Exploring Digital Surface Models from Nine Different Sensors for Forest Monitoring and Change Detection

Digital surface models (DSMs) derived from spaceborne and airborne sensors enable the monitoring of the vertical structures for forests in large areas. Nevertheless, due to the lack of an objective performance assessment for this task, it is difficult to select the most appropriate data source for D...

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Bibliographic Details
Published in:Remote sensing (Basel, Switzerland) Switzerland), 2017-03, Vol.9 (3), p.287
Main Authors: Tian, Jiaojiao, Schneider, Thomas, Straub, Christoph, Kugler, Florian, Reinartz, Peter
Format: Article
Language:English
Subjects:
Airborne lasers
Airborne sensing
Canopy gaps
Change detection
DSM
forest heights
Forests
High resolution
Image processing
Image resolution
LiDAR
Monitoring
Performance assessment
Photogrammetry
Quality assessment
Quality control
Remote sensing
Scanning
Sensors
stereo imagery
TanDEM-X
Temperate forests
Wide-field Infrared Survey Explorer
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Summary:Digital surface models (DSMs) derived from spaceborne and airborne sensors enable the monitoring of the vertical structures for forests in large areas. Nevertheless, due to the lack of an objective performance assessment for this task, it is difficult to select the most appropriate data source for DSM generation. In order to fill this gap, this paper performs change detection analysis including forest decrease and tree growth. The accuracy of the DSMs is evaluated by comparison with measured tree heights from inventory plots (field data). In addition, the DSMs are compared with LiDAR data to perform a pixel-wise quality assessment. DSMs from four different satellite stereo sensors (ALOS/PRISM, Cartosat-1, RapidEye and WorldView-2), one satellite InSAR sensor (TanDEM-X), two aerial stereo camera systems (HRSC and UltraCam) and two airborne laser scanning datasets with different point densities are adopted for the comparison. The case study is a complex central European temperate forest close to Traunstein in Bavaria, Germany. As a major experimental result, the quality of the DSM is found to be robust to variations in image resolution, especially when the forest density is high. The forest decrease results confirm that besides aerial photogrammetry data, very high resolution satellite data, such as WorldView-2, can deliver results with comparable quality as the ones derived from LiDAR, followed by TanDEM-X and Cartosat DSMs. The quality of the DSMs derived from ALOS and Rapid-Eye data is lower, but the main changes are still correctly highlighted. Moreover, the vertical tree growth and their relationship with tree height are analyzed. The major tree height in the study site is between 15 and 30 m and the periodic annual increments (PAIs) are in the range of 0.30-0.50 m.
ISSN:2072-4292
2072-4292
DOI:10.3390/rs9030287