Your search keyword '"Change detection"' showing total 1,148 results

1. Monitoring spatio-temporal dynamics of grazing lawns in southern African savannahs using satellite remote sensing

Author

Awuah, Kwame, Aplin, Paul, Powell, Michael, Cortes Carrillo, Joaquin Alberto, and Pie, Marcio

Subjects

savanna, southern Africa, grazing lawns, remote sensing, image fusion, machine learning, image classification, change detection, herbivory, fire, drought

Abstract

Savannah biomes are home to a great diversity of flora and fauna species whose survival depend on the inherent heterogeneity within the savannah landscape. In southern African savannahs, grazing lawn patches play a central role in ecosystem dynamics via their influence on herbivory and fire regimes. The extent and distribution of grazing lawns therefore have important cascading impacts on habitat heterogeneity, biodiversity and important ecosystem processes such as nutrient cycling. Despite the keystone nature of grazing lawns in savannah ecosystems, there is limited knowledge on their extent and distribution. There is substantial empirical evidence of the factors that drive the formation and persistence of grazing lawns. However, no broad-scale approach exist to monitor grazing lawns and enable investigations into changes in their distribution and the impacts on broader ecosystem dynamics. Ground-based monitoring of grazing lawns is laborious and inefficient over large spatial and temporal scales. This research uses high-resolution satellite remote sensing to characterize grazing lawns and investigate dynamics in their cover and structure in southern African savannahs. This is achieved through a series of analysis that addresses three main objectives including (i) developing methods for accurate detection and mapping of savannah grazing lawn distribution using high-resolution satellite imagery and machine learning techniques; (ii) identifying changes in cover and structural distribution of grazing lawns over space and time; and (iii) Identifying the dominant drivers of change in grazing lawn cover and structure. For the analysis, a robust machine learning workflow is developed to identify grazing lawns in mesic and semi-arid savannah landscapes usingWorldView-3 imagery; a cost effective approach for high resolution grazing lawn monitoring is developed via fusion of open access Planet and Sentinel-2 imagery; multi-temporal high-resolution satellite images from 2002, 2014 and 2019 are used to identify changes in grazing lawn cover and structure under different savannah landscape conditions, including the effect of drought stress; and lastly, spatio-temporal analysis of grazing lawn occurrence and change trajectory is used to identify the dominant drivers of grazing lawn dynamics. High grazing lawn detection accuracies were achieved with all machine learning algorithms. Random Forest, Multilayer Perceptron and Support Vector Machine algorithms had similar accuracies and marginally outperformed Classification and Regression Trees algorithm. The results demonstrate the utility of high-resolution satellite images for overcoming savannah heterogeneity challenges to classification, leading to accurate grazing lawn detection. WorldView-3 with its high spatial resolution and broad array of vegetation sensitive spectral bands is particularly ideal for grazing lawn monitoring, and could be used for targeted investigations due to acquisition cost. Alternatively, fusion of open-access planet and Sentinel-2 images provide a cost effective option for operational management applications. In the absence of drought stress, grazing lawn extent increase uniformly, signaling to possible grazer population increase between 2002 and 2014. Most of the increase tend to occur as an expansion to existing patches or in close proximity to existing patches. The impact of drought stress on grazing lawns depends on local landscape characteristics, particularly related to water availability. Gains and losses in grazing lawn cover largely occur as transitions to and from tall grass swards, further highlighting tall grass vegetation as the main competitor for space. Woody encroachment was found not to be an immediate threat to grazing lawn cover, but could gain more significance with projected increase in drought frequency and intensity. In terms of the dominant drivers of grazing lawn dynamics, this study found the presence of water points as resource hot-spots to be an important determining factor of grazing lawn spatial distribution within the savannah landscape. Overall, grazing lawn dynamics was inferred to be primarily driven by grazers, the pattern and nature of which depends on factors that act to alter grazer population and behavior. This research makes vital methodological contributions to grazing lawn and overall savannah vegetation monitoring. A pioneering remote sensing based methodology for monitoring grazing lawn dynamics is developed. Additionally this research contributes to literature on grazing lawn ecology. A greater knowledge of grazing dynamics has been achieved, contributing to a better understanding of habitat heterogeneity in southern African savannahs. Overall, this research provides important tools and novel ecological insights to guide conservation management in savannah ecosystems.

Published

2022

2. An exploration of the role of temporal information in hierarchical working memory representations and their influences on visual attention

Author

Arnold, Craig

Subjects

Attention, working memory, tactile, vision, attentional blink, summary statistics, ensemble encoding, hierarchical, change detection

Abstract

This thesis investigates how visual working memory effects may differ at different levels of a hierarchically structured system. Traditional visual working memory research has focussed on memory for exact features of individual objects. However, working memory can also include other types of information, such as the 'average' feature value across a group of stimuli, or the relative spatial relationships between stimuli. Most studies have used static displays of stimuli presented simultaneously, so this thesis aimed to investigate whether similar mechanisms could operate across stimuli presented sequentially, though this thesis failed to replicate previous results even when presenting simultaneous stimuli. It also investigated whether group level representations are observed using tactile stimuli, based on evidence of integration across tactile inputs, but fails to replicate these effects. A second research topic was that of memory guided attention. Holding an item in memory can bias the allocation of attention in favour of new incoming information that shares similar features. However, it remained unclear how the degree of similarity between the new items and memory item modulated such guidance. This thesis attempted to replicate such guidance effects using orientation as the critical feature, to allow similarity to be quantified better. However, no memory guidance effects were observed under these conditions. Finally, so far previous studies had also primarily used static arrays of simultaneous stimuli, so this thesis investigated whether such guidance effects could affect the allocation of temporal attention, though again no such evidence was observed. The thesis furthers our understanding of the limits of the interplay between attention and memory across time, by failing to find evidence of previously established mechanisms under new conditions, including novel feature dimensions, sequential presentation, and tactile stimuli and thus questioning the generalisability of the previous research in this area.

Published

2021

3. Change detection of land use and land cover, using Landsat-8 and Sentinel-2A images

Author

Alhedyan, Mohammed Abdulmohsen

Subjects

Change detection, land use, land cover, Landsat-8, Sentinel-2a, thesis, geography

Abstract

The main theme of this research is the development of a new hybrid method for change detection of land use and land cover (LULC). LULC change detection is one of most widely used applications of remote sensing. This study used data from two different optical sensors, Landsat-8 images and Sentinel-2A images. Given the newly developed capabilities of these remote sensing satellites, it was necessary to devise appropriate techniques to realise the benefits that they offer. Therefore, three effective change detection methods have been tested, comprehensively analysed, and used to inform the design and development of a new hybrid method of change detection. The studied change detection methods were change vector analysis (CVA), multi-index integrated change analysis (MIICA), and the comprehensive change detection method (CCDM). Case studies were conducted in two regions, Bristol (United Kingdom) and Hail (Saudi Arabia), to provide sufficient variety of inputs to enable the response of more LULC varieties to be recorded. Finally, the Coordination of Information on the Environment (Corine) land cover scheme was used to identify land cover types and LULC changes. In the study area of Bristol, the new hybrid change detection method achieved an overall accuracy of 90% and 0.81 kappa, while the results for the study area of Hail were 74% overall accuracy and 0.40 kappa. The change detection results obtained by the new hybrid method constitute a significant improvement over the implementation of the existing CVA, MIICA and CCDM methods at the two study areas while using Landsat-8 and Sentinel-2A images.

Published

2021

4. Development of a low-cost photogrammetric monitoring system for timely detection of slope instability

Author

Parente, Luigi

Subjects

624.1, photogrammetry, Structure-from-Motion (SfM) photogrammetry, multi-view-stereo (MVS), change detection, monitoring system, camera calibration, registration, automation, early warning system (EWS)

Abstract

The growing frequency of extreme rainfall events increases the need to monitor unstable slopes and warn of impeding failure. Additionally, the increasing number of vulnerable sites means that low-cost solutions are necessary. This project assumed that a system based on modern photogrammetric workflows and terrestrial multi-stereo acquisitions can simplify hazard prediction and mitigation of landslide-related threat impacting vulnerable people and critical infrastructure. Thus, the challenge of this thesis has been to develop an efficient and automated system to monitor slopes with a self-adaptive monitoring frequency and early warnings capabilities, by adopting a low-cost photogrammetric solution. This was achieved using three case studies, including one scaled laboratory test field (camera-object distance of 2 m) and two field sites (a seacliff - distance of ~ 30 m; a quarry face - distance of ~ 700 m). This research shows the monitoring capabilities of a terrestrial photogrammetric system based on just four low-cost digital cameras combined with Structure-from-Motion and Multi-View-Stereo (SfM-MVS) techniques. The photogrammetric outputs (e.g. dense point clouds) were highly comparable to results obtained with more established techniques (e.g. terrestrial laser scanner and drone-based photogrammetry). Tests demonstrate that when a stationary camera configuration is adopted, imperfections in the camera calibration can be tolerated. In response to the challenges encountered aligning 3D photogrammetric outputs, an automated solution to registration is identified, which involves the use of the scale-invariant feature transform (SIFT) algorithm. This approach produced results comparable to those achieved using a manual procedure involving the adoption of the Iterative Closest Point (ICP) algorithm. An additional case study allowed the implementation of an algorithm to autonomously adapt the temporal frequency for image acquisition based on recorded change and the development of a framework for an SfM-MVS-based Early Warning System (EWS). The results obtained in this research, demonstrate that an EWS based upon low-cost SfM photogrammetry is practicable. This is significant as it proves that low-cost EWS based upon SfM photogrammetry can help to monitor and mitigate the effects of the growing number of slope instabilities expected as a consequence of climate change.

Published

2020

5. Improved quantification of forest range shifts and their implications to ecosystem function in high-elevation forests

Author

Morley, Peter James and Jump, Alistair

Subjects

Treeline, Remote Sensing, Change Detection, Range shifts, time series, climate change, biomass, Forests and forestry, Forest ecology--Taiwan, Climatology--Trees--Taiwan, Remote sensing--Taiwan, Timberline

Abstract

Rapid environmental changes are driving shifts in forest distribution across the globe with significant implications for ecosystem function and biodiversity. Despite the prevalence of forest range shifts across the globe, reliable estimations of changes in forest extent and structure at the elevational treeline (the elevational limit of forest distribution) are difficult to obtain due to limited access to mountainous environments. Remote sensing data is well suited to quantifying environmental change across large areas; however, a lack of published research that uses remotely sensed data in studies of mountain forests has led to uncertainty surrounding how much information about forest structure at the mountain treeline can be resolved in remotely sensed data. This uncertainty presents a major obstacle to landscape-scale quantification of forest range shifts and estimation of the impacts forest advance will have on ecosystem function and biodiversity in mountain systems. The distribution of high-elevation coniferous forests in the Central Mountain Range, Taiwan, has changed rapidly with increases in treeline elevation and forest density reported. Climate is considered to be the primary regulatory factor of the treeline in the Central Mountain Range. However, topography modifies the response of treeline advance to environmental change resulting in a structurally diverse treeline. This research combines a network of field observations across the Central Mountain Range, Taiwan, with aerial photography and multispectral satellite imagery to 1) determine which spectral features derived from multispectral satellite remote sensing best explain variation in mountain treeline structure and the effect of sensor spatial resolution on the characterisation of structural variation; 2) quantify variation in rates of forest advance; 3) quantify the accuracy of forest change assessments using a sample-based area estimation and classifying spectral trends identified in a time-series of satellite remote sensing data, and 4) quantify changes in above-ground woody biomass. The results presented here show that the green, red and short-wave infrared spectral bands and vegetation indices derived from these spectral bands offer the best characterisation of vegetation structure across the treeline ecotone with R2 values reported up to 0.723. Sample-based change assessment using repeat aerial photography shows a 295.0 ha increase in forest area and a 115.1 m increase in the mean elevation of forest establishment between 1963 and 2016. The rate of forest advance is spatially variable with forest establishment occurring most rapidly on east and south facing slopes with gradients of 0-20° and is also temporally variable with the rate of forest establishment peaking between 1980 and 2001. The classification of spectral trends in time-series analysis shows that Landsat-based change estimates underestimate the area of forest advance in the Central Mountain Range. However, the general pattern and direction of habitat change are consistent with those derived from sample-based estimates of change using repeat aerial photography offering the opportunity for error adjustment. Consequently, the results presented within this thesis show a net gain in above-ground woody biomass of 4688.7 t C in areas above 2400 m a.s.l. in the Central Mountain Range, Taiwan, and a reduction in the area of alpine grassland. The methods presented in this thesis provide a major opportunity to improve the quantification of forest range shifts across mountain systems allowing the estimation of landscape-scale impacts of forest advance on biodiversity and ecosystem function in data-poor mountain regions.

