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1. Nacala-Roof-Material: Drone Imagery for Roof Detection, Classification, and Segmentation to Support Mosquito-borne Disease Risk Assessment

Author

Guthula, Venkanna Babu, Oehmcke, Stefan, Chilaule, Remigio, Zhang, Hui, Lang, Nico, Kariryaa, Ankit, Mottelson, Johan, and Igel, Christian

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence, Computer Science - Machine Learning
Abstract

As low-quality housing and in particular certain roof characteristics are associated with an increased risk of malaria, classification of roof types based on remote sensing imagery can support the assessment of malaria risk and thereby help prevent the disease. To support research in this area, we release the Nacala-Roof-Material dataset, which contains high-resolution drone images from Mozambique with corresponding labels delineating houses and specifying their roof types. The dataset defines a multi-task computer vision problem, comprising object detection, classification, and segmentation. In addition, we benchmarked various state-of-the-art approaches on the dataset. Canonical U-Nets, YOLOv8, and a custom decoder on pretrained DINOv2 served as baselines. We show that each of the methods has its advantages but none is superior on all tasks, which highlights the potential of our dataset for future research in multi-task learning. While the tasks are closely related, accurate segmentation of objects does not necessarily imply accurate instance separation, and vice versa. We address this general issue by introducing a variant of the deep ordinal watershed (DOW) approach that additionally separates the interior of objects, allowing for improved object delineation and separation. We show that our DOW variant is a generic approach that improves the performance of both U-Net and DINOv2 backbones, leading to a better trade-off between semantic segmentation and instance segmentation.

Published
2024

2. MMEarth: Exploring Multi-Modal Pretext Tasks For Geospatial Representation Learning

Author

Nedungadi, Vishal, Kariryaa, Ankit, Oehmcke, Stefan, Belongie, Serge, Igel, Christian, and Lang, Nico

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence, Computer Science - Machine Learning
Abstract

The volume of unlabelled Earth observation (EO) data is huge, but many important applications lack labelled training data. However, EO data offers the unique opportunity to pair data from different modalities and sensors automatically based on geographic location and time, at virtually no human labor cost. We seize this opportunity to create MMEarth, a diverse multi-modal pretraining dataset at global scale. Using this new corpus of 1.2 million locations, we propose a Multi-Pretext Masked Autoencoder (MP-MAE) approach to learn general-purpose representations for optical satellite images. Our approach builds on the ConvNeXt V2 architecture, a fully convolutional masked autoencoder (MAE). Drawing upon a suite of multi-modal pretext tasks, we demonstrate that our MP-MAE approach outperforms both MAEs pretrained on ImageNet and MAEs pretrained on domain-specific satellite images. This is shown on several downstream tasks including image classification and semantic segmentation. We find that pretraining with multi-modal pretext tasks notably improves the linear probing performance compared to pretraining on optical satellite images only. This also leads to better label efficiency and parameter efficiency which are crucial aspects in global scale applications., Comment: Accepted for ECCV 2024. Data and code: https://vishalned.github.io/mmearth Update arXiv v2 (ECCV): 1. Dataset fix: Removed duplicates and corrected ERA5 yearly statistics. 2. Data augmentation fix: Random crops are now aligned. 3. Test metrics fix: Metrics are now overall instead of mini-batch averages, matching GEO-Bench metrics. 4. Pretrained on MMEarth v001 & evaluated on GEO-Bench v1.0

Published
2024

5. Predicting urban tree cover from incomplete point labels and limited background information

Author

Zhang, Hui, Kariryaa, Ankit, Guthula, Venkanna Babu, Igel, Christian, and Oehmcke, Stefan

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Trees inside cities are important for the urban microclimate, contributing positively to the physical and mental health of the urban dwellers. Despite their importance, often only limited information about city trees is available. Therefore in this paper, we propose a method for mapping urban trees in high-resolution aerial imagery using limited datasets and deep learning. Deep learning has become best-practice for this task, however, existing approaches rely on large and accurately labelled training datasets, which can be difficult and expensive to obtain. However, often noisy and incomplete data may be available that can be combined and utilized to solve more difficult tasks than those datasets were intended for. This paper studies how to combine accurate point labels of urban trees along streets with crowd-sourced annotations from an open geographic database to delineate city trees in remote sensing images, a task which is challenging even for humans. To that end, we perform semantic segmentation of very high resolution aerial imagery using a fully convolutional neural network. The main challenge is that our segmentation maps are sparsely annotated and incomplete. Small areas around the point labels of the street trees coming from official and crowd-sourced data are marked as foreground class. Crowd-sourced annotations of streets, buildings, etc. define the background class. Since the tree data is incomplete, we introduce a masking to avoid class confusion. Our experiments in Hamburg, Germany, showed that the system is able to produce tree cover maps, not limited to trees along streets, without providing tree delineations. We evaluated the method on manually labelled trees and show that performance drastically deteriorates if the open geographic database is not used.

