Publication Year:2024
    Volume:11
    Issue:7
    Start Page:2673-2680
    DOI Link:10.1021/acsphotonics.4c00475
    數(shù)據(jù)庫ID(收錄號):20242816662390
  • Record 402 of

    Title:Optical Design of High-compression Ratio and Low-wavefront Error Gravitational Wave Detection Telescope
    Author Full Names:Liang, Rong(1,2); Zhou, Xiaojun(1); Zou, Chunbo(3); Xu, Huangrong(1); Li, Chenxi(1); Yu, Tao(1,2); Yu, Weixing(1,2)
    Source Title:Guangzi Xuebao/Acta Photonica Sinica
    Language:Chinese
    Document Type:Journal article (JA)
    Abstract:Since the first detection of gravitational wave,gravitational wave astronomy has advanced swiftly. As a crucial component of the detection system,the gravitational wave telescope is obviously crucial. The highly stable laser telescope with a low wavefront error and a high suppression ratio of stray light is a crucial medium for the detection of gravitational waves,as it must not only transmit energy in the order of watt to distant spacecraft,but also receive weak laser signals in the order of picowatt from other satellite base station located millions of kilometers away. Therefore,the backward stray light of the local telescope is required to reach 10?10 orders of the incident laser power. Considering the requirements of small size,light weight,and high compactness,it is clear that the benefits of a reflective system cannot be compared to those of a transmission design. In general,the coaxial Cassegrain structure and off-axis multi-mirror structure are utilized. The off-axis design is preferred over the coaxial design for gravitational wave telescopes due to advantages such as the ability to optimize multiple parameters,the absence of a central obstruction,and the high energy collection capacity. In this paper,based on the design of off-axis four-mirror and the theory of coaxial reflection system,we designed and optimized the telescope combined with the characteristics of high magnification,low wavefront error and high suppression ratio of stray light. In the capture field of view of ±200 μrad,we realized the compression ratio of 100 of telescope,and the entrance pupil diameter of the principle system is 300 mm,whose design result of wavefront error is less than of λ/80 because the actual outgoing wavefront error must be less than λ/40. The system distortion of the edge field is less than 0.056 9%. In order to verify the processing and alignment of the principle system as well as the ability of stray light suppression of it,a 0.5 times scale system is established beneath the system with a wavefront error less than λ/175. Internal stray light is suppressed by increasing the light turning angle between the tertiary mirror and quaternary mirror on the condition of low wavefront error of λ/80. The optimized deflection angle of the tertiary mirror is 5.5 degrees,and the tertiary mirror is the plane surface,which can significantly reduce the difficulty of processing and alignment. A simulation of stray light is applied to analyze the stray light of our designed telescope. The steps of stray light analysis consist of the following steps:1)selection and optimization of the optical structure;2)model setting of the corresponding reflection,scattering,and absorption surfaces;3)stray light analysis of the entire system;4)iterative optimization design;5)fulfillment of the system's requirements. Therefore,we investigated the optical paths and power of the backscattered stray light. After positioning the field stop in the middle image plane between the secondary mirror and the tertiary mirror,the proportion of the stray light caused by the secondary mirror is the smallest. The stray light energy caused by the tertiary mirror and the quaternary mirror is the largest,which can reach more than 90%. The tolerance of the optical design is also analyzed,and the results of the analysis indicate that the tolerance of the parabolic primary mirror has the strongest impact on the wavefront error of the system. The principle system has a 90% cumulative probability wavefront error less than λ/40,which can satisfy the design requirement of gravitational wave detection and have the potential to play a significant role in future missions aimed at low wavefront error,high magnification and a high suppression ratio of stray light in the telescope while detecting gravitational waves. ? 2024 Chinese Optical Society. All rights reserved.
    Affiliations:(1) Key Laboratory of Spectral Imaging Technology, Xi'an Institute of Optics Precision Mechanics of Chinese Academy of Sciences, Xi'an; 710119, China; (2) University of Chinese Academy of Sciences, Beijing; 100049, China; (3) Fuzhou University, Fuzhou; 350116, China
    Publication Year:2024
    Volume:53
    Issue:1
    Article Number:0122002
    DOI Link:10.3788/gzxb20245301.0122002
    數(shù)據(jù)庫ID(收錄號):20240815579474
  • Record 403 of

    Title:Design of an Integrated Optical System for Detection and Imaging of Large Aperture and Long Focal Length Based on Continuous Zoom
    Author Full Names:Wei, Jinyang(2); Li, Xuyang(1,2); Tan, Longyu(2,3); Yuan, Hao(1); Ren, Zhiguang(1,2); Zhao, Jiawen(1,2); Yao, Kaizhong(1,2)
    Source Title:Guangzi Xuebao/Acta Photonica Sinica
    Language:Chinese
    Document Type:Journal article (JA)
    Abstract:In space target observation missions,there is a need for highly sensitive target detection and high-quality imaging. However,there is a significant disparity in the field of view between detection and imaging,and currently,two primary solutions are predominantly employed. One approach involves the design of two independent subsystems,while the other method utilizes a shared-aperture dual-channel design to integrate the functions of detection and imaging into a single system. However,designing two independent systems necessitates a substantial amount of space to accommodate these two subsystems, often exceeding the carrying capacity of most existing space optical payloads. On the other hand,adopting the shared-aperture dual-channel system requires additional electronic components and structural elements,with challenges during the assembly and calibration processes. This may potentially lead to uneven energy distribution issues. In order to achieve high sensitivity detection and precise identification of space targets,this paper introduces the design of an optical system based on a continuous zoom structure that balances a large aperture with a long focal length. This system aims to achieve short focal length and wide-field target detection,as well as long focal length and narrow-field target imaging. In terms of the design methodology,the inherent complexity of the system makes it challenging to obtain an ideal structure during the optimization process. Consequently,this system combines the structures of reflective mirrors and corrective lenses with a zoom structure through optical pupil matching. It employs two reflective mirrors to compress the optical path. During the zooming process,both the zooming components and compensating components move together to maintain the position of the image plane. At the intermediate zoom position,image quality is excellent,allowing for continuous target tracking. To address the issue of uneven energy distribution within the system,this optical system utilizes a shared-aperture detection and imaging integration structure. Furthermore,with an aperture size of 280 mm,the system can detect targets as faint as magnitude 14,effectively resolving the challenges associated with detecting faint and weak targets. The system operates within the spectral range of 450 nm to 850 nm and focal lengths ranging from 700 mm to 3 500 mm. At the detection end,the focal length is 700 mm,with an F-number of 2.5 and a field of view angle of 0.5°×0.5°. At the imaging end,the focal length varies from 1 400 mm to 3 500 mm, with F-numbers ranging from 5 to 12.5 and a field of view angle of 0.18° ×0.18° . At the detection end, 80% of the optical spot's encircled energy is concentrated within 17.4 μm. At the imaging end,the edge field MTF is 0.36,approaching the diffraction limit,while at the intermediate zoom position,MTF values range from 0.31 to 0.36,ensuring consistent image quality during the zooming process. This system integrates the detection and imaging systems into a single unit,achieving shared-aperture functionality. After conducting tolerance analysis on the system,it was observed that under relatively loose tolerances, MTF degradation in both the sagittal and tangential directions is minimal. Moreover, at an 80% probability,the optical spot diameter is smaller than 18.4 μm for each field of view,indicating that the system maintains excellent detection and imaging performance even under these relaxed tolerance conditions. The zoom cam curve is a critical design parameter for zoom systems,and in this system,the cam curves for both the zoom and compensator groups have an apex angle of less than 30°,meeting the design requirements. This system offers strong detection capabilities,excellent image quality,a compact overall length,and a minimal zoom cam curve apex angle. In terms of structure and design objectives,it provides valuable insights for the future development of continuous tracking integrated optical systems for the detection and imaging of targets. ? 2024 Chinese Optical Society. All rights reserved.