Published

2019

6. A comparison of remote sensing change detection methods for urban creep identification in Norwich

Author

Tewkesbury, Andrew P.

Subjects

91.285, remote sensing, Norwich, Change detection

Abstract

Change detection is one of the most active research areas in remote sensing, driven by the desire to monitor the highly dynamic world around us. Modern very high resolution (VHR) images from satellite and aerial platforms present an opportunity to reveal landscape change in great detail. However, there is little research focusing on detailed change detection. This research addresses this problem, by investigating the utility of remote sensing change detection to detect fine urban changes called 'urban creep'. Urban creep is the addition of impermeable surface to an existing property, after its initial construction. This is problematic because cumulatively, urban creep significantly increases flood risk. Moreover, up-to-date urban creep statistics are not readily available. Therefore, urban creep identification is a challenge to change detection research because of its subtle expression, small extent, and complicated contextual setting. The investigation of urban creep is conducted over the city of Norwich using aerial images from 2006 and 2010. The research focuses on three methodological areas. Firstly, statistical sampling is employed to quantify a baseline rate of urban creep. Secondly, a direct classification of the remotely sensed data is undertaken to assess the utility of the state-of-the-art in this application. And lastly, as a counter-point, change vector analysis (CVA) is applied to explore the utility and relevance of differencing methods in a complex urban change detection setting. The results have shown that 1) The rate of urban creep in Norwich is increasing; 2) Quantitative urban creep evaluation remains beyond the current state-of-the-art, but qualitative detection is possible; 3) Simple spectral CVA has almost no utility in this application. These findings contribute to knowledge by clarifying the capabilities of change detection techniques in detailed urban applications; building upon, and extending existing CVA research; and finally by adding to urban creep knowledge.

Published

2019

7. Analyzing coastal erosion and sedimentation using Sentinel-1 SAR change detection: An application on the Volta Delta, Ghana

Author

Di Biase, Valeria, Hanssen, Ramon F., Di Biase, Valeria, and Hanssen, Ramon F.

Abstract

Ghana's coastline has been facing erosion and sedimentation phenomena for several decades, resulting in a serious threat to life and property considering that major urban settlements are located on the coast. In this region, there has been a lack of emphasis on comprehensive, large-scale investigations into coastal changes: prior research has predominantly centered on site-specific assessments. These studies have revealed alarming erosion rates, with reports indicating that nearly ten meters are lost annually. The use of high-resolution remotely sensed data can be a consistent support in regions where physical or economic obstacles interfere with collecting in situ information. In particular, the use of continuous all-weather SAR data may facilitate the evaluation of erosion and sedimentation phenomena in coastal areas. In this paper, we apply SAR data over a time period between 2017 and 2021. Sentinel-1 data are pre-processed using the Google Earth Engine platform, and a dedicated algorithm is then applied to identify and quantify erosion and sedimentation processes. Optical images are used as a reference for detecting the location of two areas where consistent sedimentation and erosion phenomena occurred in the considered four years. The results demonstrate that SAR backscattering variations over time offer a reliable method for monitoring coastal changes. This approach enables the identification of the type of phenomena occurring - sedimentation or erosion -, and allows for the quantification of their intensity and dimensions over time. The method can be worldwide applied once the appropriate thresholds are evaluated and help in predictive studies and environmental planning.

Published

2024

8. Zero-shot Segmentation for Change Detection : Change Detection in Synthetic Aperture Sonar Imagery Using Segment Anything Model

Author

Hedlund, William and Hedlund, William

Abstract

The advancement of foundation models have opened up new possibilities in deep learning. These models can be adapted to new tasks and unseen domains from minimal or even no training data, making them well-suited for applications where labelled data is scarce or costly to collect. Lack of data has meant that deep learning for change detection in sonar imagery has not been used. Reliable methods for change detection of underwater environments is critical for a range of fields such as marine research and object search. Previous work in change detection for sonar imagery focus on non-deep learning methods. In this paper, we explore the use of a foundation model (Segment Anything Model) for performing change detection in imagery collected with synthetic aperture sonar (SAS). This thesis is the first case of applying Segment Anything Model to change detection in SAS imagery. The proposed method segments bi-temporal images, and change detection is then performed on the segments. In addition to a set of bi-temporal images containing real change, the model is also tested on a set of synthetic images. The proposed method shows promising results on both a real and synthetic data set.

Published

2024

9. Change Detection in Wavelength-Resolution SAR Image Stack Based on Tensor Robust PCA

Author

Ramos, Lucas P., Alves, Dimas I., Duarte, Leonardo T., Machado, Renato, Pettersson, Mats, Vu, Viet Thuy, Dammert, Patrik, Ramos, Lucas P., Alves, Dimas I., Duarte, Leonardo T., Machado, Renato, Pettersson, Mats, Vu, Viet Thuy, and Dammert, Patrik

Abstract

Wavelength-resolution (WR) synthetic aperture radar (SAR) change detection (CD) has been used to detect concealed targets in forestry areas. However, most proposed methods are generally based on matrix or vector analyses and, therefore, do not exploit information embedded in multidimensional data. In this letter, a CD method for WR SAR image stacks based on tensor robust principal component analysis (TRPCA) is proposed. The proposed CD method used the new tensor nuclear norm induced by the definition of the tensor-tensor product to exploit temporal and spatial information contained in the image stack. To assess the performance of the proposed method, we considered SAR images obtained by the very high frequency (VHF) WR CARABAS-II SAR system. Experiments for three different stack sizes show that a significant performance gain can be achieved when large image stacks are considered. The proposed CD method performs better in terms of probability of detection (PD) and false alarm rate (FAR) than the other five CD methods in VHF WR SAR images, including one based on matrix robust principal component analysis (RPCA). In a particular setting, it achieves a PD of 99% and a FAR of 0.028 false alarms per km2. Authors

Published

2024

10. Change point detection with adaptive measurement schedules for network performance verification

Author

Lindståhl, Simon, Proutiere, Alexandre, Johnsson, Andreas, Lindståhl, Simon, Proutiere, Alexandre, and Johnsson, Andreas

Abstract

When verifying that a communications network fulfills its specified performance, it is critical to note sudden shifts in network behavior as quickly as possible. Change point detection methods can be useful in this endeavor, but classical methods rely on measuring with a fixed measurement period, which can often be suboptimal in terms of measurement costs. In this paper, we extend the existing framework of change point detection with a notion of physical time. Instead of merely deciding when to stop, agents must now also decide at which future time to take the next measurement. Agents must now minimize the necessary number of measurements pre- and post-change, while maintaining a trade-off between post-change delay and false alarm rate. We establish, through this framework, the suboptimality of typical periodic measurements and propose a simple alternative, called crisis mode agents. We show analytically that crisis mode agents significantly outperform periodic measurements schemes. We further verify this in numerical evaluation, both on an array of synthetic change point detection problems as well as on the problem of detecting traffic load changes in a 5G test bed through end-to-end RTT measurements., Part of ISBN 9798400706240QC 20240701

Published

2024

11. Change and Persistence in an Olive Landscape of Sicily. Geospatial Insights Into Biocultural Heritage

Author

Ferrara, Vincenza, Sala, Giovanna, La Mantia, Tommaso, Ferrara, Vincenza, Sala, Giovanna, and La Mantia, Tommaso

Abstract

Intercropping landscapes characterised by the presence of certain plant features are usually considered traditional landscapes, important for their biocultural heritage. In recent decades, olive agroforestry systems previously widespread throughout Sicily have transitioned to monocultures alongside the disappearance of other tree species. To analyse the dynamics of land use, we combine mathematical representations and oral narratives of spatial change, focussing our case study on a rural area of inner Sicily, Cozzo del Lampo, characterised by a high presence of century-old olive trees. By using local geonarratives in combination with the results of change detection analysis using historical aerial images spanning 50 years (1955 - 2005), we gain insights into the relationality of people and places over time, highlighting how biocultural heritage is correlated to both local culture and ecology, and demonstrating the value of ecological perspectives to understand past and current human actions. The active engagement of the local population in the interpretation of their own (past-present) practices is key to access new ecological knowledge.

Published

2024

12. MaskCD: A Remote Sensing Change Detection Network Based on Mask Classification

Author

(0000-0003-1111-572X) Yu, W., Zhang, X., Das, S., Zhu, X. X., (0000-0003-1203-741X) Ghamisi, P., (0000-0003-1111-572X) Yu, W., Zhang, X., Das, S., Zhu, X. X., and (0000-0003-1203-741X) Ghamisi, P.

Abstract

Change detection (CD) from remote sensing (RS) images using deep learning has been widely investigated in the literature. It is typically regarded as a pixel-wise labeling task that aims to classify each pixel as changed or unchanged. Although per-pixel classification networks in encoder-decoder structures have shown dominance, they still suffer from imprecise boundaries and incomplete object delineation at various scenes. For high-resolution RS images, partly or totally changed objects are more worthy of attention rather than a single pixel. Therefore, we revisit the CD task from the mask prediction and classification perspective and propose MaskCD to detect changed areas by adaptively generating categorized masks from input image pairs. Specifically, it utilizes a cross-level change representation perceiver (CLCRP) to learn multiscale change-aware representations and capture spatiotemporal relations from encoded features by exploiting deformable multihead self-attention (DeformMHSA). Subsequently, a masked cross-attention-based detection transformers (MCA-DETR) decoder is developed to accurately locate and identify changed objects based on masked cross-attention and self-attention mechanisms. It reconstructs the desired changed objects by decoding the pixel-wise representations into learnable mask proposals and making final predictions from these candidates. Experimental results on five benchmark datasets demonstrate the proposed approach outperforms other state-of-the-art models. Codes and pretrained models are available online (https://github.com/EricYu97/MaskCD).

