Combined Geometric Positioning and Performance Analysis of Multi-Resolution Optical Imageries from Satellite and Aerial Platforms Based on Weighted RFM Bundle Adjustment

Song, Wenping; Liu, Shijie; Tong, Xiaohua; Niu, Changling; Ye, Zhen; Jin, Yanmin

doi:10.3390/rs13040620

Cited by 3 publications

(1 citation statement)

References 55 publications

(62 reference statements)

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“…Combined geometric positioning using images with different resolutions and imaging sensors is being increasingly widely utilized in practical engineering applications. In the contribution by Song et al [6] "Combined Geometric Positioning and Performance Analysis of Multi-Resolution Optical Imageries from Satellite and Aerial Platforms Based on Weighted RFM Bundle Adjustment", the authors attempt to perform a combined geometric positioning and performance analysis of multi-resolution optical images from satellite and aerial platforms based on a weighted rational function model (RFM) bundle adjustment without using ground control points (GCPs). Firstly, the authors introduced an integrated image matching method combining least squares and phase correlation.…”

mentioning

confidence: 99%

Editorial for the Special Issue “Advanced Artificial Intelligence and Deep Learning for Remote Sensing”

Jeon

2021

Remote Sensing

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mentioning

confidence: 99%

Editorial for the Special Issue “Advanced Artificial Intelligence and Deep Learning for Remote Sensing”

Jeon

2021

Remote Sensing

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Effect of Overlapping Degree and Distribution of High-Accuracy Images on Combined RFM-Based Geometric Positioning of Multi-Resolution Satellite Imagery

Song,

Liu,

Tong

et al. 2024

IGARSS 2024 - 2024 IEEE International Geoscience and Remote Sensing Symposium

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GPU-Accelerated PCG Method for the Block Adjustment of Large-Scale High-Resolution Optical Satellite Imagery Without GCPs

Tong

Liu

et al. 2023

photogramm eng remote sensing

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The precise geo-positioning of high-resolution satellite imagery (HRSI) without ground control points (GCPs) is an important and fundamental step in global mapping, three-dimensional modeling, and so on. In this paper, to improve the efficiency of large-scale bundle adjustment (BA), we propose a combined Preconditioned Conjugate Gradient (PCG) and Graphic Processing Unit (GPU) parallel computing approach for the BA of large-scale HRSI without GCPs. The proposed approach consists of three main components: 1) construction of a BA model without GCPs ; 2) reduction of memory consumption using the Compressed Sparse Row sparse matrix format; and 3) improvement of the computational efficiency by the use of the combined PCG and GPU parallel computing method. The experimental results showed that the proposed method: 1) consumes less memory consumption compared to the conventional full matrix format method; 2) demonstrates higher computational efficiency than the single-core, Ceres-solver and multi-core central processing unit computing methods, with 9.48, 6.82, and 3.05 times faster than the above three methods, respectively; 3) obtains comparable BA accuracy with the above three methods, with image residuals of about 0.9 pixels; and 4) is superior to the parallel bundle adjustment method in the reprojection error.

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Combined Geometric Positioning and Performance Analysis of Multi-Resolution Optical Imageries from Satellite and Aerial Platforms Based on Weighted RFM Bundle Adjustment

Cited by 3 publications

References 55 publications

Editorial for the Special Issue “Advanced Artificial Intelligence and Deep Learning for Remote Sensing”

Editorial for the Special Issue “Advanced Artificial Intelligence and Deep Learning for Remote Sensing”

Effect of Overlapping Degree and Distribution of High-Accuracy Images on Combined RFM-Based Geometric Positioning of Multi-Resolution Satellite Imagery

GPU-Accelerated PCG Method for the Block Adjustment of Large-Scale High-Resolution Optical Satellite Imagery Without GCPs

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