    Affiliations:(1) Space Optics Technology Lab, Xi'an Institute of Optics and Precision Mechanics of CAS, Xi'an; 710119, China; (2) University of Chinese Academy of Sciences, Beijing; 100049, China; (3) Shanghai Aerospace Control Technology Research Institute, Shanghai; 201109, China
    Publication Year:2024
    Volume:53
    Issue:1
    Article Number:0122001
    DOI Link:10.3788/gzxb20245301.0122001
    數(shù)據(jù)庫ID(收錄號):20240815570755
  • Record 404 of

    Title:A novel demodulation method of the channeled modulated polarization imaging pictures by hybrid feature modulated autoencoders
    Author Full Names:Zhang, Ning(1); Zhao, Mingfan(1,2); Zhang, Zhinan(1); Liu, Jie(1); Zhang, Yunyao(3); Li, Siyuan(1)
    Source Title:Optics Express
    Language:English
    Document Type:Journal article (JA)
    Abstract:Channeled modulated polarization imaging technology offers advantages owing to its simple structure and low cost. However, the loss of high-frequency information due to channel crosstalk and the filter demodulation method has consistently hindered the mature application of this technology. We analyzed the data structure of pictures detected using this technology and proposed a demodulation method using hybrid feature modulated autoencoders. Training the network with a substantial number of images, it effectively addresses the issue of high-frequency information loss and demonstrates proficient demodulation capabilities for both simulated and real detected pictures. ? 2024 Optica Publishing Group under the terms of the Optica Open Access Publishing Agreement.
    Affiliations:(1) Key Laboratory of Spectral Imaging Technology, Xi'an Institute of Optics and Precision Mechanics of CAS, Xi'an; 710119, China; (2) School of Integrated Circuits, Sun Yat-sen University, Shenzhen; 518107, China; (3) College of Information Science and Technology, Northwest University, Xi'an; 710126, China
    Publication Year:2024
    Volume:32
    Issue:18
    Start Page:31473-31484
    DOI Link:10.1364/OE.530310
    數(shù)據(jù)庫ID(收錄號):20243516970851
  • Record 405 of

    Title:The Active Alignment Technology for Off-axis Three-mirror Optical system
    Author Full Names:Lei, Yu(1,2); He, Tian(3); Ma, Caiwen(1,2); Li, Zhiguo(1,2)
    Source Title:Proceedings of SPIE - The International Society for Optical Engineering
    Language:English
    Document Type:Conference article (CA)
    Conference Title:Advanced Optical Manufacturing Technologies and Applications 2024, AOMTA 2024 and 4th International Forum of Young Scientists on Advanced Optical Manufacturing, YSAOM 2024
    Conference Date:July 5, 2024 - July 7, 2024
    Conference Location:Xi'an, China
    Conference Sponsor:Advanced Optical Manufacturing Youth Expert Committee, CSOE; Shanghai Engineering Research Center of Ultra-Precision Optical Manufacturing, Fudan University; University of Shanghai for Science and Technology; Xi'an Institute of Optics and Precision Mechanics of CAS; Xi'an Technological University
    Abstract:The off-axis three-mirror optical system is a typical class of off-axis systems. In order to ensure excellent imaging quality in the full field of view, the alignment process involves multiple components with multiple degrees of freedom which is difficult and challenging. This article focuses on the research of automatic adjustment technology for the off-axis three-mirror optical system. By quantitatively studying the relationship between component misalignment and aberrations, we aim to explore alignment method for this type of system, providing effective and reliable methods for active adjustment. The method studied in this paper has been verified on an off-axis three-mirror optical system, achieving a full-field RMS better than 0.05@632.8nm, reaching the diffraction limit. ? 2024 SPIE.
