Title :
Stream Model-Based Orthorectification in a GPU Cluster Environment
Author :
Zhen Lei ; Mi Wang ; Deren Li ; Lei, Ting L.
Author_Institution :
Lab. for Inf. Eng. in Surveying, Mapping & Remote Sensing, Wuhan Univ., Wuhan, China
Abstract :
One of the most important tasks in remote sensing data processing is the production of orthorectified images. Such tasks are computationally intensive and can become a bottleneck for remote sensing image processing, particularly in high-throughput environments, such as large satellite imagery processing centers. This letter explores the use of massive parallel processing graphical processing unit (GPU) in a clustered network environment to speed up image processing tasks, such as orthorectification. Our parallelization method is based on inverse sensor model and the stream model for image processing, which allow the flexibility of placing computational units on proper computation units, such as GPU, CPU cores, or nodes in a cluster. In our experiments on images of two satellites, more than 198 times and 50.3 times speedup over one and multiple thread CPU versions have been achieved, respectively.
Keywords :
geophysical image processing; graphics processing units; image sensors; pattern clustering; remote sensing; GPU cluster environment; cluster node; inverse sensor model; multiple thread CPU core version; orthorectified image production; parallel processing graphical processing unit; parallelization method; remote sensing data processing; remote sensing image processing; satellite imagery processing center; stream model-based orthorectification; Central Processing Unit; Computational modeling; Data processing; Geometry; Graphics processing units; Remote sensing; Streaming media; Compute Unified Device Architecture (CUDA); inverse sensor model; orthorectification; stream model;
Journal_Title :
Geoscience and Remote Sensing Letters, IEEE
DOI :
10.1109/LGRS.2014.2320991