Published

2024

13. Analyzing coastal erosion and sedimentation using Sentinel-1 SAR change detection: An application on the Volta Delta, Ghana

Author

di Biase, V. (author), Hanssen, R.F. (author), di Biase, V. (author), and Hanssen, R.F. (author)

Abstract

Ghana's coastline has been facing erosion and sedimentation phenomena for several decades, resulting in a serious threat to life and property considering that major urban settlements are located on the coast. In this region, there has been a lack of emphasis on comprehensive, large-scale investigations into coastal changes: prior research has predominantly centered on site-specific assessments. These studies have revealed alarming erosion rates, with reports indicating that nearly ten meters are lost annually. The use of high-resolution remotely sensed data can be a consistent support in regions where physical or economic obstacles interfere with collecting in situ information. In particular, the use of continuous all-weather SAR data may facilitate the evaluation of erosion and sedimentation phenomena in coastal areas. In this paper, we apply SAR data over a time period between 2017 and 2021. Sentinel-1 data are pre-processed using the Google Earth Engine platform, and a dedicated algorithm is then applied to identify and quantify erosion and sedimentation processes. Optical images are used as a reference for detecting the location of two areas where consistent sedimentation and erosion phenomena occurred in the considered four years. The results demonstrate that SAR backscattering variations over time offer a reliable method for monitoring coastal changes. This approach enables the identification of the type of phenomena occurring - sedimentation or erosion -, and allows for the quantification of their intensity and dimensions over time. The method can be worldwide applied once the appropriate thresholds are evaluated and help in predictive studies and environmental planning., Mathematical Geodesy and Positioning

Published

2024

14. Exploring the potential of explorative point clouds in floodplain maintenance

Author

Sterkman, Pam (author) and Sterkman, Pam (author)

Abstract

Water management is an integral part of Dutch history, driven by the continuous need to reduce flood risk. Because a large area of the country is located below Normaal Amsterdams Peil (NAP), there is an ongoing challenge to safely discharge all the water to the sea. Therefore, flood safety policy has become crucial to protect the Netherlands from natural hazards. An essential part of this strategy involves the Waardegedreven Onderhoudscontract Uiterwaarden (WOCU) Rijntakken project, which is responsible for managing the floodplains adjacent to the Rijntakken within the Netherlands. The current lack of efficiency and effectiveness regarding change inspection in the large and sometimes inaccessible areas of the floodplain requires the use of remote sensing change detection to move toward a data-driven maintenance process, in particular, by using point cloud data. This is nowadays a widely used data source in a variety of fields to capture elevations and in this way extract valuable information from terrains. Despite its usage in a variety of applications, the data is often underused since the data is frequently processed directly to other data formats. This research therefore aims to reveal the potential of explorative point clouds in floodplain maintenance. Light Detection and Ranging (LiDAR)- and multispectral data were acquired at two moments, one before and one after the summer, with a time interval of 45 days. Subsequently, these acquired datasets evolved into an explorative point cloud by adding attributes, including vegetation health, also known as Normalized Difference Vegetation Index (NDVI), and the distance between these two point clouds, the cloud-to-cloud distance. This explorative point cloud with the integrated additional information was visualised to several disciplines involved in the WOCU project. This was done in Three Dimensional (3D) by using Virtual Reality (VR). This collaborative approach revealed the potential use cases of th, Geomatics

Published

2024

15. The success of ecological engineering projects on vegetation restoration in China strongly depends on climatic conditions

Author

Dou, Yujie, Tong, Xiaoye, Horion, Stéphanie, Feng, Luwei, Fensholt, Rasmus, Shao, Quanqin, Tian, Feng, Dou, Yujie, Tong, Xiaoye, Horion, Stéphanie, Feng, Luwei, Fensholt, Rasmus, Shao, Quanqin, and Tian, Feng

Abstract

China has implemented extensive ecological engineering projects (EEPs) during recent decades to restore and enhance ecosystem functioning. However, the effectiveness of these interventions can vary due to factors such as local climate and specific project objectives. Here, we used two independent satellite remote sensing datasets, including the Global Inventory Monitoring and Modeling System (GIMMS) Normalized Difference Vegetation Index (NDVI) and vegetation optical depth from Ku-band (Ku-VOD), to investigate the vegetation trends in two hotspot regions of EEPs characterized by different climate conditions, i.e., the xeric/semi-xeric Loess Plateau and mesic southwest China. We found diverging vegetation greenness/biomass trend shift patterns in these two regions as a result of the combined effects of EEPs and climate variations, as indicated by changes in the Standardized Precipitation Evapotranspiration Index (SPEI). In the Loess Plateau, where no significant climate variations were observed, NDVI/Ku-VOD increased continuously after the implementation of key EEPs in 2000. Conversely, southwest China has experienced persistent drying since 2000, and vegetation greenness/biomass showed an increasing trend during the initial stages of ecological engineering implementation but subsequently reversed towards a decline due to the continued dry climatic conditions. We used the residual trend method to separate the influence of EEPs from climate variations on vegetation trends and found a positive effect of the ecological management practices in the Loess Plateau, yet a predominantly negative effect in the southwest China region, which means that projects implemented in southwest China did not lead to a long-term improvement in vegetation growth under the given climate conditions in southwest China. This adverse impact suggests that ecological engineering practices could potentially increase the ecosystem's vulnerability to droughts, owing to the increased transpirational, China has implemented extensive ecological engineering projects (EEPs) during recent decades to restore and enhance ecosystem functioning. However, the effectiveness of these interventions can vary due to factors such as local climate and specific project objectives. Here, we used two independent satellite remote sensing datasets, including the Global Inventory Monitoring and Modeling System (GIMMS) Normalized Difference Vegetation Index (NDVI) and vegetation optical depth from Ku-band (Ku-VOD), to investigate the vegetation trends in two hotspot regions of EEPs characterized by different climate conditions, i.e., the xeric/semi-xeric Loess Plateau and mesic southwest China. We found diverging vegetation greenness/biomass trend shift patterns in these two regions as a result of the combined effects of EEPs and climate variations, as indicated by changes in the Standardized Precipitation Evapotranspiration Index (SPEI). In the Loess Plateau, where no significant climate variations were observed, NDVI/Ku-VOD increased continuously after the implementation of key EEPs in 2000. Conversely, southwest China has experienced persistent drying since 2000, and vegetation greenness/biomass showed an increasing trend during the initial stages of ecological engineering implementation but subsequently reversed towards a decline due to the continued dry climatic conditions. We used the residual trend method to separate the influence of EEPs from climate variations on vegetation trends and found a positive effect of the ecological management practices in the Loess Plateau, yet a predominantly negative effect in the southwest China region, which means that projects implemented in southwest China did not lead to a long-term improvement in vegetation growth under the given climate conditions in southwest China. This adverse impact suggests that ecological engineering practices could potentially increase the ecosystem's vulnerability to droughts, owing to the increased transpiration

Published

2024

16. A Generalized Beta Prime Distribution as the Ratio Probability Density Function for Change Detection between Two SAR Intensity Images with Different Number of Looks

Author

Gallardo I Peres, Gerard, Dall, Jørgen, Mason, Philippa J., Ghail, Richard, Hensley, Scott, Gallardo I Peres, Gerard, Dall, Jørgen, Mason, Philippa J., Ghail, Richard, and Hensley, Scott

Abstract

In the framework of the comparison of synthetic aperture radar (SAR) imagery from the Magellan space mission and the VISAR and VenSAR radar instruments which will be onboard the forthcoming VERITAS and EnVision missions to Venus, the problem of the disparity between the resolutions of the images arises when attempting to define a test statistic with which to detect changes. Reliable change detection requires equivalent spatial resolutions which, for the two different images, inevitably involve different equivalent numbers of looks after speckle-reduction processing. This study presents a method to address this scenario using a generalized beta prime distribution as a probability density function (pdf) which is fit to the histogram of the ratio between the two intensity images. The work demonstrates and verifies the properties of the function, highlights its most useful traits, and elaborates on the mathematical procedure required to achieve a meaningful change detection in line with the classic theory of an equal number of looks. The results show that the method accurately describes the ratio histogram of two SAR-intensity images with different numbers of looks. Furthermore, they demonstrate the adaptability of the method to the presence of high pixel correlation between the images and validate its robustness in the presence of textural complexity when the texture patterns of the images are similar.

Published

2024

17. Change detection for activity recognition

Author

Bashir, Sulaimon A.

Subjects

333.95, Activity recognition, Change detection, Classification algorithm, Sensors

Abstract

Activity Recognition is concerned with identifying the physical state of a user at a particular point in time. Activity recognition task requires the training of classification algorithm using the processed sensor data from the representative population of users. The accuracy of the generated model often reduces during classification of new instances due to the non-stationary sensor data and variations in user characteristics. Thus, there is a need to adapt the classification model to new user haracteristics. However, the existing approaches to model adaptation in activity recognition are blind. They continuously adapt a classification model at a regular interval without specific and precise detection of the indicator of the degrading performance of the model. This approach can lead to wastage of system resources dedicated to continuous adaptation. This thesis addresses the problem of detecting changes in the accuracy of activity recognition model. The thesis developed a classifier for activity recognition. The classifier uses three statistical summaries data that can be generated from any dataset for similarity based classification of new samples. The weighted ensemble combination of the classification decision from each statistical summary data results in a better performance than three existing benchmarked classification algorithms. The thesis also presents change detection approaches that can detect the changes in the accuracy of the underlying recognition model without having access to the ground truth label of each activity being recognised. The first approach called `UDetect' computes the change statistics from the window of classified data and employed statistical process control method to detect variations between the classified data and the reference data of a class. Evaluation of the approach indicates a consistent detection that correlates with the error rate of the model. The second approach is a distance based change detection technique that relies on the developed statistical summaries data for comparing new classified samples and detects any drift in the original class of the activity. The implemented approach uses distance function and a threshold parameter to detect the accuracy change in the classifier that is classifying new instances. Evaluation of the approach yields above 90% detection accuracy. Finally, a layered framework for activity recognition is proposed to make model adaptation in activity recognition informed using the developed techniques in this thesis.