    Affiliations:(1) Xi'an Institute of Optics and Precision Mechanics, CAS, NO.17 Xinxi Road, Xi'an Hi-Tech Industrial Development Zone, Shaanxi, Xi'an; 710119, China; (2) University of Chinese Academy of Sciences, No.19(A) Yuquan Road, Shijingshan District, Beijing; 100049, China; (3) Xi'an University of Technology, Jinhua South Road No. 5, Beilin District, Shaanxi, Xi'an; 710048, China
    Publication Year:2024
    Volume:13280
    Article Number:132801H
    DOI Link:10.1117/12.3048315
    數(shù)據(jù)庫ID(收錄號):20244917482146
  • Record 406 of

    Title:Research on MRTD objective testing method based on machine learning
    Author Full Names:Ji, Ran(1,2); Xiao, Maosen(1); Li, Shuo(1,2); Liu, Yu(1,3); Luo, Zhanyi(1,3); Cheng, Jiawei(1,3)
    Source Title:Xi Tong Gong Cheng Yu Dian Zi Ji Shu/Systems Engineering and Electronics
    Language:Chinese
    Document Type:Journal article (JA)
    Abstract:The accelerated development of infrared imaging technology has put forward more stringent requirements for the objectivity and accuracy of the testing and evaluation of infrared imaging systems. Aiming at the current problems of test subjectivity and operational complexity of the minimum resolvable temperature difference (MRTD) of infrared imaging systems, two MRTD objective test methods based on support vector machine (SVM) and convolutional neural network (CNN) are proposed. By introducing the data enhancement technique, the overfitting caused by the small training samples and the complex network hierarchy is avoided. The experimental results show that compared with the actual personnel's judgment of the data, the MRTD test using the SVM method has a recognition accuracy of 94. 50% and a training time of 8. 22 s. while the CNN method has an average accuracy of 99. 07% in three training sessions, and a training time of 487. 48 s for 100 iterations. The SVM method has better real-time performance and the CNN method is characterized by high accuracy. The experimental result verifies that these two objective test methods of MRTD provide a tool for quantification and evaluation of infrared thermal imaging system performance indicators research. ? 2024 Chinese Institute of Electronics. All rights reserved.
    Affiliations:(1) Xi'An Institute of Optics and Precision Mechanics, Chinese Academy of Sciences, Xi'an; 710119, China; (2) School of Optoelectronics, University of Chinese Academy of Sciences, Beijing; 100049, China; (3) School of Physics and Information Technology, Shaanxi Normal University, Xi'an; 710119, China
    Publication Year:2024
    Volume:46
    Issue:10
    Start Page:3265-3270
    DOI Link:10.12305/j.issn.1001-506X.2024.10.03
    數(shù)據(jù)庫ID(收錄號):20244517309578
  • Record 407 of

    Title:A semi-supervised cross-modal memory bank for cross-modal retrieval
    Author Full Names:Huang, Yingying(1,2,3); Hu, Bingliang(3); Zhang, Yipeng(1,2,3); Gao, Chi(1,2,3); Wang, Quan(1,3)
    Source Title:Neurocomputing
    Language:English
    Document Type:Journal article (JA)
    Abstract:The core of semi-supervised cross-modal retrieval tasks lies in leveraging limited supervised information to measure the similarity between cross-modal data. Current approaches assume an association between unlabelled data and pre-defined k-nearest neighbour data, relying on classifier performance for this selection. With diminishing labelled data, classifier performance weakens, resulting in erroneous associations among unlabelled instances. Moreover, the lack of interpretability in class probabilities of unlabelled data hinders classifier learning. Thus, this paper focuses on learning pseudo-labels for unlabelled data, providing pseudo-supervision to aid classifier learning. Specifically, a cross-modal memory bank is proposed, dynamically storing feature representations in a common space and class probability representations in a label space for each cross-modal data. Pseudo-labels are derived by computing feature representation similarity and adjusting class probabilities. During this process, imposing constraints on the classification loss between labelled data and contrastive losses between paired cross-modal data is a prerequisite for the successful learning of pseudo-labels. This procedure significantly contributes to enhancing the credibility of these pseudo-labels. Empirical findings demonstrate that using only 10% labelled data, compared to prevailing semi-supervised techniques, this method achieves improvements of 2.6%, 1.8%, and 4.9% in MAP@50 on the Wikipedia, NUS-WIDE, and MS-COCO datasets, respectively. ? 2024
    Affiliations:(1) Key Laboratory of Spectral Imaging Technology, Xi'an Institute of Optics and Precision Mechanics, Chinese Academy of Sciences, Shaanxi, Xi'an; 710119, China; (2) University of Chinese Academy of Sciences, Beijing; 100049, China; (3) Key laboratory of Biomedical Spectroscopy, Shaanxi, Xi'an; 710119, China
    Publication Year:2024
    Volume:579
    Article Number:127430
    DOI Link:10.1016/j.neucom.2024.127430
    數(shù)據(jù)庫ID(收錄號):20241015679996
  • Record 408 of

    Title:Effective correction of dissolved organic carbon interference in nitrate detection using ultraviolet spectroscopy combined with the equivalent concentration offset method
    Author Full Names:Dong, Jing(1,2); Tang, Junwu(1,3); Wu, Guojun(1,3); Xin, Yu(4); Li, Ruizhuo(1,2); Li, Yahui(3)
    Source Title:RSC Advances
    Language:English
    Document Type:Journal article (JA)
    Abstract:Nitrate contamination in water sources poses a substantial environmental and health risk. However, accurate detection of nitrate in water, particularly in the presence of dissolved organic carbon (DOC) interference, remains a significant analytical challenge. This study investigates a novel approach for the reliable detection of nitrate in water samples with varying levels of DOC interference based on the equivalent concentration offset method. The characteristic wavelengths of DOC were determined based on the first-order derivatives, and a nitrate concentration prediction model based on partial least squares (PLS) was established using the absorption spectra of nitrate solutions. Subsequently, the absorption spectra of the nitrate solutions were subtracted from that of the nitrate-DOC mixed solutions to obtain the difference spectra. These difference spectra were introduced into the nitrate prediction model to calculate the equivalent concentration offset values caused by DOC. Finally, a DOC interference correction model was established based on a binary linear regression between the absorbances at the DOC characteristic wavelengths and the DOC-induced equivalent concentration offset values of nitrate. Additionally, a modeling wavelength selection algorithm based on a sliding window was proposed to ensure the accuracy of the nitrate concentration prediction model and the equivalent concentration offset model. The experimental results demonstrated that by correcting the DOC-induced offsets, the relative error of nitrate prediction was reduced from 94.44% to 3.36%, and the root mean square error of prediction was reduced from 1.6108 mg L?1 to 0.1037 mg L?1, which is a significant correction effect. The proposed method applied to predict nitrate concentrations in samples from two different water sources shows a certain degree of comparability with the standard method. It proves that this method can effectively correct the deviations in nitrate measurements caused by DOC and improve the accuracy of nitrate measurement. ? 2024 The Royal Society of Chemistry.
