3 November 2008 Using anomaly detection method and multi-temporal Radarsat images for short-term land use/land cover change detection
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Proceedings Volume 7144, Geoinformatics 2008 and Joint Conference on GIS and Built Environment: The Built Environment and Its Dynamics; 714403 (2008); doi: 10.1117/12.812668
Event: Geoinformatics 2008 and Joint Conference on GIS and Built Environment: Geo-Simulation and Virtual GIS Environments, 2008, Guangzhou, China
Abstract
Rapid urbanization took place in the Pearl River Delta of south China since 1980. Although drastic land use change took place in very short interval within this area, hardly any research has been done on this phenomenon for lacking of available data. Remote sensing is presently the most favorable observation method for land use and land cover change (LUCC) researches. While located in the south of China, the Pearl River Delta suffers from heavy cloud cover for more than half of the year. This makes real-time LUCC monitoring and change detection almost impossible with commonly used optical remote sensing data. In this paper, the orbital highest resolution SAR (Synthetic Aperture Radar) data - Fine Mode Radarsat data was used for trail of short-term land use change detection. Three scenes of repeat-pass Radarsat data was collected over the study area. Although repeat-pass Radarsat enable continuous land use monitoring under all weather condition, images acquired during different time are inevitably affected by seasonal land cover change and variable environmental status such as air humidity and raining. Besides, some significant observation bias might be induced because of the platform and sensor instability. All these variations and instability made short-term land use change detection quite a perplex problem. In this paper, short-term land use change caused by human activity was considered as abnormal phenomena in both spatial and temporal domain in time series images. And a Density-based Anomaly Detection (DBAD) algorithm was designed to detect abnormally changed land parcels in time series Radarsat images. Firstly, totally 3 scenes of fine mode Radarsat images were collected in the study area from January 1st to May 3rd, 2006. Simply stacked temporal images reveal apparent backscattering variation between the three scenes of images, which mainly owes to the fast vegetable growth during the observation period. Then image segmentation was done on the multi-temporal Radarsat images and object features including mean value of backscattering coefficient (Mean), minimal value of backscattering (Min), homogeneity of gray level co-occurrence matrix (GLCMhomo) and dissimilarity of gray level co-occurrence matrix (GLCMdis) were extracted basing on segmented image objects. After that change-vector was constructed for each land objects. In the third step DBAD algorithm was applied to the change vector dataset to detect anomaly change in the 3 scenes of images. Finally field surveying data plus manual interpretation were used for validation. Comparing with object-based image regression method, DBAD results in better accuracy. Besides, data validation also shows that DBAD have better accuracy in both under-constructed area and newly built up area (error lower than 12%). While for built up area and some mixed used area, it gains relatively lower accuracy than other land types (from 10% to 28.57%). To conclude, short-term land use change in time series images could be defined as spatial and temporal anomaly in remote sensing images. By extending traditional anomaly detection to spatial-temporal anomaly detection, land use change caused by human activity could be effectively detected during short time intervals. The algorithm DBAD focus only on the density of change vectors in feature space, which is independent of the amplitude and direction of change vectors. This enable DBAD effectively discriminate temporal image variation caused by observation system, environment or seasonal land cover change, especially in vegetation and cultivated area which changed remarkably during the observation period, from land use change caused by human activities. This helps to decrease the false alarming in short-term change detection.
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JunPing Qian, XiaoYue Chen, Xia Li, Anthony Gar-On Yeh, Bin Ai, "Using anomaly detection method and multi-temporal Radarsat images for short-term land use/land cover change detection", Proc. SPIE 7144, Geoinformatics 2008 and Joint Conference on GIS and Built Environment: The Built Environment and Its Dynamics, 714403 (3 November 2008); doi: 10.1117/12.812668; https://doi.org/10.1117/12.812668
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KEYWORDS
Agriculture

Image segmentation

Synthetic aperture radar

Backscatter

Remote sensing

Vegetation

Detection and tracking algorithms

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