Published
2023

6. Benchmarking Individual Tree Mapping with Sub-meter Imagery

Author

Gominski, Dimitri, Kariryaa, Ankit, Brandt, Martin, Igel, Christian, Li, Sizhuo, Mugabowindekwe, Maurice, and Fensholt, Rasmus

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

There is a rising interest in mapping trees using satellite or aerial imagery, but there is no standardized evaluation protocol for comparing and enhancing methods. In dense canopy areas, the high variability of tree sizes and their spatial proximity makes it arduous to define the quality of the predictions. Concurrently, object-centric approaches such as bounding box detection usuallyperform poorly on small and dense objects. It thus remains unclear what is the ideal framework for individual tree mapping, in regards to detection and segmentation approaches, convolutional neural networks and transformers. In this paper, we introduce an evaluation framework suited for individual tree mapping in any physical environment, with annotation costs and applicative goals in mind. We review and compare different approaches and deep architectures, and introduce a new method that we experimentally prove to be a good compromise between segmentation and detection.

Published
2023

7. Trees on smallholder farms and forest restoration are critical for Rwanda to achieve net zero emissions

Author

Mugabowindekwe, Maurice, Brandt, Martin, Mukuralinda, Athanase, Ciais, Philippe, Reiner, Florian, Kariryaa, Ankit, Igel, Christian, Chave, Jérôme, Mertz, Ole, Hiernaux, Pierre, Tong, Xiaoye, Rwanyiziri, Gaspard, Gominski, Dimitri, Li, Sizhuo, Liu, Siyu, Gasangwa, Ivan, Hategekimana, Yves, Ndoli, Alain, Nduwamungu, Jean, Saatchi, Sassan, and Fensholt, Rasmus

Published
2024
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10. Trees on smallholder farms and forest restoration are critical for Rwanda to achieve net zero emissions

Author

Maurice Mugabowindekwe, Martin Brandt, Athanase Mukuralinda, Philippe Ciais, Florian Reiner, Ankit Kariryaa, Christian Igel, Jérôme Chave, Ole Mertz, Pierre Hiernaux, Xiaoye Tong, Gaspard Rwanyiziri, Dimitri Gominski, Sizhuo Li, Siyu Liu, Ivan Gasangwa, Yves Hategekimana, Alain Ndoli, Jean Nduwamungu, Sassan Saatchi, and Rasmus Fensholt

Subjects
Geology, QE1-996.5, Environmental sciences, GE1-350
Abstract

Abstract Landscape restoration initiatives are mainly focusing on forest regeneration and agroforestry, especially in the Global South. However, due to a lack of monitoring tools, the carbon balance of restoration efforts remains poorly quantified. Here, we use satellite images from 2008 and 2019 to calculate carbon stocks for individual trees in Rwanda, a country which has been actively engaged in restoration activities over the past decade. We show that smallholder farmers on average planted about 3 trees per farm during 2008–2019, contributing about 50.4 million new trees at the national scale. The overall C sink of the new farmland trees was 0.13 Megagrams of Carbon per hectare per year, which is 6 times lower than gains observed from restoration of degraded forests (0.76 Megagrams of Carbon per hectare per year). If national greenhouse gas emissions remain at the level of 2019, agroforestry (~61% of national area coverage) and continued restoration of degraded natural forests (~0.5% of national area coverage) have the potential to offset about 80% of the national emissions before 2050. Our work monitors and quantifies progress and impact of landscape restoration projects and outlines a pathway to engage smallholder farmers with a limited number of on-farm trees into the expanding carbon market.