Published

2017

18. Healthy ageing and binding features in working memory : measurement issues and potential boundary conditions

Author

Rhodes, Stephen, Logie, Robert, Parra Rodriguez, Mario, and Cowan, Nelson

Subjects

153.1, cognitive ageing, feature binding, working memory, change detection, measurement

Abstract

Accurate memory for an object or event requires that multiple diverse features are bound together and retained as an integrated representation. There is overwhelming evidence that healthy ageing is accompanied by an associative deficit in that older adults struggle to remember relations between items above any deficit exhibited in remembering the items themselves. However, the effect of age on the ability to bind features within novel objects (for example, their colour and shape) and retain correct conjunctions over brief intervals is less clear. The relatively small body of work that exists on this topic to-date has suggested no additional working memory impairment for conjunctions of features beyond a general age-related impairment in the ability to temporarily retain features. This is in stark contrast to the feature binding deficit observed in the early stages of Alzheimer’s disease. Nevertheless, there have been reports of age-related feature binding deficits in working memory under specific circumstances. Thus a major focus of the present work was to assess these potential boundary conditions. The change detection paradigm was used throughout this work to examine age-differences in visual working memory. Despite the popularity of this task important issues regarding the way in which working memory is probed have been left unaddressed. Chapter 2 reports three experiments with younger adults comparing two methods of testing recognition memory for features or conjunctions. Contrary to an influential study in the field, it appears that processing multiple items at test does not differentially impact on participants’ ability to detect binding changes. Chapters 3, 4, and 5 report a series of experiments motivated by previous findings of specific age-related feature binding deficits. These experiments, improving on previous methodology where possible, demonstrate that increasing the amount of time for which items can be studied (Chapter 3) or mixing feature-conjunction changes in trial-blocks with more salient changes to individual features (Chapters 4 and 5) does not differentially impact on healthy older adults’ ability to detect binding changes. Rather, the argument is made that specific procedural aspects of previous work led to the appearance of deficits that do not generalise. Chapter 5 also addresses the suggestion that healthy ageing specifically affects the retention of item-location conjunctions. The existing evidence for this claim is reviewed, and found wanting, and new data are presented providing evidence against it. To follow-up on the absence of a deficit for simple feature conjunctions, Chapter 6 contrasts two theoretically distinct binding mechanisms: one for features intrinsic to an object and another for extrinsic, contextual features. Preliminary evidence is reported that the cost associated with retaining pairings of features is specifically pronounced for older adults when the features are extrinsic to each other. In an attempt to separate out the contribution of working memory capacity and lapses of attention to age-differences in overall task performance, Chapter 7 reports the results of an exploratory analysis using processing models developed in Chapter 2. Analysis of two data sets from Chapters 4 and 5 demonstrates that lapses of attention make an important contribution to differences in change detection performance. Chapter 8 returns to the issue of measurement in assessing the evidence for specific age-related deficits. Simulations demonstrate that the choice of outcome measure can greatly affect conclusions regarding age-group by condition interactions, suggesting that some previous findings of such interactions in the literature may have been more apparent than real. In closing the General Discussion relates the present work to current theory regarding feature binding in visual working memory and to the wider literature on binding deficits in healthy and pathological ageing.

Published

2016

19. Dynamic opponent modelling in two-player games

Author

Mealing, Richard Andrew, Shapiro, Jonathan, and Brown, Gavin

Subjects

006.3, decision-making, imperfect information, learning in games, dynamic opponents, opponent modelling, sequence prediction, change detection, expectation-maximisation, reinforcement learning, lookahead, best-response, Nash equilibrium, self-play convergence, iterated normal-form games, simplified poker, multi-agent learning, game theory

Abstract

This thesis investigates decision-making in two-player imperfect information games against opponents whose actions can affect our rewards, and whose strategies may be based on memories of interaction, or may be changing, or both. The focus is on modelling these dynamic opponents, and using the models to learn high-reward strategies. The main contributions of this work are: 1. An approach to learn high-reward strategies in small simultaneous-move games against these opponents. This is done by using a model of the opponent learnt from sequence prediction, with (possibly discounted) rewards learnt from reinforcement learning, to lookahead using explicit tree search. Empirical results show that this gains higher average rewards per game than state-of-the-art reinforcement learning agents in three simultaneous-move games. They also show that several sequence prediction methods model these opponents effectively, supporting the idea of using them from areas such as data compression and string matching; 2. An online expectation-maximisation algorithm that infers an agent's hidden information based on its behaviour in imperfect information games; 3. An approach to learn high-reward strategies in medium-size sequential-move poker games against these opponents. This is done by using a model of the opponent learnt from sequence prediction, which needs its hidden information (inferred by the online expectation-maximisation algorithm), to train a state-of-the-art no-regret learning algorithm by simulating games between the algorithm and the model. Empirical results show that this improves the no-regret learning algorithm's rewards when playing against popular and state-of-the-art algorithms in two simplified poker games; 4. Demonstrating that several change detection methods can effectively model changing categorical distributions with experimental results comparing their accuracies to empirical distributions. These results also show that their models can be used to outperform state-of-the-art reinforcement learning agents in two simultaneous-move games. This supports the idea of modelling changing opponent strategies with change detection methods; 5. Experimental results for the self-play convergence to mixed strategy Nash equilibria of the empirical distributions of plays of sequence prediction and change detection methods. The results show that they converge faster, and in more cases for change detection, than fictitious play.

Published

2015

20. Using satellite remote sensing to quantify woody cover and biomass across Africa

Author

Mitchard, Edward Thomas Alexander, Meir, Patrick, Saatchi, Sassan, Woodhouse, Iain., Malthus, Timothy., and Gerard, France

Subjects

634.9, above ground biomass, Africa, change detection, remote sensing, Reducing Emissions from Deforestation and Degradation, REDD, radar

Abstract

The goal of quantifying the woody cover and biomass of tropical savannas, woodlands and forests using satellite data is becoming increasingly important, but limitations in current scientific understanding reduce the utility of the considerable quantity of satellite data currently being collected. The work contained in this thesis reduces this knowledgegap, using new field data and analysis methods to quantify changes using optical, radar and LiDAR data. The first paper shows that high-resolution optical data (Landsat & ASTER) can be used to track changes in woody vegetation in the Mbam Djerem National Park in Cameroon. The method correlates a satellite-derived vegetation index with field-measured canopy cover, and the paper concludes that forest encroached rapidly into savanna in the region from 1986-2006. Using the same study area, but with radar remote sensing data from 1996 and 2007 (ALOS PALSAR & JERS-1), the second paper shows that radar backscatter correlates well with field-measured aboveground biomass (AGB). This dataset confirms the woody encroachment within the park; however, in a larger area around the park, deforestation dominates. The AGB-radar relationships described above are expanded in the next paper to include field plots from Budongo Forest (Uganda), the Niassa Reserve (north Mozambique), and the Nhambita Community Project (central Mozambique). A consistent AGB-radar relationship is found in the combined dataset, with the RMSE for predicted AGB values for a site increasing by <30 %, compared with a site-specific equation, when using an AGB-radar equation derived from the three other sites. The study of the Nhambita site is extended in the following paper to assess the ability of radar to detect change over short time periods in this environment, as will be needed for REDD (Reducing Emissions from Deforestation and Degradation). Using radar mosaics from 2007 and 2009, areas known (from detailed ground data) to have been degraded decreased in AGB in the radar change detection, whereas areas of agroforestry and forest protection showed small increases.

Published

2012

21. Spatiotemporality in studies of vegetation and land use change

Author

Muñóz Labrador, Yandry Jesús, Milián Cabrera, Iluminada de la Caridad, Muñóz Labrador, Yandry Jesús, and Milián Cabrera, Iluminada de la Caridad

Abstract

Os estudos espaço-temporais são de grande importância na caracterização da cobertura do solo, particularmente nos estudos da vegetação e das mudanças no uso do solo em diferentes períodos. O objetivo é investigar aspectos relacionados à implementação do conhecimento em estudos espaço-temporais de cobertura vegetal e mudanças no uso do solo. Consequentemente, foi realizada uma caracterização sobre o estado da espaçotemporalidade oumultitemporalidade, a aplicação da percepção remota e dos sistemas de informação geográfica no mesmo, bem como aspectos relacionados com o estado da arte da espaçotemporalidade., Spatiotemporal studies hold great importance in the Characterization of land Cover, particularly on studies of vegetation and land use change in different periods. The objective of this bibliographic review has been to investigate aspects related to the implementation of knowledge from spatiotemporal studies of vegetation Cover and land use change. The state of spatiotemporality or multitemporality, the use of remote sensing and Geographic Information Systems in them, as well as aspects of the state of the art of spatiotemporality have been characterized., Los estudios espaciotemporales ostentan una gran importancia en la caracterización de las coberturas terrestres, en particular sobre los estudios de vegetación y cambios de uso de suelos en distintos periodos. El objetivo investigar aspectos relacionados con la implementación de conocimientos en estudios espaciotemporales de cobertura de vegetación y cambios de uso de suelo. En consecuencia se ha realizado una caracterización sobre el estado de la espaciotemporalidad o multitemporalidad, la aplicación de la percepción remota y los sistemas de información geográfica en los mismos, así como aspectos relacionados con el estado del arte de la espaciotemporalidad.

Published

2023

22. Change is Deep: A Remote Sensing Perspective

Author

Wold, Simon, Sandin, Simon, Wold, Simon, and Sandin, Simon

Abstract

Change detection (CD) has, in recent years, shown promising results in remote sensing (RS). The development of deep learning CD (DLCD) has, in even more recent years, taken change detection to another level and it has become more widely researched. However, the research depends on publicly available datasets that have been manually annotated for the task of CD. This method is cumbersome and the resulting datasets do not often include all types of change. In this thesis, the generalizability to different areas and different change types of a model trained on a widely used public dataset is analyzed. Also, the thesis investigates how 3D information from Maxar Technologies 3D models can be used to automatically create new more general datasets for CD with both binary or non-binary outputs. The access to large amounts of satellite images together with 3D information enables the creation of more general datasets that can capture more types of change.The thesis concludes that a model trained on the publicly available dataset does not generalize to other areas or other types of change. Models trained on the automatically generated datasets yield relatively good results which indicates that using 3D information to automatically create large datasets is a valid method for CD. Even non-binary approaches show promising results which enable using to gain more practical information on the change of an area. While the thesis presents encouraging results, work can definitely be done to further improve the generalization of the models and improve the dataset generation.

Published

2023

23. Satellite Image Compression Guided by Regions of Interest

Author

Schwartz, Christofer, Sander, Ingo, Bruhn, Fredrik, Persson, Mathias, Ekblad, Joakim, Fuglesang, Christer, Schwartz, Christofer, Sander, Ingo, Bruhn, Fredrik, Persson, Mathias, Ekblad, Joakim, and Fuglesang, Christer

Abstract

Small satellites empower different applications for an affordable price. By dealing with a limited capacity for using instruments with high power consumption or high data-rate requirements, small satellite missions usually focus on specific monitoring and observation tasks. Considering that multispectral and hyperspectral sensors generate a significant amount of data subjected to communication channel impairments, bandwidth constraint is an important challenge in data transmission. That issue is addressed mainly by source and channel coding techniques aiming at an effective transmission. This paper targets a significant further bandwidth reduction by proposing an on-the-fly analysis on the satellite to decide which information is effectively useful before coding and transmitting. The images are tiled and classified using a set of detection algorithms after defining the least relevant content for general remote sensing applications. The methodology makes use of the red-band, green-band, blue-band, and near-infrared-band measurements to perform the classification of the content by managing a cloud detection algorithm, a change detection algorithm, and a vessel detection algorithm. Experiments for a set of typical scenarios of summer and winter days in Stockholm, Sweden, were conducted, and the results show that non-important content can be identified and discarded without compromising the predefined useful information for water and dry-land regions. For the evaluated images, only 22.3% of the information would need to be transmitted to the ground station to ensure the acquisition of all the important content, which illustrates the merits of the proposed method. Furthermore, the embedded platform's constraints regarding processing time were analyzed by running the detection algorithms on Unibap's iX10-100 space cloud platform., QC 20230222

Published

2023

24. Fusion Landsat-8 Thermal TIRS and OLI Datasets for Superior Monitoring and Change Detection using Remote Sensing

Author

Dibs, Hayder, Ali, Alaa Hussein, Al-Ansari, Nadhir, Abed, Salwan Ali, Dibs, Hayder, Ali, Alaa Hussein, Al-Ansari, Nadhir, and Abed, Salwan Ali

