Your search keyword '"Bijker, Wietske"' showing total 4 results

1. Spatially Explicit Active Learning for Crop-Type Mapping from Satellite Image Time Series.

Author

Kaijage, Beatrice, Belgiu, Mariana, and Bijker, Wietske

Subjects

REMOTE-sensing images, ACTIVE learning, TIME series analysis, REMOTE sensing, RANDOM forest algorithms, SUGAR beets

Abstract

The availability of a sufficient number of annotated samples is one of the main challenges of the supervised methods used to classify crop types from remote sensing images. Creating these samples is time-consuming and costly. Active Learning (AL) offers a solution by streamlining sample annotation, resulting in more efficient training with less effort. Unfortunately, most of the developed AL methods overlook spatial information inherent in remote sensing images. We propose a novel spatially explicit AL that uses the semi-variogram to identify and discard redundant, spatially adjacent samples. It was evaluated using Random Forest (RF) and Sentinel-2 Satellite Image Time Series in two study areas from the Netherlands and Belgium. In the Netherlands, the spatially explicit AL selected 97 samples achieving an overall accuracy of 80%, compared to traditional AL selecting 169 samples with 82% overall accuracy. In Belgium, spatially explicit AL selected 223 samples and obtained 60% overall accuracy, while traditional AL selected 327 samples and obtained an overall accuracy of 63%. We concluded that the developed AL method helped RF achieve a good performance mostly for the classes consisting of individual crops with a relatively distinctive growth pattern such as sugar beets or cereals. Aggregated classes such as 'fruits and nuts' posed, however, a challenge. [ABSTRACT FROM AUTHOR]

Published

2024

2. Mapping crop types in complex farming areas using SAR imagery with dynamic time warping.

Author

Gella, Getachew Workineh, Bijker, Wietske, and Belgiu, Mariana

Subjects

*SYNTHETIC aperture radar, *FRAGMENTED landscapes, *WINTER grain, *CROPS, *CLOUDINESS

Abstract

• Sentinel-1 outperformed TerraSAR-X HH for crop type mapping with twDTW. • Decision level fusion of Sentinel-1 and TerraSAR-X identified crops successfully. • Use of radar vegetation indices improved crop type mapping while contribution of polarimetric features was limited. • Merging of crops with similar leaf geometry improved accuracy of crop type mapping. • Using crop specific time lag in vtwDTW yielded comparable outputs to twDTW while AMSS has yielded lower accuracy. Crop type information is essential for many practical applications, yet its mapping is often constrained by inherent characteristics of most farming areas, such as fragmentation and small farm plots, changes in crop morphology across the season, and cloud cover. This study investigated whether these limitations could be overcome by using time-series of Synthetic Aperture Radar (SAR) and crop phenological information combined with different Dynamic Time Warping implementation strategies. Focusing on a fragmented landscape with small farm plots in the Netherlands, we used Sentinel-1 dual polarimetry (VV + VH) and TerraSAR-X single polarimetry (HH) images and the Dutch Basic Registration of Crop Plots (BRP) dataset for training and validation. Image pre-processing was followed by the generation of radar vegetation indices and polarimetric decomposition. Crop-specific responses to incident radar signal were analyzed, as well as the accuracy of the crop classification by Time-Weighted Dynamic Time Warping (twDTW) using either backscatter bands only or backscatter bands in combination with derived indices and polarimetric decomposition features. In addition, two further modified Dynamic Time Warping strategies, namely Variable Time Weight Dynamic Time Warping (vtwDTW) and Angular Metric for Shape Similarity (AMSS), were tested for their performance. Furthermore, we investigated the accuracy performance of a decision level fusion of TerraSAR-X and Sentinel-1 classification outputs. Results show that even in a fragmented landscape with relatively small plots (around 0.08 ha), crop types can be successfully mapped by using decision level fusion of the twDTW results of both sensors, reaching an accuracy of 77.1%. When using twDTW on Sentinel-1 (VV + VH) only, including Ratio, MRVI, and DPSVI indices, overall accuracy reached 69.5%; without those indices, accuracy was slightly lower (67.5%). Merging six different grain crops with similar leaf geometry into winter grains and summer grains improved classification accuracy to 80.6%. Our findings demonstrate that twDTW on SAR imagery allows to map crop types in fragmented landscapes with relatively small farm plots, offering potential for crop type mapping in areas with smallholder farming. [ABSTRACT FROM AUTHOR]

Published

2021

3. Multitemporal change detection of urban trees using localized region-based active contours in VHR images

Author

Ardila, Juan P., Bijker, Wietske, Tolpekin, Valentyn A., and Stein, Alfred

Subjects

*URBAN trees, *CROWNS (Botany), *IMAGE analysis, *RESIDENTIAL areas, *DATABASES, *IMAGE segmentation

Abstract

Abstract: This study introduces active contours for multitemporal monitoring of urban trees using fine resolution imagery. In our implementation active contours locally identify tree crown image regions using a localized data energy term and competition of energy forces between adjacent contours. The simultaneous evolution of n contours represents an equivalent number of tree crowns which are initialized based on a fast and efficient image fitting procedure. We incorporate prior information into the multitemporal analysis, as optimized contours are propagated through a sequence of images. We demonstrate the applicability of the method to monitor individual trees and tree groups in two residential areas in the Netherlands using multispectral aerial images acquired over a period of five years. The method allowed the identification of abrupt and gradual tree crown changes in both areas and performed superior to an alternative region growing segmentation approach. We conclude that the method extracts meaningful image objects that facilitate tree crown monitoring and is effective to update tree crown spatial-databases in urban areas. [Copyright &y& Elsevier]

Published

2012

4. Context-sensitive extraction of tree crown objects in urban areas using VHR satellite images

Author

Ardila, Juan P., Bijker, Wietske, Tolpekin, Valentyn A., and Stein, Alfred

Subjects

*CROWNS (Botany), *CITIES & towns, *GROUND vegetation cover, *REMOTE-sensing images, *IMAGE analysis, *IMAGING systems

Abstract

Abstract: Municipalities need accurate and updated inventories of urban vegetation in order to manage green resources and estimate their return on investment in urban forestry activities. Earlier studies have shown that semi-automatic tree detection using remote sensing is a challenging task. This study aims to develop a reproducible geographic object-based image analysis (GEOBIA) methodology to locate and delineate tree crowns in urban areas using high resolution imagery. We propose a GEOBIA approach that considers the spectral, spatial and contextual characteristics of tree objects in the urban space. The study presents classification rules that exploit object features at multiple segmentation scales modifying the labeling and shape of image-objects. The GEOBIA methodology was implemented on QuickBird images acquired over the cities of Enschede and Delft (The Netherlands), resulting in an identification rate of 70% and 82% respectively. False negative errors concentrated on small trees and false positive errors in private gardens. The quality of crown boundaries was acceptable, with an overall delineation error <0.24 outside of gardens and backyards. [Copyright &y& Elsevier]

Published

2012