Published
2024
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11. OPTIMADE, an API for exchanging materials data

Author

Andersen, Casper W., Armiento, Rickard, Blokhin, Evgeny, Conduit, Gareth J., Dwaraknath, Shyam, Evans, Matthew L., Fekete, Ádám, Gopakumar, Abhijith, Gražulis, Saulius, Merkys, Andrius, Mohamed, Fawzi, Oses, Corey, Pizzi, Giovanni, Rignanese, Gian-Marco, Scheidgen, Markus, Talirz, Leopold, Toher, Cormac, Winston, Donald, Aversa, Rossella, Choudhary, Kamal, Colinet, Pauline, Curtarolo, Stefano, Di Stefano, Davide, Draxl, Claudia, Er, Suleyman, Esters, Marco, Fornari, Marco, Giantomassi, Matteo, Govoni, Marco, Hautier, Geoffroy, Hegde, Vinay, Horton, Matthew K., Huck, Patrick, Huhs, Georg, Hummelshøj, Jens, Kariryaa, Ankit, Kozinsky, Boris, Kumbhar, Snehal, Liu, Mohan, Marzari, Nicola, Morris, Andrew J., Mostofi, Arash, Persson, Kristin A., Petretto, Guido, Purcell, Thomas, Ricci, Francesco, Rose, Frisco, Scheffler, Matthias, Speckhard, Daniel, Uhrin, Martin, Vaitkus, Antanas, Villars, Pierre, Waroquiers, David, Wolverton, Chris, Wu, Michael, and Yang, Xiaoyu

Subjects
Condensed Matter - Materials Science
Abstract

The Open Databases Integration for Materials Design (OPTIMADE) consortium has designed a universal application programming interface (API) to make materials databases accessible and interoperable. We outline the first stable release of the specification, v1.0, which is already supported by many leading databases and several software packages. We illustrate the advantages of the OPTIMADE API through worked examples on each of the public materials databases that support the full API specification., Comment: 11 pages, 1 table

Published
2021
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14. Activity and mood-based routing for autonomous vehicles

Author

Kariryaa, Ankit, Veale, Tony, and Schöning, Johannes

Subjects
Computer Science - Human-Computer Interaction, H.5.m
Abstract

A significant amount of our daily lives is dedicated to driving, leading to an unavoidable exposure to driving-related stress. The rise of autonomous vehicles will likely lessen the extent of this stress and enhance the routine traveling experience. Yet, no matter how diverse they may be, current routing criteria are limited to considering only the passive preferences of a vehicle's users. Thus, to enhance the overall driving experience in autonomous vehicles, we advocate here for the diversification of routing criteria, by additionally emphasizing activity- and mood-based requirements., Comment: 5 pages, 1 figure

Published
2020

15. MaskIt: Masking for efficient utilization of incomplete public datasets for training deep learning models

Author

Kariryaa, Ankit

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

A major challenge in training deep learning models is the lack of high quality and complete datasets. In the paper, we present a masking approach for training deep learning models from a publicly available but incomplete dataset. For example, city of Hamburg, Germany maintains a list of trees along the roads, but this dataset does not contain any information about trees in private homes and parks. To train a deep learning model on such a dataset, we mask the street trees and aerial images with the road network. Road network used for creating the mask is downloaded from OpenStreetMap, and it marks the area where the training data is available. The mask is passed to the model as one of the inputs and it also coats the output. Our model learns to successfully predict trees only in the masked region with 78.4% accuracy., Comment: 5 pages, 3 figures

Published
2020

16. More than one quarter of Africa’s tree cover is found outside areas previously classified as forest

Author

Reiner, Florian, Brandt, Martin, Tong, Xiaoye, Skole, David, Kariryaa, Ankit, Ciais, Philippe, Davies, Andrew, Hiernaux, Pierre, Chave, Jérôme, Mugabowindekwe, Maurice, Igel, Christian, Oehmcke, Stefan, Gieseke, Fabian, Li, Sizhuo, Liu, Siyu, Saatchi, Sassan, Boucher, Peter, Singh, Jenia, Taugourdeau, Simon, Dendoncker, Morgane, Song, Xiao-Peng, Mertz, Ole, Tucker, Compton J., and Fensholt, Rasmus

Published
2023
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17. OPTIMADE, an API for exchanging materials data.

