TY - JOUR
T1 - Combining Multi-Variate Statistics and Speckle Reduction for Line Detection in Multi-Channel SAR Images
AU - Borghys, Dirk
AU - Perneel, Christiaan
AU - Pizurica, Aleksandra
AU - Philips, Wilfried
PY - 2004
Y1 - 2004
N2 - The current paper focuses on the detection of linear objects (e.g. roads, rivers, tree lines, etc.) in multi-frequency polarimetric SAR images. We obtained sets of full-polarimetric P-baud and L-band and VV-polarised C- and X-band images. The images cover the same region but have a different spatial resolution. We also obtained transformation matrices that relate the slant-range coordinates to geocoded coordinates for each frequency band. The detection of linear features is performed on each of the slant-range images and the results are then geocoded and fused. In SAR images, for deciding whether a line passes through a given point, a relatively large neighbourhood has to be considered because of the speckle. Normally a set of rectangles is scanned over the image and at each point the statistics of the pixels inside the different rectangles are compared to decide whether a line is present. For single-channel data, a line detector is constructed from the Touzi edge detector. For polarimetric data, we use a multi-variate hypothesis test. Because of the difference in spatial resolution and information content of the 4 frequency bands, results are improved by fusing the individual results from the different bands. On the other hand, the synergy with speckle reduction is also examined. Without speckle reduction, large scanning rectangles need to be used for the line detection because of the presence of the speckle. If speckle reduction is applied prior to line detection, smaller rectangles can be used. The former approach allows to detect lines that show a lower contrast while the latter allows to find smaller details and achieves a higher spatial accuracy. The proposed method was applied to one of the sets of images and results are shown and evaluated.
AB - The current paper focuses on the detection of linear objects (e.g. roads, rivers, tree lines, etc.) in multi-frequency polarimetric SAR images. We obtained sets of full-polarimetric P-baud and L-band and VV-polarised C- and X-band images. The images cover the same region but have a different spatial resolution. We also obtained transformation matrices that relate the slant-range coordinates to geocoded coordinates for each frequency band. The detection of linear features is performed on each of the slant-range images and the results are then geocoded and fused. In SAR images, for deciding whether a line passes through a given point, a relatively large neighbourhood has to be considered because of the speckle. Normally a set of rectangles is scanned over the image and at each point the statistics of the pixels inside the different rectangles are compared to decide whether a line is present. For single-channel data, a line detector is constructed from the Touzi edge detector. For polarimetric data, we use a multi-variate hypothesis test. Because of the difference in spatial resolution and information content of the 4 frequency bands, results are improved by fusing the individual results from the different bands. On the other hand, the synergy with speckle reduction is also examined. Without speckle reduction, large scanning rectangles need to be used for the line detection because of the presence of the speckle. If speckle reduction is applied prior to line detection, smaller rectangles can be used. The former approach allows to detect lines that show a lower contrast while the latter allows to find smaller details and achieves a higher spatial accuracy. The proposed method was applied to one of the sets of images and results are shown and evaluated.
KW - Line Detection
KW - Multi-Channel SAR images
KW - Polarimetric SAR
KW - Road Detection
UR - http://www.scopus.com/inward/record.url?scp=1842787735&partnerID=8YFLogxK
U2 - 10.1117/12.510662
DO - 10.1117/12.510662
M3 - Conference article
AN - SCOPUS:1842787735
SN - 0277-786X
VL - 5236
SP - 93
EP - 104
JO - Proceedings of SPIE - The International Society for Optical Engineering
JF - Proceedings of SPIE - The International Society for Optical Engineering
T2 - SAR Image Analysis, Modeling, and Techniques VI
Y2 - 8 September 2003 through 8 September 2003
ER -