    Affiliations:(1) Xi'an Institute of Optics and Precision Mechanics, Chinese Academy of Sciences, Xi'an; 710119, China; (2) University of Chinese Academy of Sciences, Beijing; 100049, China; (3) Laoshan Laboratory, Qingdao; 266237, China; (4) Ocean University of China, Qingdao; 266100, China
    Publication Year:2024
    Volume:14
    Issue:8
    Start Page:5370-5379
    DOI Link:10.1039/d3ra08000e
    數(shù)據(jù)庫ID(收錄號):20240815567105
99人妻碰碰碰久久久久视| 思思99久久| 婷婷丁香激情五月天色色色| 中文字幕有多少字| 婷婷婷婷午夜| 精品婷婷五| 成人婷婷深爱综合网| 亚洲精品国产成人AV在线| 99热乎| 中文字幕人妻熟女在线| 丁香婷婷五月份| 色色色色色日韩午夜激情 | 久久婷婷免费| 99热网精品| 激情五月天婷婷免费观看| www.av骚货| 亚洲免费婷婷| 日日夜夜干| 婷婷五月色花丁香社区| 色五月综合婷婷久久综合婷婷久久综合婷婷久久综合婷婷久久 | 日本99热| 狠狠爱婷婷丁香| 综合丁香婷婷五月天| 色综合激情| 99熟女视频| 色伦专区97中文字幕| 99艹精品在线观看| www.亚洲激情| 丁香五月AV| 任我鲁这里有精品视频| 色偷偷狠狠| 五月婷婷六月天| 九九99热| 榴莲视频下载| 欧洲-级毛片内射| 操日本色| 五月天狠狠干| 婷婷午夜天| 97婷婷五月丁香| 亚洲精品国产成人AV在线| 五月丁激情| 亚洲热久久| 五月天国产婷婷精品视频在线| 国产成人片| 久草a片| 色五月丁香六月婷婷| 丁香六月色婷婷| 这里只有精品视频| 9191avse| 五月婷婷六月丁香色| 亚洲中文字幕国产综合| 丁香婷婷六月激情文学| 怡春院| 国内精品免费一区二区2009| 九九九午夜影院成人| 狠狠搞狠狠操| 婷婷伊人久久| 五月婷婷九| 影音先锋91网站在线观看| 大香蕉久艹| www,天天干| 一区三区三区不卡| 成人va在线观看视频| 91操熟女| www.婷婷五月天.com| 婷婷情色五月天| 中文不卡av| 亚洲丁香网| 天天爱天天爽| 爱草视频在线| 亚洲日本一区二区一本一道| 久久这里有精品99| 99亚洲精品| 久久久人人人妻丝丝丝| 99热99艹在线观看| 日日爽日日| ww超碰在线| 综合色色婷婷| 黄色99热| 五月丁香六月激情视频| 精品操逼一区二区| 日韩色久| 成人天天爽| 久久99国产综合精品免费| 婷婷五六日| 婷婷五月天开心网| 丁香五月丁香伊人| 五月丁香六月| 停婷丁五月在线| 超碰电影在线播放| 精品一二三区久久AAA片| 丁香五月亚洲激情婷婷射| 操九色| 色婷婷综合影院| 丁香六月激情国产| 色丁香久久| 99re6在线视频精品免费| 另类小说五月天综合| 99热每日| av在线免费播放| 99久在线精品99re8热| 99久久精品色老| 欧美激情综合色综合啪啪五月| 91视频免费后入强操| 国产激情av| 99精品在线播放| 午夜激情综合| 日本99在线| AVDV久久| 成人网站在线观看视频| 97精品综合| 丁香五月激情啪啪| 五月丁香六月婷婷综合在线| 五月丁香综合激情| 婷婷五月永远18免费久久久| 久久久GOGO无码啪啪艺术| 亚韩在线视频| 色综合久久久无码中文字幕999| 裸体美女丁香五月天。| 人人干天天舔| 欧美日本高清视频99| 婷婷噜噜| 二级黄色毛片| 久久久爱毛片一区二区三区| 超碰不卡在线| 激情丁香五月婷| 99re在线播放| 婷婷的色色五月天| 777精品成人a v久久| 狠狠五月激情丁香六月| 综合久久五月| 夜夜 操无码| 日韩AV片无码一区二区三区不卡| 最近在线更新8中文字幕免费| 精品久热69| 欧美精品一区二区三区四区 | 婷婷五月天涩涩| 99色婷婷视频| 亚洲综合网激情五月天| 色综合视频在线| 大香蕉啪啪网| 色色色99| 91精品久| 亚洲视频一区| 翔田千里无码| 蜜桃视频在线观看免费播放| 五月天狠狠网站| 人操综合| 日韩一区二区三区免费视频| 国产成人网站在线观看| 五月天亭亭俺也| 人人爱天天摸摸天天爱| 中文字幕精品推荐免费在线观| 丁香五月Av| 99久久6| 丁香五月婷婷久久久| 成人综合视频网址| 国产精品涩涩涩视频网站| 都市激情五月婷婷亚洲| 99热精品在线播放| 97电影99热| 久久综合五月情| 成人午夜天| 欧美性爱一区| 久久五月天婷婷| AV动漫不卡无码免费| 国内精品视频在线播放一区| 夜夜夜夜夜操| Www,五月天| www.91久久| 真实熟女-91九色| 婷婷六月激情| 免费国产视频| 殴美综合激情五月天免费视频| www.