Author

Andersen, Casper W, Armiento, Rickard, Blokhin, Evgeny, Conduit, Gareth J, Dwaraknath, Shyam, Evans, Matthew L, Fekete, Ádám, Gopakumar, Abhijith, Gražulis, Saulius, Merkys, Andrius, Mohamed, Fawzi, Oses, Corey, Pizzi, Giovanni, Rignanese, Gian-Marco, Scheidgen, Markus, Talirz, Leopold, Toher, Cormac, Winston, Donald, Aversa, Rossella, Choudhary, Kamal, Colinet, Pauline, Curtarolo, Stefano, Di Stefano, Davide, Draxl, Claudia, Er, Suleyman, Esters, Marco, Fornari, Marco, Giantomassi, Matteo, Govoni, Marco, Hautier, Geoffroy, Hegde, Vinay, Horton, Matthew K, Huck, Patrick, Huhs, Georg, Hummelshøj, Jens, Kariryaa, Ankit, Kozinsky, Boris, Kumbhar, Snehal, Liu, Mohan, Marzari, Nicola, Morris, Andrew J, Mostofi, Arash A, Persson, Kristin A, Petretto, Guido, Purcell, Thomas, Ricci, Francesco, Rose, Frisco, Scheffler, Matthias, Speckhard, Daniel, Uhrin, Martin, Vaitkus, Antanas, Villars, Pierre, Waroquiers, David, Wolverton, Chris, Wu, Michael, and Yang, Xiaoyu

Abstract

The Open Databases Integration for Materials Design (OPTIMADE) consortium has designed a universal application programming interface (API) to make materials databases accessible and interoperable. We outline the first stable release of the specification, v1.0, which is already supported by many leading databases and several software packages. We illustrate the advantages of the OPTIMADE API through worked examples on each of the public materials databases that support the full API specification.

Published
2021

18. More than one quarter of Africa’s tree cover is found outside areas previously classified as forest

Author

Florian Reiner, Martin Brandt, Xiaoye Tong, David Skole, Ankit Kariryaa, Philippe Ciais, Andrew Davies, Pierre Hiernaux, Jérôme Chave, Maurice Mugabowindekwe, Christian Igel, Stefan Oehmcke, Fabian Gieseke, Sizhuo Li, Siyu Liu, Sassan Saatchi, Peter Boucher, Jenia Singh, Simon Taugourdeau, Morgane Dendoncker, Xiao-Peng Song, Ole Mertz, Compton J. Tucker, and Rasmus Fensholt

Subjects
Science
Abstract

Abstract The consistent monitoring of trees both inside and outside of forests is key to sustainable land management. Current monitoring systems either ignore trees outside forests or are too expensive to be applied consistently across countries on a repeated basis. Here we use the PlanetScope nanosatellite constellation, which delivers global very high-resolution daily imagery, to map both forest and non-forest tree cover for continental Africa using images from a single year. Our prototype map of 2019 (RMSE = 9.57%, bias = −6.9%). demonstrates that a precise assessment of all tree-based ecosystems is possible at continental scale, and reveals that 29% of tree cover is found outside areas previously classified as tree cover in state-of-the-art maps, such as in croplands and grassland. Such accurate mapping of tree cover down to the level of individual trees and consistent among countries has the potential to redefine land use impacts in non-forest landscapes, move beyond the need for forest definitions, and build the basis for natural climate solutions and tree-related studies.

Published
2023
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19. Sub-continental-scale carbon stocks of individual trees in African drylands

Author

Tucker, Compton, Brandt, Martin, Hiernaux, Pierre, Kariryaa, Ankit, Rasmussen, Kjeld, Small, Jennifer, Igel, Christian, Reiner, Florian, Melocik, Katherine, Meyer, Jesse, Sinno, Scott, Romero, Eric, Glennie, Erin, Fitts, Yasmin, Morin, August, Pinzon, Jorge, McClain, Devin, Morin, Paul, Porter, Claire, Loeffler, Shane, Kergoat, Laurent, Issoufou, Bil-Assanou, Savadogo, Patrice, Wigneron, Jean-Pierre, Poulter, Benjamin, Ciais, Philippe, Kaufmann, Robert, Myneni, Ranga, Saatchi, Sassan, and Fensholt, Rasmus

Published
2023
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20. Nation-wide mapping of tree-level aboveground carbon stocks in Rwanda