Abstract

Currently, updating the change detection (CD) of land use/land cover (LU/LC) geospatial information with high accuracy outcomes is important and very confusing with the different classification methods, datasets, satellite images, and ancillary dataset types available. However, using just the low spatial resolution visible bands of the remotely sensed images will not provide good information with high accuracy. Remotely sensed thermal data contains very valuable information to monitor and investigate the CD of the LU/LC. So, it needs to involve the thermal datasets for better outcomes. Fusion plays a big role to map the CD. Therefore, this study aims to find out a refining method for estimating the accurate CD method of the LU/LC patterns by investigating the integration of the effectiveness of the thermal satellite data with visible datasets by (a) adopting a noise removal model, (b) satellite images resampling, (c) image fusion, combining and integrating between the visible and thermal images using the Grim Schmidt spectral (GS) method, (d) applying image classification using Mahalanobis distances (MH), Maximum likelihood (ML) and artificial neural network (ANN) classifiers on datasets captured from the Landsat-8 TIRS and OLI satellite system, these images were captured from operational land imager (OLI) and the thermal infrared (TIRS) sensors of 2015 and 2020 to generate about of twelve LC maps. (e) The comparison was made among all the twelve classifiers' results. The results reveal that adopting the ANN technique on the integrated images of the combined TIRS and OLI datasets has the highest accuracy compared to the rest of the applied image classification approaches. The obtained overall accuracy was 96.31% and 98.40%, and the kappa coefficients were (0.94) and (0.97) for the years 2015 and 2020, respectively. However, the ML classifier obtains better results compared to the MH approach. The image fusion and integration of the thermal images improve the accurac, Validerad;2023;Nivå 1;2023-02-17 (joosat);Licens fulltext: CC BY License

Published

2023

25. Visualization and Interaction with 3D Data

Author

Trollsfjord, Dennis and Trollsfjord, Dennis

Abstract

This paper presents Triangle-To-Cloud (T2C), a new approach for point cloud change detection. The method is compared to the established method Multiscale Model to Model Cloud Comparison (M3C2) on the accuracy to detect changes, from a point cloud to another. The comparison is performed on Light Detection and Ranging (LiDAR) mappings from an Ouster OS0-128 LiDAR sensor. Both T2C and M3C2 are tested with different parameters in all of the experiments conducted for evaluation. This work demonstrates in the experiments that T2C can outperform M3C2 in its ability to detect changes.

Published

2023

26. Change Detection Method for Wavelength-Resolution SAR Images Based on Bayes’ Theorem : An Iterative Approach

Author

Alves, Dimas irion, Palm, Bruna, Hellsten, Hans, Machado, Renato, Vu, Viet Thuy, Pettersson, Mats, Dammert, Patrik, Alves, Dimas irion, Palm, Bruna, Hellsten, Hans, Machado, Renato, Vu, Viet Thuy, Pettersson, Mats, and Dammert, Patrik

Abstract

This paper presents an iterative change detection (CD) method based on Bayes’ theorem for very high-frequency (VHF) ultra-wideband (UWB) SAR images considering commonly used clutter-plus-noise statistical models. The proposed detection technique uses the information of the detected changes to iteratively update the data and distribution information, obtaining more accurate clutter-plus-noise statistics resulting in false alarm reduction. The Bivariate Rayleigh and Bivariate Gaussian distributions are investigated as candidates to model the clutter-plus-noise, and the Anderson-Darling goodness-of-fit test is used to investigate three scenarios of interest. Different aspects related to the distributions are discussed, the observed mismatches are analyzed, and the impact of the distribution chosen for the proposed iterative change detection method is analyzed. Finally, the proposed iterative method performance is assessed in terms of the probability of detection and false alarm rate and compared with other competitive solutions. The experimental evaluation uses data from real measurements obtained using the CARABAS II SAR system. Results show that the proposed iterative CD algorithm performs better than the other methods. Author

Published

2023

27. Vegetation Cover Change Analysis during 1989-2020 of Coastal Barguna District, Bangladesh Using Remote Sensing and GIS Technology

Author

Md, Shafiqul Islam, Tania, Yeasmin, Sourav, Karmaker, Md, Shakhawat Hossain, Longyu, Shi, Md, Shafiqul Islam, Tania, Yeasmin, Sourav, Karmaker, Md, Shakhawat Hossain, and Longyu, Shi

Published

2023

28. Harbour Area Change Detection and Analysis Using SAR Images from a Recent Measurement Campaign

Author

Javadi, Saleh, Palm, Bruna, Vu, Viet Thuy, Pettersson, Mats, Sjögren, Thomas, Javadi, Saleh, Palm, Bruna, Vu, Viet Thuy, Pettersson, Mats, and Sjögren, Thomas

Abstract

Synthetic aperture radar (SAR) data are widely used for remote sensing applications, such as change detection and environmental monitoring. This paper presents a recent measurement campaign for SAR images using the LORA system and investigates the applicability of the collected data for change detection. The region of interest in this study is a busy commercial harbour area in the south of Sweden. During the measurements, there were significant changes on the ground in the parking lot as trucks were disembarking a ship. The obtained SAR images were first filtered to have similar regions of interest in the Fourier domain to increase the coherence magnitude. Then, a constant false alarm rate (CFAR) algorithm was employed to detect changes with respect to trucks. In addition, optical aerial images were collected during this measurement campaign and were utilized to adjust the CFAR detection threshold. As a result, all the changed and unchanged regions corresponding to the selected targets were detected successfully. Moreover, a pattern of trucks’ utilization of the harbour’s parking lot during this peak time was obtained. The results demonstrate the applicability of the data from the ongoing measurement campaign and the possibility of further algorithm development for target detection and classification.

Published

2023

29. Supervised and Unsupervised Deep Learning Models for Flood Detection

Author

Yadav, Ritu and Yadav, Ritu

Abstract

Human civilization has an increasingly powerful influence on the earthsystem. Affected by climate change and land-use change, floods are occurringacross the globe and are expected to increase in the coming years. Currentsituations urge more focus on efficient monitoring of floods and detecting impactedareas. Earth observations are an invaluable source for monitoring theEarth’s surface at a large scale. In particular, the Sentinel-1 Synthetic ApertureRadar (SAR) and Sentinel-2 MultiSpectral Instrument (MSI) missionsoffer high-resolution data with frequent global revisits that are widely usedfor flood detection.Current solutions such as Copernicus Emergency Management Services(CEMS), MODIS (Moderate Resolution Imaging Spectroradiometer) globalflood product, and many others use data from Sentinel and multiple othersatellites to detect floods. Although existing solutions are helpful, they alsohave several limitations. For instance, solutions like MODIS global floodproduct detect floods solely on optical images causing poor or no detection incloudy areas. In addition, these solutions are threshold-based and often requirecriteria-based adjustments. Furthermore, these solutions do not leveragerich spatial information between neighboring pixels and don’t use temporalfeatures of time series data. Therefore, advanced processing algorithms areneeded to provide a reliable method for flood detection.This thesis presents three Deep Learning (DL) models for flood detection.The first two models are supervised segmentation models proposed todetect floods on uni-temporal Sentinel-1 SAR data. The study sites containfloods from Bolivia, Ghana, India, Mekong, Nigeria, Pakistan, Paraguay,Somalia, Spain, Sri Lanka and USA. The third model is an unsupervised spatiotemporalchange detection (CD) model that detects floods on time series ofSentinel-1 SAR data. The study sites contain floods from Slovakia, Somalia,Spain, Bolivia, Mekong, Bosnia, Australia, Scotland and Germany.The two supervise, Den mänskliga civilisationen har ett allt starkare inflytande på jordsystemet. Påverkad av klimatförändringar och förändringar i markanvändningen sker översvämningar över hela världen och förväntas öka under de kommande åren. Nuvarande situationer kräver mer fokus på effektiv övervakning av översvämningar och upptäckt av drabbade områden. Jordobservationer är en ovärderlig källa för att övervaka jordens yta i stor skala. Särskilt Sentinel- 1 Synthetic Aperture Radar (SAR) och Sentinel-2 MultiSpectral Instrument (MSI)-uppdrag erbjuder högupplösta data med frekventa globala återbesök som används ofta för att detektera översvämningar. Aktuella lösningar som Copernicus Emergency Management Services (CEMS), MODIS (Moderate Resolution Imaging Spectroradiometer) globala översvämningsprodukter och många andra använder data från Sentinel och flera andra satelliter för att upptäcka översvämningar. Även om befintliga lösningar är användbara, har de också flera begränsningar. Till exempel upptäcker lösningar som MODIS globala översvämningsprodukt översvämningar enbart på optiska bilder som orsakar dålig eller ingen detektering i molniga områden. Dessutom är dessa lösningar tröskelbaserade och kräver ofta kriteriebaserade justeringar. Dessutom utnyttjar dessa lösningar inte rik rumslig information mellan angränsande pixlar och använder inte tidsseriedata. Därför behövs avancerade bearbetningsalgoritmer för att tillhandahålla en tillförlitlig metod för översvämningsdetektering. Denna avhandling presenterar tre modeller för djupinlärning (DL) för översvämningsdetektering. De två första modellerna är övervakade segmenteringsmodeller som föreslagits för att upptäcka översvämningar på uni-temporala Sentinel-1 SAR-data. Studieplatserna innehåller översvämningar från Bolivia, Ghana, Indien, Mekong, Nigeria, Pakistan, Paraguay, Somalia, Spanien, Sri Lanka och USA. Den tredje modellen är en oövervakad modell för upptäckt av spatiotemporal förändring (CD) som detekterar översvämningar på, QC 20231030

Published

2023

30. Combinaison de données optique et radar pour l’estimation de l’humidité du sol en milieu agricole

Author

Goïta, Kalifa, Kane, Ramatoulaye, Magagi, Ramata, Goïta, Kalifa, Kane, Ramatoulaye, and Magagi, Ramata

Abstract

L'humidité du sol est essentielle pour les surfaces agricoles. Des variations importantes d’'humidité du sol peuvent affecter grandement le rendement agricole. L'état hydrique du sol devient donc un facteur important pour la croissance des cultures. Les changements climatiques affectent la disponibilité de l'eau dans les couches du sol. Pour une meilleure gestion du stress hydrique ou de l'asphyxie des plantes, dus respectivement à un manque ou à un excès d'humidité du sol, la mise en œuvre de méthodes de surveillance de l'humidité du sol est nécessaire. Or, l'humidité du sol est très variable dans le temps et l'espace en raison de sa dépendance à plusieurs paramètres dont la texture du sol, les précipitations et la topographie. Par conséquent, la connaissance de la teneur en eau de surface du sol à une échelle spatiale et temporelle élevée présente un grand défi. Ainsi, l’objectif de cette étude est de contribuer à l’amélioration de l’estimation de l’humidité du sol sur les zones agricoles, et ce, en combinant les données satellites radar et optiques à l’aide d’une méthode de détection des changements. L'étude repose sur la complémentarité des données optiques et radar et porte sur l'application d’un algorithme existant sur un site présentant une variabilité suffisante en termes de types de cultures et de texture du sol. L’humidité du sol est estimée à deux niveaux d’échelle : à l’échelle du champ et à l’échelle du pixel (30 m). En outre, une étude est menée pour analyser les limites de l'algorithme. La zone d'étude est le site de l'expérience terrain Soil Moisture Active and Passive (SMAP) tenue au Manitoba en 2016 (SMAPVEX16-MB) en vue de supporter les activités de validation des produits du satellite SMAP. Au cours de cette campagne, les caractéristiques du sol (humidité du sol et rugosité) et les données de végétation (biomasse, LAI, etc.) ont été collectées dans 50 champs, d'environ 800 m x 800 m, chaque. De plus, l’étude bénéficie de données in situ issues de, Soil moisture is critical to agricultural land. Variations in soil moisture (low or high) can greatly affect crop yields. Soil moisture status becomes a limiting factor for crop growth. Climate change affects the availability of water in the soil layers. For a better management of water stress or plant asphyxia, due respectively to a lack or an excess of soil moisture, the implementation of soil moisture monitoring methods is necessary. Soil moisture is highly variable in time and space due to its dependence on several parameters including soil texture, precipitation and topography. Therefore, knowledge of soil surface water content at a high spatial and temporal scale presents a great challenge. Thus, the objective of this study is to contribute to the improvement of soil moisture estimation over agricultural areas by combining radar and optical satellite data using a change detection method. The study is based on the complementarity of optical and radar data and focuses on the application of an existing algorithm on a site with sufficient variability in terms of crop types and soil texture. Soil moisture is estimated at two scales: field scale and pixel scale (30 m). In addition, a study is conducted to analyze the limitations of the algorithm. The study area is the site from the 2016 Soil Moisture Active and Passive (SMAP) mission soil moisture validation experiment conducted in Manitoba, Canada (SMAPVEX16-MB). During this campaign, soil characteristics (soil moisture and roughness) and vegetation data (biomass, LAI, etc.) were collected from 50 fields, of approximately 800 m x 800 m, each. In addition, the study benefits from in-situ data from permanent soil moisture stations of the Realtime In-situ Soil Monitoring for Agriculture (RISMA) network and from temporary stations. The satellite database is composed of radar data (Radarsat-2 and Sentinel-1) and multi-source optical data (Sentinel-2, Landsat-8, Rapideye, and Planetscope) in order to ensure a

