Abstract
Persistent Scatterer Interferometry (PSI) is a technique to detect a network of extracted persistent scatterer (PS) points which feature temporal phase stability and strong radar signal throughout time-series of SAR images. The small surface deformations on such PS points are estimated. PSI particularly works well in monitoring human settlements because regular substructures of man-made objects give rise to large number of PS points. If such structures and/or substructures substantially alter or even vanish due to big change like construction, their PS points are discarded without additional explorations during standard PSI procedure. Such rejected points are called big change (BC) points. On the other hand, incoherent change detection (ICD) relies on local comparison of multi-temporal images (e.g. image difference, image ratio) to highlight scene modifications of larger size rather than detail level. However, image noise inevitably degrades ICD accuracy. We propose a change detection approach based on PSI to synergize benefits of PSI and ICD. PS points are extracted by PSI procedure. A local change index is introduced to quantify probability of a big change for each point. We propose an automatic thresholding method adopting change index to extract BC points along with a clue of the period they emerge. In the end, PS ad BC points are integrated into a change detection image. Our method is tested at a site located around north of Berlin main station where steady, demolished, and erected building substructures are successfully detected. The results are consistent with ground truth derived from time-series of aerial images provided by Google Earth. In addition, we apply our technique for traffic infrastructure, business district, and sports playground monitoring.
Highlights
The continuous rise in population has led to rapid expansion of cities
vanished big change (VBC) points are selected from the persistent scatterer (PS) points if their change indices fulfil this threshold
We propose Change Detection based on Persistent Scatterer Interferometry (CDPSI) technique to detect PS, VBC, and emerged big change (EBC) points respectively on persistent, vanished, and emerged objects on ground
Summary
The continuous rise in population has led to rapid expansion of cities. there are intense infrastructure development and building construction leading to frequent urban change which requires monitoring of complementary data. Remote Sensing by imaging radar offers an efficient and cost effective means of monitoring. Synthetic Aperture Radar (SAR) is a remote sensing technique providing radar-based images. SAR images may cover vast areas in short time with considerable fine spatial resolution. Its temporal and spatial resolutions are 11 days and about 3 m respectively. These capabilities make SAR suitable for monitoring and change detection tasks. Two applications based on multi-temporal SAR images are Persistent Scatterer Interferometry (PSI) and incoherent change detection (ICD). They are designed to detect dynamic small deformation in the order of mm/year and any type of change, e.g. building construction, respectively
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