久久| 五月婷婷色白丝| 亚洲激情综| 亚洲AV色婷婷人禽五月天| 成人一级片| 精品人妻午夜一区二区三区四区| 久久激情五月婷婷| 激情丁香五月天图片| 亭亭色天香| 五月婷婷干干干| 啪啪夜久久| 无码一区二区三区四区五区91c| 99国产精品久久久久久久久久久| 五月草影视| 在线婷婷| 大香蕉五月天婷婷| 91九色国产在线| 性爱五月婷| 亚洲成人综合在线| 久久婷婷热| 国产avapp 网| 色你久久| 国产又黄又爽又色的免费| 天天久久综合| 欧美五月丁香| 色综合xx| 天天操夜夜玩!| 另类图片五月天婷婷| 天天噜天天插| 亚洲 25P| 成人在线精品| 99这里有精品视频3| 丁香五月激情宗合网| 丁香六月婷婷综合激情欧美| 伊人成人宗合网| 色色狼人综合| 色人久久| 伦乱美欧| 免费观看的AV| 五月婷婷在线综合| 99这里热| 爱射综合| 青青免费视频观看在线视频| 成人.在线日韩| 日韩黄色影院| 亚洲无码免费看| av一区二区电影免费在线观看| 狠狠色婷| 亚洲人操亚洲人| 韩国不卡AC视频| 日日夜夜国产| 日韩三级视频一区二区| 人人操人人爰人人一天天碰夜夜拍夜夜爽-中国A级毛片天天看天天谢… | 色婷婷中文| 无码一区二区三区亚洲人妻| 伊人婷婷大香蕉在线| 亚洲精品无AMM毛片| 青青青视频免费线看| 99久久精品免费精品国产_国产精品久久久久久_国产在线|日韩_久久国产精品电影 | 色五狠狠| 色99自拍| 91青青青青青爽在线| 99色色| 婷婷综合玖玖五月| 六月丁香大香蕉| 思思久久网| 九九亚洲小视频| 99re这里| 性爱综合网| 伊人碰碰碰| 国外亚洲成AV人片在线观看| 这里只有精品96| 伊人久久大香线蕉综合网站| 亚洲综合在线伊人婷| 天天噪夜夜爽| 五月天激情视频| 婷婷无码五月天| 99热精品中文字幕| 婷婷开心激情| 色爱爱综合网| 久久五月天精品视频| 久色五月| 欧美va在线| 操操操B| 色五月婷婷青娱乐| 久久多色| 人人看人人草人人摸| 亚洲激情综合| 成人精品视频99在线观看免费| 亚洲精品第一国产综合亚AV| 色综合色综合网| 五月噜噜| 久久综合性| 先锋影音av色五月天资源站| 97视频久久| 天天日天天添| 婷婷婷婷婷婷婷五月丁香| 91精品无码| 这里有精品| 日韩啪| 九九久久这里只有精品XB| 66色在线日韩| 丁香六月婷婷久久综合| 99在线69| 五月色影院| 国产毛片精品一区二区色欲黄A片| 99ri网站在线观看| 狠狠色丁香五月婷巨| 日韩视频99| 内射人妻视频国内| enecarbon-materials.comWu染请涟系Bao护@wip1688 | 人妻肉射免费观看| 五月丁香综合| 欧美婷婷丁香五月| 天天爽天天爽夜夜爽| 国产操碰| www91久久| 国产67194| 思思国产99| 激情开心五月天| 久久丁香婷婷五月| 婷婷激情五月天在线| 久久丁香五月| 色色色热热热| 玖玖婷婷色| 激情丁香五月激情婷婷| 天天干夜晚夜操| 丁香九月激情久久| 五月天激情啪啪| 全部老头和老太XXXXX| 2016日日夜夜操| 五月婷婷丁香在线视频| 久久性爱视频| 婷婷色在线视频| 丁香色五月婷婷17C| 九九热在线视频观看| 99精品网站| 亚州色婷婷| 五月综合激情网| 亚洲性爱AV在线| 九九家庭影院| 夜夜爱网站| 91九色 婷婷| 天天爽天天爽视频| av网站免费在线| 激情5月婷婷狠狠干| 久久婷五月婷| 99热大香蕉| 亚洲激情另类| 久久全色| 天天干天干| 五月婷婷黄色网址| 五月婷婷黄色视频| 久热伊人| 五月丁香六月婷婷综合网| 99色精品| 7月婷婷六月丁香| 97色片| 99九九中文字幕视频| 五月婷婷片| 第四色色色色色丁香五月天| 丁香婷婷在线| 五月久久丁香| 久久九九热视频| 麻豆忘忧草午夜| 亚洲A色| 婷婷久久色五月婷婷久久久| 婷婷射图五月天| 五月激情天| 春色激情第四色| 99精品免费久久久久久久久日本 | 九艹在线| 色v综合网| 一级二级香港秋霞欧美欧美秋霞| 99热老网站| 久草a片| 精品久久久人妻| 亚洲九九婷婷| 狠狠色丁香婷婷综合| 久婷自拍视频| 激情爱爱网站| 丁香婷婷大香蕉| 婷婷久久综合久| 91精品91久久久中77777| 久久久www| 成人看片网站| 99国产精品白浆在线观看免费| 色婷婷五月天激情久久| 婷婷五月激情黄色| VA国产在线综合网站| 亚洲色无码A片一区二区麻豆| 在线视频色五月| 六月婷婷五月丁香| 欧美视频在线观看噜噜| 丁香影院五月综合| 深闺禁伦强HNP| 久久婷婷五月天蜜桃| 香蕉综合网| 五月婷婷色播视频| 99热免费| 99热免费在线| 91超碰在线观看| 久热这里只有精品6| 四色 爱 婷婷 精品 亚洲 五月天| 99精品在线观看| 激情五月天伊人影院| 极品另类| 亚洲妇女熟BBW| 日韩AV色色色| 可以看的av| 男女啪啪做爰高潮无遮挡| 丁香六月狠狠干| 波多婷婷久久| 亚洲乱码在线观看| 日比视频91| 操一操插一插| 99久在线精品99re5热视频| 99热最新精品| 4438国产免费看| 综合久久97| 综合激情五月综合激情五月激情1| 丁香情色五月| 久久婷婷五月天激情四射| 无码九九| 色色色1网址| 久热人妻| 嫩草AV久久伊人妇女超级a| 五月丁了香蕉综合| 久久精彩视频| 淑女丝袜bi操逼123| 久久HD| 97久久视频| 综合久久伊人| 色播五月天激情| 婷婷五月在线免费| 91 久热| 玖玖色综合网| 五月天玖玖狠狠色色| 十区AV| 99热久久这里只有精品| 欧美性爱五月天| 五月天色播网| 久久思思99| 亚洲情综合五月天| 欧美性色视频| 色婷婷五月天激情综合| 久久婷婷色综合| www.