Published

2023

31. Spatio-Temporal Changes in Patterns of Land Use and Land Cover in Peri - Urban Areas of Faisalabad City

Author

Afzal, Iqra, Waseem, Liaqate Ali, Khurshid, Madiha, Maqbool, Muhammad Shahid, Afzal, Iqra, Waseem, Liaqate Ali, Khurshid, Madiha, and Maqbool, Muhammad Shahid

Abstract

The changes in land use occurs with the passage of time in an area where the priorities of living standard changes. The increase in population and better socio-economic opportunities within urban localities influences the peripheral areas as well as the proximities. The aims of the study changes in land use patterns in peri urban areas. The current research evaluated the variation in land use preferences in Faisalabad city during the 2000, 2010 and 2017, covering 18 years. The change is detected through satellite images by applying the supervised classification in specified classes including vegetation, built up areas, barren land and water bodies. The analyses of the acquired images disclosed that the dominant land utilization in the peri-urban zone is the built-up or infrastructure development. This urban expansion and development mostly influenced the agricultural land or vegetation cover, as results vegetation cover reduced rapidly. Out of the total land area, the urban infrastructure area with 24% in 2000, increased to 46% in 2017. The results further indicated that the city is expanding rapidly towards the peri-urban areas. For the most part of the peri-urban, land is converted to urban land uses as for housing, infrastructure and commercial activities.

Published

2023

32. Causes Of Sectarian Extremism in Pakistan: An Emic Perspective Of Religious Scholars

Author

Manzoor, Sumera, Rehman, Hafeez ur, Razaq, Huma, Manzoor, Sumera, Rehman, Hafeez ur, and Razaq, Huma

Abstract

Sectarianism is a problem that has a huge impact on people. The implications of sectarian violence are posing great threats to the peace process in the country. The society of Pakistan is by and large divided on ethnic basis and this issue is badly damaging the society on economic political as well as on societal basis. The purpose for present study is to investigate the reasons of extremism and sectarianism and to highlight the preventive measures for control of sectarianism. The Qualitative research design was used to conduct the study. Present research was conducted with different sect scholars in the district Muzaffarabad Azad Jammu and Kashmir. A six semi- structured, question interview guide was used for data collection and interview was recorded with 7 male and 1 female with their ages range from (35-65) and education (B.A - M.A). The consent form was design to seek consent for willingness to give interview and allow for audio recording of their interview from participants. An In-depth analysis of data was done through thematic analysis by Braun & Clarke (2006). In depth analysis revealed that there is different Islamic views, division of groups, propaganda ,lack of faith, use of power, conflicts, cognitions, following the schools of thoughts and force against Islam regarding opinion of sectarianism. Different preventive measures are given which should be taken as, maintain the level of understanding among sectarian leaders, and work in individual capacity. This research helps researchers for better understanding of causes of sectarianism in Pakistani society.

Published

2023

33. Monitoring deforestation in the Serranía de Chiribiquete in northern Colombian Amazon using time series analysis of satellite data

Author

Qian, Yuyang and Qian, Yuyang

Abstract

Deforestation monitoring is of significant importance for the ecosystem, climate change,and policy-making. The availability of optical and synthetic aperture radar (SAR) satellite remote sensing images, along with the development of time series change detection methods, has contributed to the increasing popularity of time series analysis in forest disturbance monitoring. However, there are few studies that compare the performance of optical and SAR imagery for this purpose. In this study, the Landsat and Sentinel-1 time series imagery from 2016 to 2021 was used to detect forest cover loss in the northern Colombian Amazon, which has experienced great deforestation following the signing of the Colombian peace agreement in 2016. The time series change detection method applied in this study is the Continuous Change Detection and Classification (CCDC) algorithm, as it flags land cover changes by differencing the predicted and observed data. The deforestation detected by 1040 Landsat and 1378 Sentinel-1 images indicates that deforestation gradually increased from 2016 to 2018 and then exhibited a fluctuating trend. The peak years of deforestation were observed in 2018 and 2020. The paired-samples t-test revealed that the difference between detected forest loss area by Landsat and Sentinel-1 data is statistically significant in study region 1, while it is not statistically significant in study region 2. Furthermore, the spatial distribution analysis indicated that the detected forest loss from 2016 to 2021 roughly followed the direction of the boundaries of the protected area. After assessing the accuracy using stratified random sampling, the overall accuracy values of 62.7% for Landsat and 43.3% for Sentinel-1 in detecting deforestation were obtained. Subsequently, a temporal accuracy assessment of the forest disturbance pixels successfully detected by Landsat and Sentinel-1 was conducted. The results showed that 62.8% of Landsat pixels and 74.9% of Sentinel-1 pixels accu, Deforestation monitoring is crucial for understanding its impact on the environment, climate change, and policymaking. To achieve this, researchers have been using satellite remote sensing images, such as optical and synthetic aperture radar (SAR), along with time series analysis. However, there is limited research comparing the performance of optical and SAR imagery for this purpose. In this study, Landsat and Sentinel-1 satellite data from 2016 to 2021 were utilized to detect forest cover loss in the northern Colombian Amazon, which has experienced significant deforestation since the Colombian peace agreement was signed in 2016. The study employed the Continuous Change Detection and Classification (CCDC) algorithm to detect forest loss. Analysis of Landsat and Sentinel-1 images revealed a gradual increase in deforestation from 2016 to 2018, followed by a fluctuating trend. The peak deforestation years were observed in 2018 and 2020. A statistical test showed that the difference in detected forest loss area between Landsat and Sentinel-1 data was statistically significant in one study region but not in another. Spatial distribution analysis indicated that the detected forest loss from 2016 to 2021 roughly followed the boundaries of the protected area. The accuracy assessment showed Landsat performed better.

Published

2023

34. Wavelength Resolution SAR Change Detection : New Measurement Campaign for New Research Data Set

Author

Palm, Bruna, Javadi, Saleh, Vu, Viet Thuy, Pettersson, Mats, Sjogren, Thomas, Palm, Bruna, Javadi, Saleh, Vu, Viet Thuy, Pettersson, Mats, and Sjogren, Thomas

Abstract

This paper describes a new measurement campaign for SAR images. The data consists of images collected by the Swedish LORA system associated with VHF-band (19-90 MHz). Due to the system frequency, detecting targets concealed in a forest is possible. Thus, this paper aims to share with the community the results of utilizing new VHF-band SAR data that allows the development of new methods for target and other change detection. In particular, to show the applicability of the new data set, a simple change detection method was performed to detect targets in a forest, resulting in 100% of detection, associated with no false alarm in a particular region of interest.

Published

2023

35. Remote Sensing and GIS Techniques in Monitoring Land Use Land Cover Change

Author

Sameer, Mohammed Kareem, Hamid, Adnan Muttashar, Sameer, Mohammed Kareem, and Hamid, Adnan Muttashar

Abstract

This examination by utilizing GIS and Remote Sensing procedures to planning highlights of Al-Kut city, Iraq from 2004 to 2014, in order to classify developments that has occurred between these periods. The using of satellite image (Quick bird satellite) with depending on remote detecting and GIS to identify Land Use/Land Cover change which is defined as the amount of the distinct information and current change data that can incite continuously touchable bits of information into basic strategies, including land spread and land use changes. The process of defining the Changes related to LULC properties called change detection and it’s referenced to Geo-registered high resolution. It is useful in many applications such as identification of land use changes, the amount of deforestation, urban extension, and other cumulative changes through spatial and historical analysis techniques. The dependable method briefly by data acquisition (satellite image with resolution 0.60 m) and geo-referenced with GCPs to produce a thematic map of feature classified and making the statistical analyzing.ARC map software help us to make this easy by depending on entering two types of data, first one is satellite image and second one is ground control points.  This study shows a development in built-up land and expansion from 2004 to 2014, however in the city, land decreasing, which is due to the development and growth in it. Finally, the result shows the decreasing in waterbodies and waste land area with noticed increasing of using land. These progressions are mainly happening with uncontrolled urban growth.

Published

2023

36. Analysis of changes in land use and land cover in Central Kashmir of the Great Himalayas using geospatial technologies

Author

Syed, Rouhullah Ali, Khan, Junaid N., Kumar, Rohitashw, Lone, Farooq Ahmad, Mir, Shakeel Ahmad, Khan, Imran, Syed, Rouhullah Ali, Khan, Junaid N., Kumar, Rohitashw, Lone, Farooq Ahmad, Mir, Shakeel Ahmad, and Khan, Imran

Abstract

Remote sensing data may identify changes in land use and land cover (LU/LC). Land cover changes include changing from one land cover category to another and changing conditions within a category. LU/LC change is an essential aspect of current environmental management techniques. It is vital for land conservation, sustainable development, and water resource management. The study's goal is to investigate changes in land use and land cover in Central Kashmir of the Great Himalayas. This study used LISS III 23.5 m resolution images between 2000 and 2017 to detect land cover change. Changes were identified using Arc GIS 10.4.1. This method identified seven land use/cover classes: water bodies, glaciers/snow; forests; agriculture; horticulture; wasteland/barren; and built-up/utility. Ground truthing was done to test the accuracy of the preprocessing and categorization of the images. This study found that in the previous 17 years, all land use classes in Central Kashmir have changed significantly. Remote sensing and Geographic Information Systems (GIS) have been used to better comprehend the consequences of physical changes. The study's findings can be used to design resource conservation measures. To protect unwanted LU/LC change in Central Kashmir, proper land management methods, integrated watershed management, and community engagement should be encouraged.

