Your search keyword '"LI, FANGFANG"' showing total 9 results

1. BPG-Based Lossy Compression of Three-Channel Remote Sensing Images with Visual Quality Control.

Author

Li, Fangfang, Ieremeiev, Oleg, Lukin, Vladimir, and Egiazarian, Karen

Subjects

*REMOTE sensing, *OPTICAL images, *QUALITY control, *INTEGERS, *CLASSIFICATION

Abstract

A tendency to increase the number of acquired remote sensing images and to make their average size larger has been observed. To manage such data, compression is needed, and lossy compression is often preferable. Since lossy compression introduces distortions, this results in worse classification and object detection. Therefore, lossy compression must be controlled, i.e., the introduced distortions must be under a certain limit. The distortions and the limit can be characterized by different metrics (quantitative criteria). Here, we consider the case of using the HaarPSI metric, which has a very high correlation with visual quality and human attention (saliency map), for three-channel optical band images compressed by the better portable graphics (BPG) encoder, one of the best modern compression techniques. We analyze a two-step procedure of providing a desired visual quality and show its peculiarities for the modes 4:4:4, 4:2:2, and 4:2:0 of image compression. We show how the HaarPSI metric relates to other known metrics of image visual quality and thresholds of distortion visibility. It is demonstrated that the two-step procedure provides about three times better accuracy in providing the desired visual quality compared to the fixed setting of parameter Q that controls compression for the BPG encoder. The provided accuracy is close to the reachable limit determined by the integer value setting of the Q parameter. We also briefly analyze the influence of compression on the classification accuracy of real-life remote sensing data. [ABSTRACT FROM AUTHOR]

Published

2024

2. Semantic-Layout-Guided Image Synthesis for High-Quality Synthetic-Aperature Radar Detection Sample Generation

Author

Kuang, Yi, primary, Ma, Fei, additional, Li, Fangfang, additional, Liu, Yingbing, additional, and Zhang, Fan, additional

Published

2023

3. Individual High-Rise Building Extraction from Single High-Resolution SAR Image Based on Part Model.

Author

Liu, Ning, Li, Xinwu, Hong, Wen, Li, Fangfang, and Wu, Wenjin

Subjects

TALL buildings, SKYSCRAPERS, URBAN planning, EMERGENCY management, CITIES & towns, FACADES

Abstract

Building extraction plays an important role in urban information analysis, which is helpful for urban planning and disaster monitoring. With the improvement of SAR resolution, rich detailed information in urban areas is revealed, but the discretized features also pose challenges for object detection. This paper addresses the problem of individual high-rise building extraction based on single high-resolution SAR image. Different from previous methods that require building facades to be presented in specific appearances, the proposed method is suitable for extraction of various types of high-rise buildings. After analyzing the SAR images of many types of high-rise buildings, we establish a unified high-rise building part model, on the basis of a scattering mechanism of building structures, to describe the facade characteristics of high-rise buildings, including a facade regularity part, facade bright line part, double bounce part, and their spatial topological relationships. A three-level high-rise building extraction framework, named HRBE-PM, is proposed based on the high-rise building part model. At the pixel level, a modified spot filter is used to extract bright spots and bright lines of different scales simultaneously to obtain salient features. At the structure level, building parts are generated based on the salient features according to semantic information. At the object level, spatial topological information between parts is introduced to generate building hypotheses. We define two indicators, completeness and compactness, to comprehensively evaluate each building hypothesis and select the optimal ones. After postprocessing, the final high-rise building extraction results are obtained. Experiments on two TerraSAR-X images show that the high-rise building extraction precision rate of the HRBE-PM method is above 85.29%, the recall rate is above 82.95%, and the F1-score is above 0.87. The results indicate that the HRBE-PM method can accurately extract individual high-rise buildings higher than 24 m in most dense scenes, regardless of building types. [ABSTRACT FROM AUTHOR]

Published

2024

4. Multi-Rotor UAV-Borne PolInSAR Data Processing and Preliminary Analysis of Height Inversion in Urban Area

Author

Lv, Zexin, primary, Qiu, Xiaolan, additional, Cheng, Yao, additional, Shangguan, Songtao, additional, Li, Fangfang, additional, and Ding, Chibiao, additional

Published

2022

5. Quality Control for the BPG Lossy Compression of Three-Channel Remote Sensing Images

Author

Li, Fangfang, primary, Lukin, Vladimir, additional, Ieremeiev, Oleg, additional, and Okarma, Krzysztof, additional

Published

2022

6. Accurate Localization of Oil Tanks in Remote Sensing Images via FGMRST-Based CNN

Author

Jiang, Han, primary, Zhang, Yueting, additional, Guo, Jiayi, additional, Li, Fangfang, additional, Hu, Yuxin, additional, Lei, Bin, additional, and Ding, Chibiao, additional

Published

2021

7. Effects of Motion Compensation Residual Error and Polarization Distortion on UAV-Borne PolInSAR

Author

Lv, Zexin, primary, Li, Fangfang, additional, Qiu, Xiaolan, additional, and Ding, Chibiao, additional

Published

2021

8. Lossy Compression of Multichannel Remote Sensing Images with Quality Control

Author

Lukin, Vladimir, primary, Vasilyeva, Irina, additional, Krivenko, Sergey, additional, Li, Fangfang, additional, Abramov, Sergey, additional, Rubel, Oleksii, additional, Vozel, Benoit, additional, Chehdi, Kacem, additional, and Egiazarian, Karen, additional

Published

2020

9. Mapping Spartina alterniflora Biomass Using LiDAR and Hyperspectral Data

Author

Wang, Jing, primary, Liu, Zhengjun, additional, Yu, Haiying, additional, and Li, Fangfang, additional

Published

2017