婷婷| 婷婷精品| 亚洲综合网激情小说| 婷婷五月精品中文| 婷婷婷久久久| 瀚〣BB妲BBB妲BBB| 国产亚洲精品久久久久苍井松| 色婷亚洲| 五月天五月色婷婷综合| 伊人三级激情| 五月婷婷无码| 国产激情久久久| 久色资源网| 这里只有精品免费在线视频| 精品操逼一区二区| 国产黄色在线| 婷婷色五月天在线| 丁香花在线电影小说| 免费试看小视频 99| 久久xxxx| 射琪琪| 丁香久久在线| 丰满少妇猛烈A片免费看观看| 蜜臀99精品| 天天日天天做天天操| 精品久色| 激情床戏| 亚洲色图81p| 丁香五月婷婷图片综合| 欧洲色区| 五月激情六月综合| 婷婷色啪| 99热这里是精品| 久色网五月| 在线视频色五月| 五月丁香六月成人| 五月天婷婷激情在线色图| 婷婷中合| 日本熟妇人妻另类无码| 婷婷操婷婷干婷婷射| 久久性刺激| Caoub青青超碰| 九九热视频在线观看| 丁香在线视频| 超碰在线91| 色久影院| 五月天社区婷婷丁香社区| 婷婷丁香激情综合色情| 五月丁香色婷婷综合| www.狠狠操.com| 99热免费网站| 天天开心天天色| 翔田千里 50岁 无码| 色五月欧美| 激情丁香五月天图片| 中文字幕丰满乱孑伦无码专区 | 99热这里只有精品首页| 丁香五月天网站| 激情五月综合网| 国产激情综合五月久久| 五月婷婷六月丁香免费| AA丁香综合激情| 日韩一级A片黄色| 中文字幕AV网址| www。五月,com| 九九热在线精品视频| 少妇高潮A片无套内谢麻豆传| 妻久久人久久| 五月丁香婷婷AV| 五月天另类视频| 天天干 夜夜爽| 国产丁香五月天婷婷| 丁香激情五月天| 久久丁香综合香蕉| 啪啪视频99| 欧美成综合在线观看| 丁香六月亚洲| 草榴视频网| 亚洲天堂啪啪| 思思99热这里只有精品| 99这里的视频都是精品| 三十路磁力链接| 婷婷丁香五月,狠狠综合| 五月丁香六月婷婷亚洲视频| 五月丁香五月婷婷在线观看| 九九热在线精品| 1024操逼视频| 亚洲热久久| 久久人妻熟女一区二区| 精品 在线 视频 亚洲| aV直接看| 婷婷干六月综合旧址| 亚洲自拍天堂| 玖玖在线视频福利| 中文字幕丁香五月| 五月丁香六月婷婷开心网| 亚洲一级在线| 色色婷婷综合| 影音先锋五月天婷婷丁香在线观看| 国产色色色色色| 色婷婷综合影院| 日本久久精品| 五月花婷婷最新| 第四色首页| 亚洲综合另类| 少妇水多A片太爽了| 久久A极片| 91精品综合久久久久久五月天| 99超级碰碰| 噜综合| 五月婷婷婷婷婷| 狠狠色大香蕉| 亚洲12p| 久综合九综合99| 9久国产| 免费色色色| 天天碰夜夜爽| 香蕉综合网| 国产高清av黄色看片| 久婷自拍视频| 婷婷色五月噜噜| 久热视频这里只有精品| 婷婷丁香五月麻豆| 99热免费| 婷婷激情九月| 婷婷五月天熟妇| www.日本91| 国产乱人偷精品人妻A片| 日本性视频| 日韩不卡DvD| 六月色色婷婷| 91综合国免费久入| 天堂美国久久| 亚洲sesesese| 婷婷五月天狠狠| 天天干天天干天天操| 日日夜夜亚洲一区| 色色色色热热| 丁香六月久久| 免费无码毛片一区二区A片| 卡视频1区2区| 狠狠色丁香99| 色婷婷激情| 色色网站毛片| 九九热a| 丁香五月激情在线| 日日躁夜夜躁狠狠久久AV| 2015WWW永久免费观看播放| 五月天免费色| 99碰碰视频| 五月婷婷 婷婷五月 一区二区 久久久| 日本三级中国三级99| 天天色综合综合| 亚洲中文乱字字幕在线永久| www,久久久人人| 丁香婷五月天| 伊人超碰| 97人人干。| 国产精典视频在线观看| 亚洲色婷婷五月| 久久久久人妻| 五月婷婷影| 丁香五月五婷| 五月丁香六月情| 在线欧美一区| 91精品国产91久久久久青草| 五月丁香六月激情欧美综合| 亚洲久久无码中文字幕| 97色婷| 成人做爰黄AAA片免费看少妃| 五月婷婷无码| 欧美在线骚货| 久久婷婷五月天懂色| 91综合色噜噜| 天天综合网网欲色| 开心五月婷婷| 婷婷五月天国产手机在线视频观看| 婷婷九月激情| 狠狠色网| 五月激情六月宗合| www,婷婷,com| 天天操天天操综合| 免费视频无码| 婷婷操逼| www.精品99| 97干婷婷| 色色色99| 久碰久| 婷婷丁香五月亚洲综合网在线视频观看| 青青久在线视频免费观看| 狠狠操狠狠爱| 日本综合久久| 五月丁香啪综合| 女人天堂AV| 超碰色人妾| 激情五月六月婷婷| 三日本无码| 这里只有精彩亚洲视频推荐| 99riav 亚洲| 就爱操www com| 麻豆AV一区二区三区| 天天操天天爱天天日| 99热网站| 婷婷丁香在线| 色综合色色色| 五月丁香六月色婷婷综合五月天| 五月色网| 国产成人网址| 五月婷婷之综合激情| 99操99| 性爱视频99| 99色视频| 国产精品久久久久久久久久| 亚洲婷婷丁香五月在线| 午夜不卡久久精品无码免费| 五月天天天综合| 久久精品99国产精品日本| 色情五月丁香婷婷网| 最近中文字幕2019视频1| 色情·com| 欧美成人AAA片一区国产精品| 99这里只有免费的小视频在线观看| 天天爱综合网| 九九青草热| 午夜激情婷婷| jiqingtaose五月天| 日本狠狠色| 九九热只有这里是精品| www.