Published

2023

37. Distributed processing of Dutch AHN laser altimetry changes of the built-up area

Author

Lindenbergh, R.C. (author), Cserép, Máté (author), Lindenbergh, R.C. (author), and Cserép, Máté (author)

Abstract

The evolution and spreading of data capturing methods ranging from simple GPS devices like smart-phones to large scale imaging equipment – including very high resolution and hyperspectral cameras and LiDAR – resulted in an exponential growth in the amount of spatial data maintained by companies and organizations. At the same time methods for extracting information from such data are often behind in efficiency. In this paper we analyse the possibilities for nation-wide change detection of massive airborne laser altimetry point clouds, based on digital elevation models generated from them. The proposed workflow distinguishes modifications in the built-up area from other changes and noise. Our methodology combines different area processing spatial algorithms: object detection, noise filtering, morphological operations and clustering. Our proposed method is designed to scale dynamically on extensive datasets by processing a spatially partitioned input dataset in an easily parallelized manner. Favourable visualizations and aggregated representations of the results are examined, followed by a discussion of feasible validation methods. As a demonstration we showcase the implemented distributed evaluation of our workflow on the full Dutch altimetry archive – a dataset exceeding several terabytes of storage space – using a high-performance computing environment. While the average execution time was 47 h on a desktop computer, our solution only took less than 2.4 h to complete. The output was validated against the building layer of the TOP10NL topographic dataset, proving a 70% accuracy nation-wide and over 90% for urban areas. As a result our analysis shows that The Netherlands experienced an aggregated building volume change of 912.33 km3 between the acquisition of AHN-2 and AHN-3., Optical and Laser Remote Sensing

Published

2023

38. AI Applications to Power Systems.

Author

Tjing Lie, Tek and Tjing Lie, Tek

Subjects

History of engineering & technology, Technology: general issues, Markov decision process, artificial neural networks, automatic P2P energy trading, cellular computational networks, change detection, contingency, data analytics, data mining, deep Q-network, deep reinforcement learning, dynamic mode decomposition, event detection, feature extraction, filtering, fuzzy system, inter-area oscillations, load flow prediction, long short-term delayed reward, machine learning, machine-learning, manta ray foraging optimization algorithm, modal analysis, multi-objective function, n/a, optimal power flow, optimization, optimization techniques, power quality, radial networks, reduced order modeling, self-healing grid, signal processing, situation awareness, steady-state security assessment, total variation smoothing

Abstract

Summary: Today, the flow of electricity is bidirectional, and not all electricity is centrally produced in large power plants. With the growing emergence of prosumers and microgrids, the amount of electricity produced by sources other than large, traditional power plants is ever-increasing. These alternative sources include photovoltaic (PV), wind turbine (WT), geothermal, and biomass renewable generation plants. Some renewable energy resources (solar PV and wind turbine generation) are highly dependent on natural processes and parameters (wind speed, wind direction, temperature, solar irradiation, humidity, etc.). Thus, the outputs are so stochastic in nature. New data-science-inspired real-time solutions are needed in order to co-develop digital twins of large intermittent renewable plants whose services can be globally delivered.

39. Advances in Remote Sensing of Postfire Environmental Damage and Recovery Dynamics.

Author

Fernández-Manso, Alfonso, Fernández-Manso, Alfonso, and Quintano, Carmen

Subjects

Environmental science, engineering & technology, Technology: general issues, ALS, Araucaria araucana, C- and L-band SAR, California, EFAs, Google Earth Engine, K-means, LandTrendr, Landsat, Landsat 8 OLI, Landsat-8 OLI, Mediterranean, NBR, PROBA-V, RTM, SAR, SAR backscatter, SSTCA, SVR, Sentinel-2A, Tree canopy cover, UAS, VIIRS, airborne laser scanner, alpine treeline ecotone, arctic tundra fire, burn severity, burned areas detection, canopy cover, change detection, char soil index, classification thresholds, composite burn index, dNBR, driving factors, ecological disturbance, ecosystem functioning, energy balance, evapotranspiration, fire, fire history, fire impact, fire management, fire severity, forest fire, forest structure, fuzzy logic, land surface albedo, land surface temperature, landsat, lidar, linear spectral mixing model, mask region-based convolutional neural network, mid-infrared burned index, monoplotting, normalized burn ratio, normalized difference vegetation index, pine forests, post-fire recovery, post-fire restoration, prescribed burns, radar burn ratio, random forest, repeat photography, satellite image time-series, shade fraction image, small unmanned aircraft system, small unmanned aircraft systems, structure-from-motion, support vector machine, time series, time-series, transfer learning model, tree mortality, vegetation recovery, wildfire, wildfires, wildland fire extent, wildland fire severity

Abstract

Summary: Understanding forest fire regimes involves characterizing spatial distribution, recurrence, intensity, seasonality, size, and severity. In recent years, knowledge of damage levels can be directly related to the environmental impact of fire and, at the same time, it is a valuable estimator of fire intensity, when the data about it are not available. Remote sensing may be seen as a tool to accurately assess burn severity and to predict the potential effects of forest fires on ecosystems, thus making the prediction of the regeneration of the plant community and the effects on ecosystems easier. This information is basic to facilitate decision-making in the post-fire management of fire-prone ecosystems. Nowadays, there has been intense research activity in relation to burned areas, burn severity, and vegetation regeneration because fires in many areas of the planet are becoming more severe and extensive, and their correct evaluation and follow-up is posing great challenges to current scientists. The current advances in remote sensing and related sciences will allow us to evaluate the damage with greater precision and to know with greater reliability the dynamics of recovery. This reprint contains studies on new remote sensing technologies, new sensors, data collections, and processing methodologies that can be successfully applied in burn severity mapping, vegetation recovery monitoring, and post-fire management of fire-prone ecosystems affected by large fires. We hope this book can help readers become more familiar with this knowledge and foster an increased interest in this field.

40. Improving UAV-SfM time-series accuracy by co-alignment and contributions of ground control or RTK positioning

Author

Nota, E.W., Nijland, W., Haas, T. de, Nota, E.W., Nijland, W., and Haas, T. de

Abstract

Unmanned Aerial Vehicle Structure from Motion (UAV-SfM) photogrammetry is increasingly applied to topographic change detection, which requires multitemporal Digital Surface Models (DSMs) with high relative accuracy. Of these tools, Ground Control Points (GCPs) and an image processing method called co-alignment have so far shown promising results for change detection studies. However, there is still insufficient research on the extent of improving 3D model accuracy by combining these tools. In our study we assess absolute and relative accuracy of 120 DSMs generated through 24 workflows of UAV-SfM photogrammetry. Surveys were acquired with two different UAVs with Real Time Kinematic (RTK) or generic Global Navigation Satellite System (GNSS) positioning, and processed with varying combinations of survey co-alignment and GCPs. We show that co-alignment reduces relative errors to below 2 cm regardless of positioning quality. A single RTK survey in a co-aligned project is sufficient to obtain high absolute xy accuracy, but GCPs for at least one survey are still required to reduce absolute z error. We demonstrate that co-aligning RTK surveys with generic GNSS surveys results in RTK class accuracy for all surveys, even when mixed sensor grades are used. Our findings enable high-accuracy change detection with lower accuracy archived images when combined with RTK surveys. For future UAV-SfM change detection studies, we recommend to apply co-alignment for all studies, and where possible to include GCPs and RTK image coordinates in one survey to optimize absolute accuracy. Collecting and digitizing GCPs in multiple surveys has shown little additional benefit when co-alignment is applied and therefore may be omitted to save time, especially in challenging field conditions.

Published

2022

41. Eye movements dissociate between perceiving, sensing, and unconscious change detection in scenes.

Author

Ramey, Michelle, Ramey, Michelle, Yonelinas, Andrew, Henderson, John, Ramey, Michelle, Ramey, Michelle, Yonelinas, Andrew, and Henderson, John

Abstract

Detecting visual changes can be based on perceiving, whereby one can identify a specific detail that has changed, on sensing, whereby one knows that there is a change but is unable to identify what changed, or on unconscious change detection, whereby one is unaware of any change even though the change influences ones behavior. Prior work has indicated that the processes underlying these different types of change detection are functionally and neurally distinct, but the attentional mechanisms that are related to these different types of change detection remain largely unknown. In the current experiment, we examined eye movements during a change detection task in globally manipulated scenes, and participants indicated their change detection confidence on a scale that allowed us to isolate perceiving, sensing, and unconscious change detection. For perceiving-based change detection, but not sensing-based or unconscious change detection, participants were more likely to preferentially revisit highly changed scene regions across the first and second presentation of the scene (i.e., resampling). This increase in resampling started within 250 ms of the test scene onset, suggesting that the effect began within the first two fixations. In addition, changed scenes were related to more clustered (i.e., less dispersed) eye movements than unchanged scenes, particularly when the subjects were highly confident that no change had occurred - providing evidence for change detection outside of conscious awareness. The results indicate that perceiving, sensing, and unconscious change detection responses are related to partially distinct patterns of eye movements.

Published

2022

42. Data-driven Infrastructure Inspection

Author

Bianchi, Eric Loran and Bianchi, Eric Loran

Abstract

Bridge inspection and infrastructure inspection are critical steps in the lifecycle of the built environment. Emerging technologies and data are driving factors which are disrupting the traditional processes for conducting these inspections. Because inspections are mainly conducted visually by human inspectors, this paper focuses on improving the visual inspection process with data-driven approaches. Data driven approaches, however, require significant data, which was sparse in the existing literature. Therefore, this research first examined the present state of the existing data in the research domain. We reviewed hundreds of image-based visual inspection papers which used machine learning to augment the inspection process and from this, we compiled a comprehensive catalog of over forty available datasets in the literature and identified promising, emerging techniques and trends in the field. Based on our findings in our review we contributed six significant datasets to target gaps in data in the field. The six datasets comprised of structural material segmentation, corrosion condition state segmentation, crack detection, structural detail detection, and bearing condition state classification. The contributed datasets used novel annotation guidelines and benefitted from a novel semi-automated annotation process for both object detection and pixel-level detection models. Using the data obtained from our collected sources, task-appropriate deep learning models were trained. From these datasets and models, we developed a change detection algorithm to monitor damage evolution between two inspection videos and trained a GAN-Inversion model which generated hyper-realistic synthetic bridge inspection image data and could forecast a future deterioration state of an existing bridge element. While the application of machine learning techniques in civil engineering is not wide-spread yet, this research provides impactful contribution which demonstrates the advantages that dat

Published

2022

43. Combined Detection of Surface Changes and Deformation Anomalies Using Amplitude-Augmented Recursive InSAR Time Series

Author

Hu, F. (author), van Leijen, F.J. (author), Chang, L. (author), Wu, Jicang (author), Hanssen, R.F. (author), Hu, F. (author), van Leijen, F.J. (author), Chang, L. (author), Wu, Jicang (author), and Hanssen, R.F. (author)

Abstract

Synthetic aperture radar (SAR) missions with short repeat times enable opportunities for near real-time deformation monitoring. Traditional multitemporal interferometric SAR (MT-InSAR) is able to monitor long-term and periodic deformation with high precision by time-series analysis. However, as time series lengthen, it is time-consuming to update the current results by reprocessing the whole dataset. Additionally, the number of coherent scatterers varies over time due to disappearing and emerging scatterers due to inevitable changes in surface scattering, and potential deformation anomalies require changes in the prevailing deformation model. Here, we propose a novel method to analyze InSAR time series recursively and detect both significant changes in scattering as well as deformation anomalies based on the new acquisitions. Sequential change detection is developed to identify temporary coherent scatterers (TCSs) using amplitude time series. Based on the predicted phase residuals, scatterers with abnormal deformation displacements are identified by a generalized ratio test, while the parameters of stable scatterers are updated using Kalman filtering. The quality of the anomaly detection is assessed based on the detectability power and the minimum detectable deformation. This facilitates (near) real-time data processing and decreases the false alarm likelihood. Experimental results show that the technique can be used for the real-time evaluation of deformation risks., Mathematical Geodesy and Positioning

