RPC模型影像校正并行算法设计及优化  被引量:1

Design and optimization of parallel algorithm for RPC correction of satellite images

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作  者:张战伟 李增三 庞坤 Zhang Zhanwei;Li Zengsan;Pang Kun(Shandong Mingjia Survey and Mapping Co.,Ltd.,Zibo Shandong 255086,China)

机构地区:[1]山东明嘉勘察测绘有限公司,山东淄博255086

出  处:《山西建筑》2023年第17期173-176,共4页Shanxi Architecture

摘  要:随着遥感技术的发展,卫星遥感影像在环境监测、城市规划、灾害评估、气候变化、农业监测等多个领域的应用越来越广泛。为了应对大规模遥感数据处理带来的计算挑战,提出了基于GPU及多核CPU实现卫星遥感影像RPC几何校正的并行算法,并采用了多流优化、I/O优化、内存分配优化等策略。实验表明,与串行算法相比,GPU并行算法获得了22.9~71.5的计算加速比及2.4~32.4的综合加速比,多核CPU并行算法获得了5.4~5.7的计算加速比及2.1~5.0的综合加速比。With the development of remote sensing technology,satellite remote sensing images are increasingly used in many fields such as environmental monitoring,urban planning,disaster assessment,climate change,and agricultural monitoring.In order to cope with the computational challenges brought by large-scale remote sensing data processing,this paper proposes a parallel algorithm for RPC geometry correction of satellite remote sensing images based on GPU and multi-core CPU,and adopts strategies such as multi-stream optimization,I/O optimization and memory allocation optimization.Experiments show that compared with the serial algorithm,the GPU parallel algorithm obtains a computational speedup ratio of 22.9~71.5 and a comprehensive speedup ratio of 2.4~32.4,and the multi-core CPU parallel algorithm obtains a computational speedup ratio of 5.4~5.7 and a comprehensive speedup ratio of 2.1~5.0.

关 键 词:遥感影像 RPC几何校正 GPU 多核CPU 并行算法 

分 类 号:TU198.7[建筑科学—建筑理论]

 

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