超碰| 天天碰夜夜爽| 人妻激情视频| 国产激情久久久| 六月丁婷婷| 丁香六月啪啪| 天天日天天爱天天噪| 国产操逼网站| 手机旧版看人妻1025| 丁香五月另类色婷婷麻豆| 色综合久| 97激情五月天| 精品99*| 日日干天天| 五月婷在线影院| 久久怕怕视频| 色综合久久伊伊婷婷五月| 97操资源婷婷| 国产熟人AV一二三区| 人人操AV| 国产二区自拍| 成人丁香五月天| 天堂久久婷婷| 精品亚洲国产成AV人片传媒| 婷婷五月天激情小说网站| 久久蜜臀婷婷| 日韩狠狠色| 成人羞羞啪啪 全 视频| 五月天婷婷婷| A片试看120分钟做受视频红杏| 粉嫩av蜜桃av蜜臀av| 成人国产欧美大片一区| 五月天五月天成人网亭亭成人色网站| WWW99视频| 人妻aV在线| 免费看无码视频A级| 天天精品视频免费观看| 天天综合色丁香| 久久婷婷五月天激情| 色三级色三级| 国产成人精品一区二三区熟女在线| 99久久婷婷五月天| 9l视频自拍九色9l视频在线观看| 热99在线| 色99热| 色婷婷亚洲| 久久草婷婷丁香网站| 91精品激情9| AA爱做片免费| www.91.com处女在线直播| 久久44| 99精品自拍视频| WWW激情五月天| 久久久jd| 亚洲精品视频在线| 日本九九视频| 六月丁香五月激情网| 2015WWW永久免费观看播放| 婷婷五月天社区| se影音资源在线观看| 六月丁香花婷婷| av一区二区电影免费在线观看| 五月婷婷啪| 激情六月一二| 五月婷婷黄色| 日本人妻操| 无码AV免费精品一区二区三区| 色噜噜狠狠色综合日日| 成人婷婷桔色| 丁香五月天狠狠操| 草草女人亚洲| 超碰在线成人| 婷婷综合精品视频97| 国产中文亚洲欧美日韩性交| 丁香五月婷婷综合激情啪啪啪啪啪啪啪| 激情六月综合| 久热只有精品| 黄涩毛片| 五月婷婷丁香| 久久丁香九| 日韩精品一区二区亚洲AV观看 | 久久99热免费最新版| 激情五月天在线| 成人精品人妻| 亚洲成人av中文| 公的粗大挺进了我的密道| 射狠狠| 久噜久噜| 丁香五月婷婷婷婷欧美综合| 狠狠色噜噜狠狠| 久久婷综| 专区无日本视频高清8| 先锋资源婷婷| 激情五月婷婷丁香综合网| 干亚洲天堂| 色色丁香婷婷综合| 欧美色色日韩| 丁香五月天大香蕉啪啪| 无码少妇高潮喷水A片免费| 97在线/亚洲| 天天做天天爱天天爽综合网| sewuyue第四色| 丁香六月婷月91婷月| 色五月婷婷综合在线| 91人人人人人人人| 涩涩五月天| 色噜噜狠狠色综无码久久合欧美 | 免费观看日韩成人av| 婷婷啪啪| 亚洲视频在线观看| 五月天社区| 亚洲色夜| 人人操AV| 五月丁香六月综合基地| 五月丁香色婷婷基地| 思思热久在线观看视频| 色综合久久久久| 日韩在线视频网站| 婷婷综合影院| 五月天基地| 超级碰碰99| 激情五月四色| 五月日韩中文字幕| 精品国产乱码久久久久久夜深人妻| 亚洲天天| 大香蕉伊人久久| 99激情在线| 激情人妻综合| 五月开心播播网| 婷婷伊人网| 色五月婷婷激情| 精品色色色| 婷婷五月天激情影片| 婷婷激情区| 亚洲五月综合色播| 色综合久久天天综合网| 五月婷婷少妇之| 开心五月丁香综合久久| 亚色网站小视频| 亚洲天堂亚洲色色色| 五月天开心激情网色欲无码| 欧美久草在线日本一级特黄大片做受9在线观看韩国电影《两个女人》未删减-毛片 | 成人久久天天x资源站| 久久网站观看免费欧洲国产| 六月丁香视频网站| 99re这里只有精品免费| 久久6这里只有精品| 丁香狠狠| sewuyuejiqingwang| 亚洲综合婷婷五月| AAA亚洲AV| 婷婷五月花丁香| 亚洲操B| 欧美成人精品A片免费一区99| a在线观看| 性高潮久久久久久-九九九九九九九九九九热-成人AV | 五月婷婷色白丝| 亚洲成人九九九| 色九亚洲| 五月婷婷啪啪| 日日干日日色| 狠狠999| 夜夜操天天爽| 欧美丁香婷婷五月| 婷婷色五月开心五月| 久久综合干| 色婷婷电影网| 亚洲高清自拍| 免费色婷婷| 大香蕉七区| 色六月婷婷| 久久婷婷六月| 婷婷基地五月色| 青草激情综合| 日本99在线视频| 五月天综合久久| 亚洲视频一| 色色色色色九九九九九| 人人爽欧美婷婷久久久五月丁香| 亚洲情色一区| 人人爱干人人爱草| 欧美综合激情五月| 色色色色色网| 丁香五月婷婷啪啪| 久久免费看少妇高潮A片麻豆| www.seqingwuyuetian| 久久五月天丁香花| 婷婷九九| 五月色丁香国产在线视频| 丁香九月综合| 97人人超| 五月色欧洲| 婷婷五月天在线综合| 噜噜狠狠色综合久| 色婷婷激情| 黃色三级三级三级三级 qixing300.shrkbk.com www.jinbozs.com tianmiaosw.com | 最近中文字幕2019视频1| 国产一级视频a| 亚洲AV无码一区二| 久久婷婷激情五月天一区二区| 丁香五月人妻熟女| 秋葵视频网站| 香蕉人在线香蕉人在线 | 婷婷五月丁香国产| 99碰碰视频| 激情网第四色| 婷婷色综合| 全部老头和老太XXXXX| 抽插特写| 在线播放中文字幕| 五月丁香青草综合啪啪| 极品另类| 亚洲一区在线播放| 18久久| 综合在线网| 天天婷婷| 免费观看欧美成人AA片爱我多深| 久久99网| 6月丁香婷婷| 亚洲视频伍月婷婷| 婷婷色色五月| 色婷婷播放| 色六月丁香婷婷啪啪啪| 婷婷久久亚洲| 天天操天天操天天操天天操天天操| 久久99人人| 啪啪一区| 狠狠色综合网站久久久久| 亚洲精品大片| 丁香五月婷婷影院| 丁香六月狠狠| 激情五月天网站| 国产日本精品视频在线观看| 人人性久久| 婷婷成人小说综合| 99色视频| 丁香天堂夜| 襙比视频| 综合五月婷婷| www.