Published

2022

44. Detecting anthropogenic volume changes in cross sections of a sandy beach with permanent laser scanning

Author

Kuschnerus, M. (author), Lindenbergh, R.C. (author), Lodder, Q.J. (author), Brand, E. (author), Vos, S.E. (author), Kuschnerus, M. (author), Lindenbergh, R.C. (author), Lodder, Q.J. (author), Brand, E. (author), and Vos, S.E. (author)

Abstract

Coastal areas world wide are highly dynamic areas, subject to continuous deformation processes. Both natural and anthropogenic processes constantly cause changes at various spatial scales. Sandy beaches in the Netherlands fall under a regulation, according to which moving sand is permitted, if the volume change remains below a certain threshold. The threshold holds for volume changes within a cross section of 1 m width of the beach. The enforcement of this rule is currently labor intensive, because monitoring generally happens only on a yearly basis, or incidental and non-quantitative. Improved observation capabilities with remote sensing are advancing the supporting technology for this kind of regulations. Permanent laser scanning is a potential tool for monitoring and quantifying volume changes of a section of the beach. We develop and implement methodology to extract time series of volume change with respect to a reference date of 01-01-2020 covering January 2020 until the end of April 2020. The method is applied on point cloud data from a permanent laser scanner on the coast of Noordwijk, The Netherlands. We analyse the time series for incidents, where the threshold in volume change is passed, and find all shortest intervals during which the threshold is passed. Then we analyse potential underlying cause in order to support not only enforcement, but also evaluation of the current regulation. This will ultimately help to work towards a better understanding of the influence of small scale human activities on coastal development., Optical and Laser Remote Sensing, Policy Analysis, Coastal Engineering

Published

2022

45. Detection and characterization of coastal tidal wetland change in the northeastern US using Landsat time series

Author

Yang, Xiucheng, Zhu, Zhe, Qiu, Shi, Kroeger, Kevin D., Zhu, Zhiliang, Covington, Scott, Yang, Xiucheng, Zhu, Zhe, Qiu, Shi, Kroeger, Kevin D., Zhu, Zhiliang, and Covington, Scott

Abstract

© The Author(s), 2022. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Yang, X., Zhu, Z., Qiu, S., Kroeger, K. D., Zhu, Z., & Covington, S. Detection and characterization of coastal tidal wetland change in the northeastern US using Landsat time series. Remote Sensing of Environment, 276, (2022): 113047, https://doi.org/10.1016/j.rse.2022.113047., Coastal tidal wetlands are highly altered ecosystems exposed to substantial risk due to widespread and frequent land-use change coupled with sea-level rise, leading to disrupted hydrologic and ecologic functions and ultimately, significant reduction in climate resiliency. Knowing where and when the changes have occurred, and the nature of those changes, is important for coastal communities and natural resource management. Large-scale mapping of coastal tidal wetland changes is extremely difficult due to their inherent dynamic nature. To bridge this gap, we developed an automated algorithm for DEtection and Characterization of cOastal tiDal wEtlands change (DECODE) using dense Landsat time series. DECODE consists of three elements, including spectral break detection, land cover classification and change characterization. DECODE assembles all available Landsat observations and introduces a water level regressor for each pixel to flag the spectral breaks and estimate harmonic time-series models for the divided temporal segments. Each temporal segment is classified (e.g., vegetated wetlands, open water, and others – including unvegetated areas and uplands) based on the phenological characteristics and the synthetic surface reflectance values calculated from the harmonic model coefficients, as well as a generic rule-based classification system. This harmonic model-based approach has the advantage of not needing the acquisition of satellite images at optimal conditions (i.e., low tide status) to avoid underestimating coastal vegetation caused by the tidal fluctuation. At the same time, DECODE can also characterize different kinds of changes including land cover change and condition change (i.e., land cover modification without conversion). We used DECODE to track status of coastal tidal wetlands in the northeastern United States from 1986 to 2020. The overall accuracy of land cover classification and change detection is approximately 95.8% and 99.8%, respectively. The veg, This study was supported by USGS North Atlantic Coast Cooperative Ecosystem Studies Unit (CESU) Program for Detection and Characterization of Coastal Tidal Wetland Change (G19AC00354).

Published

2022

46. Change Detection Based on Convolutional Neural Networks Using Stacks of Wavelength-Resolution Synthetic Aperture Radar Images

Author

Vinholi, João G., Palm, Bruna, Silva, Danilo, Machado, Renato, Pettersson, Mats, Vinholi, João G., Palm, Bruna, Silva, Danilo, Machado, Renato, and Pettersson, Mats

Abstract

This article presents two supervised change detection algorithms (CDA) based on convolutional neural networks (CNN) that use stacks of co-registered wavelength-resolution synthetic aperture radar (SAR) images to detect changes in an image under monitoring. The additional information of a scene of interest provided by SAR image stacks can be explored to enhance the performance of change detection algorithms. In particular, stacks of images with similar statistics can be obtained for ultra-wideband (UWB) very high frequency (VHF) SAR systems, as they produce images highly stable in time. The proposed CDAs can be summed up into four stages: difference image formation, semantic segmentation, clustering, and change classification. The CNN-GSP algorithm is based on a ground scene prediction (GSP) image, which is used as a reference to form a difference image (DI). A CNN-based model then analyzes the DI. The CNN-MDI algorithm feeds multiple DIs with identical monitored images to a CNN-based model, which will concurrently analyze their features. Tests with CARABAS-II data show that the proposed CDAs can outperform other state-of-the-art algorithms that also use stacks of WR-SAR images. Beyond that, the proposed algorithms outperformed a CNN-based CDA that does not use image stacks, which shows that CNN-based algorithms can use the additional information provided by stacks of SAR images to reduce false alarm occurrences while increasing the probability of detection of changes., Open access

Published

2022

47. Change Detection for Monostatic Pursuit SAR GMTI-Theories and Experimental Results

Author

Sjogren, Thomas K., Vu, Viet Thuy, Pettersson, Mats, Gustavsson, Anders, Sjogren, Thomas K., Vu, Viet Thuy, Pettersson, Mats, and Gustavsson, Anders

Abstract

Monostatic pursuit refers to the operating mode formed by two monostatic synthetic aperture radar (SAR) systems that follow an identical orbit with a separation in a time of several seconds. The detected changes between SAR scenes with several seconds of time difference are most likely the changes caused by ground moving targets. Hence, this operating mode opens an opportunity to detect ground moving targets by SAR change detection methods. This article investigates this possibility to detect ground moving targets using change detection and to combine change detection and ground moving target indication (GMTI) for GMTI. In this combination, a GMTI method will help to classify the detected changes obtained with a change detection method. Some GMTI results are provided in the article based on the measurements in the monostatic pursuit mode with deployed targets, conducted by TerraSAR-X and TanDEM-X in Sweden in early 2015., open access

Published

2022

48. Building Change Detection using Multi-Temporal Airborne LiDAR Data

Author

Yadav, Ritu, Ban, Yifang, Nascetti, Andrea, Yadav, Ritu, Ban, Yifang, and Nascetti, Andrea

Abstract

Building change detection is essential for monitoring urbanization, disaster assessment, urban planning and frequently updating the maps. 3D structure information from airborne light detection and ranging (LiDAR) is very effective for detecting urban changes. But the 3D point cloud from airborne LiDAR(ALS) holds an enormous amount of unordered and irregularly sparse information. Handling such data is tricky and consumes large memory for processing. Most of this information is not necessary when we are looking for a particular type of urban change. In this study, we propose an automatic method that reduces the 3D point clouds into a much smaller representation without losing necessary information required for detecting Building changes. The method utilizes the Deep Learning(DL) model U-Net for segmenting the buildings from the background. Produced segmentation maps are then processed further for detecting changes and the results are refined using morphological methods. For the change detection task, we used multi-temporal airborne LiDAR data. The data is acquired over Stockholm in the years 2017 and 2019. The changes in buildings are classified into four types: ‘newly built’, ‘demolished’, ‘taller’ and ’shorter’. The detected changes are visualized in one map for better interpretation., QC 20221031

Published

2022

49. Attentive Dual Stream Siamese U-net for Flood Detection on Multi-temporal Sentinel-1 Data

Author

Yadav, Ritu, Nascetti, Andrea, Ban, Yifang, Yadav, Ritu, Nascetti, Andrea, and Ban, Yifang

Abstract

Due to climate and land-use change, natural disasters such as flooding have been increasing in recent years. Timely and reliable flood detection and mapping can help emergency response and disaster management. In this work, we propose a flood detection network using bi-temporal SAR acquisitions. The proposed segmentation network has an encoder-decoder architecture with two Siamese encoders for pre and post-flood images. The network’s feature maps are fused and enhanced using attention blocks to achieve more accurate detection of the flooded areas. Our proposed network is evaluated on publicly available Sen1Flood11 [1] benchmark dataset. The network outperformed the existing state-of-the-art (uni-temporal) flood detection method by 6% IOU. The experiments highlight that the combination of bi-temporal SAR data with an effective network architecture achieves more accurate flood detection than uni-temporal methods., QC 20220628

Published

2022

50. Damage Assessment of the 2022 Tongatapu Tsunami : With Remote Sensing

Author

Larsson, Milton and Larsson, Milton

Abstract

The Island of Tongatapu, Tonga, was struck by a tsunami on January 15, 2022. Internet was cut off from the island, which made remote sensing a valuable tool for the assessment of damages. Through land cover classification, change vector analysis and log-ratio image differencing, damages caused by the tsunami were assessed remotely in this thesis. Damage assessment is a vital part of both assessing the need for humanitarian aid after a tsunami, but also lays the foundation for preventative measurements and reconstruction. The objective of this thesis was to assess damage in terms of square kilometers and create damage maps. It was also vital to assess the different methods and evaluate their accuracy. Results from this study could theoretically be combined with other damage assessments to evaluate different aspects of damage. It was also important to evaluate which methods would be good to use in a similar event. In this study Sentinel-1, Sentinel-2 and high-resolution Planet Imagery were used to conduct a damage assessment. Evaluating both moderate and high-resolution imagery in combination with SAR yielded plausible, but flawed results. Land cover was computed for moderate and high-resolution imagery using three types of classifiers. It was found that the Random Forest classifier outperforms both CART and Support Vector Machine classification for this study area. Land cover composite image differencing for pre-and-post tsunami Sentinel-2 images achieved an accuracy of around 85%. Damage was estimated to be about 10.5 km^2. Land cover classification with high-resolution images gave higher accuracy. The total estimated damaged area was about 18 km^2. The high-resolution image classification was deemed to be the better method of urban damage assessment, with moderate-resolution imagery working well for regional damage assessment. Change vector analysis provided plausible results when using Sentinel-2 with NDVI, NDMI, SAVI and BSI. NDVI was found to be the most compr

Published

2022