久操| 插插干干干色| AAA久久| 色噜婷婷| 色五月激情五月丁香五月婷婷啪啪综合| 大地资源中文在线观看免费| 日本色色网| 婷婷丁香久久| 五月丁香亭亭| 五月久久综合| 丁香五月天色综合| 色婷婷888| 墨西哥毛片内射精| 伊人五月久久| 综合色五月| 一本色道久久综合狠狠躁小说| 秋霞电影理论| 色播五月网| 五月婷婷深深爱| 久久婷婷六月综合| 久久综合九九| 激情综合五月激情17| 激情图片婷婷| 亚洲无码免费看| 噜噜噜噜在线| 婷婷五月花| www.色99| 色色色色色色色色色色色色色97| 第九色区AV在线| 亚洲欧洲自拍图片专区五月天| 性一交一乱一交A片久久四色| 亚洲成Av人片乱码色第1集| 五月天婷婷视频30| 色综合99无码| 97碰精品| 五月人人丁香婷婷五月人人丁香| 五月天AV大香蕉| 另类国产综合| 成人无码髙潮喷水A片| 一逼色综合| 女主播扒开屁股给粉丝看尿口| 婷婷激情五月天桃花网| 五月丁香九九九综合| 国产午夜精品一区二区三区四区| www.99热| 另类图片色五月| 色婷婷综合综合网| 欧美性爱五月天| 91综合色噜噜| 狠狠干综合网| www.com久久久久久久久久久久久久久久久| 九九综合久久丁香婷婷,开心激情综合网| 亚洲综合色色| 成人电影在线免费试看| 五月天综合网| 久久九⑨| 五月丁香偷拍| 九九超日本| 玖玖热视频| av电影在线播放| 日日爽日日| 极品五月天| 色色色成人网| 日韩三级视频一区二区| 婷婷五月天激情综合深爱激情| 色婷婷成人色网| 六月丁香激情婷婷| 性爱网五月婷婷| 婷婷激情五月综合丁香社| 亚洲深喉aV| 免费观看的AV| 丁香六月天婷婷色| 丁香五月综合在线观看| 五月婷无码| 欧美va在线| 久久久九九视频精品18| 四月婷婷丁香五月| av成人在线播放| www.久久综合| 五月婷婷六月丁香综合| 婷婷久草| 婷婷五月激情六月丁香 | 午夜少妇在线观看视频| 夜夜骑日日操| 色欲AV亚洲精品一区二区| 九色视频这里只有精品| 丁香五月大香蕉在线99| 99热这里只有免费精品| 免费啪啪啪网站| 亚洲色无码A片中文字幕| 熟女网站久久| 六月婷婷色综合| 丁香五月色色色色| 亚洲精品大片| 久久A V无码视频| 亚洲蜜乳AV| 玖玖爱综合网| 永久思思热在线| 秋霞免费视频| www.av骚货| 五月天基地| 五月丁香久久综合| 欧美天天五月丁香免费观看 | 狠狠操综合| 婷婷99中文字幕| 九九热免费视频| 人人综合五月人人婷婷| 奇米影视777在线_在线观看午夜_h小视频在线观看_岛国大片 | 五月天欧美激情| 99人人干人人操| 五月丁香无码| 六月激情婷婷色| 婷婷中合| 成人做爰黄AAA片免费看少妃| 婷婷综合五月天| 婷婷成人基地| AV九九| 国产真实乱对白精彩| 久香草视频在线观看| 久久一伦| 无码激情| 天天日,夜夜爽| 婷婷中文网站| 欧美成人A片AAA片在线播放| 亚洲XX日本| 99热欧美精品| 六月婷婷中文字幕| 亭亭五月天黑人2014| 亚洲99在线| 日本乱子人伦在线视频| 五月丁香六月婷婷综合| 婷婷五月电影| 免费精品一区二区三区在线观看| 色婷婷社区| 五月丁香成人网| 亚洲激情四射色| 99九无网码| 激情五月综合ì香亚洲| 国产色视频网站2| 五月天综合在线| 操操操AV| 精品思思久久| 五月天久久小说| 色欲久久综合| 69色色视频| 丁香五月性| 91夫妻网站九色| 91久久久久久久久18| 婷婷开心激情综合五月天| 人妻久热| 91久久日日| 人人操插| 色婷婷色人人射| 婷婷色影院| 亚洲日比视频| 亚洲五月花| 五月婷婷中文字幕| 天天日日人| 日韩无码系列| 国产肥白大熟妇BBBB视频| 五月天婷婷小说| 五月丁香激情综合欧美| 九九这里是免费的视频5| 国产一区二区av免费| 色色免费网站| 五月天社区狠狠| 99色色热| 丁香 亚洲 久久| av操逼网| 五月天婷婷色综合| 日本色视| 婷婷六月天精品| 婷婷综合色| 久久婷婷大香蕉| 国产精品久久久久久52AVAV| 国产9色在线/日韩| www.色五月| 丁香五月天天| 超碰av天堂| 开心色色五月天综合| 色噜噜狠狠一区二区三区| 91精品久久久久、久五月天| 激情综合网,五月| 婷婷伊人久久| 九九九九无码| 91丨九色丨东北熟女| 五月天激情四射| 久久五月天综合| 亚洲综合婷婷五月天| 五月婷婷六月丁香免费| 99热狠狠操| 丁香六月综合| 国产 亚洲 中文在线 字幕| 婷婷五月天色色| 丁香九九九九| 成人亚洲精品| 亚洲综合婷婷| 婷婷色色播五月天| 操碰99| 亚洲婷婷综合视频| 五月天丁香六月综合| 色婷婷综合在线| 一二线视频 另类| 99精品综合| 99爽视频| 色播五月天激情| 色欲AV导航| 天天拍久久| 久久老码第一| 色情综合网| 国产精品99久久久久久猫咪| 免费成人中文字幕| 狠狠婷婷日韩| 先锋影音av色五月天资源站| 亚洲妇女熟BBW| 噜噜噜久久| 青青草激情网| 九九99在线免费在线观看视频| 9l视频自拍9l视频自拍九色学生|