Author

Mugabowindekwe, Maurice, Brandt, Martin, Chave, Jérôme, Reiner, Florian, Skole, David L., Kariryaa, Ankit, Igel, Christian, Hiernaux, Pierre, Ciais, Philippe, Mertz, Ole, Tong, Xiaoye, Li, Sizhuo, Rwanyiziri, Gaspard, Dushimiyimana, Thaulin, Ndoli, Alain, Uwizeyimana, Valens, Lillesø, Jens-Peter Barnekow, Gieseke, Fabian, Tucker, Compton J., Saatchi, Sassan, and Fensholt, Rasmus

Published
2023
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22. Detection and mapping of artillery craters with very high spatial resolution satellite imagery and deep learning

Author

Erik C. Duncan, Sergii Skakun, Ankit Kariryaa, and Alexander V. Prishchepov

Subjects
Artillery crater, Very high spatial resolution, Satellite imagery, WorldView-2, Deep learning, U-Net, Physical geography, GB3-5030, Science
Abstract

Unexploded munitions are some of the most enduring remnants of conflicts around the world. Their effects on the economy, health, environment, and post-conflict rehabilitation are long reaching and devastating for the areas they plague. With the advancements in very high spatial resolution (VHR) satellite multispectral imaging at sub-meter resolution, it becomes possible to detect object attributes at the scale of individual impacts (craters) of heavy weapon shelling. Manual identification and delineation of artillery craters in satellite imagery is time and resource consuming, especially when large territories and volumes of VHR data are considered. Therefore, automatic image processing methods should be explored. Here, we evaluate the application of a deep learning approach for identifying and mapping artillery craters in agricultural fields in Eastern Ukraine during the onset of armed conflict in 2014. The model was applied to pansharpened multispectral VHR imagery acquired by the WorldView-2 satellite at 0.5-m spatial resolution. The model can detect artillery craters with producer's accuracy (PA) (or recall) of 0.671 and user's accuracy (UA) (or precision) of 0.392 in terms of crater area and shape, and PA of 0.559 and UA of 0.427 in terms of binary crater identification. The model's performance is dependent on crater size. Reliability of crater detection and mapping improves as the size of craters increases. For example, for craters larger than 60 m2 PA is 0.803 and UA is 0.449 (per-pixel), and PA is 0.891 and UA is 0.721 (per-object). Overall, the model prioritizes PA over UA, i.e., omission error over commission error, and is better at detecting craters than their shapes. We applied the trained model to a separate, 858 km2 subregion of Donetsk oblast to automatically estimate and map the locations, number and area of artillery craters. Our estimates revealed over 22,000 craters in the subregion, which occupy an area of 1.2 km2, or 0.14% of the region, primarily in agricultural fields. The availability of such crater maps is extremely valuable within demining and chemical decontamination efforts and can assist in assessing the impact of warfare on agriculture and the environment. We outline the current limitations of the proposed approach and avenues for further research for improving artillery crater detection and mapping.

Published
2023
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27. Sub-Continental-Scale Carbon Stocks of Individual Trees in African Drylands

Author

Compton Tucker, Martin Brandt, Pierre Hiernaux, Ankit Kariryaa, Kjeld Rasmussen, Jennifer Small, Christian Igel, Florian Reiner, Katherine Melocik, Jesse Meyer, Scott Sinno, Eric Romero, Erin Glennie, Yasmin Fitts, August Morin, Jorge Pinzon, Devin McClain, Paul Morin, Claire Porter, Shane Loeffler, Laurent Kergoat, Bil-Assanou Issoufou, Patrice Savadogo, Jean-Pierre Wigneron, Benjamin Poulter, Philippe Ciais, Robert Kaufmann, Ranga Myneni, Sassan Saatchi, and Rasmus Fensholt

Subjects
Earth Resources and Remote Sensing
Abstract

The distribution of dryland trees and their density, cover, size, mass and carbon content are not well known at sub-continental to continental scales. This information is important for ecological protection, carbon accounting, climate mitigation and restoration efforts of dryland ecosystems. We assessed more than 9.9 billion trees derived from more than 300,000 satellite images, covering semi-arid sub-Saharan Africa north of the Equator. We attributed wood, foliage and root carbon to every tree in the 0–1,000 mm year−1 rainfall zone by coupling field data, machine learning, satellite data and high-performance computing. Average carbon stocks of individual trees ranged from 0.54 Mg C ha−1 and 63 kg C tree−1 in the arid zone to 3.7 Mg C ha−1 and 98 kg tree−1 in the sub-humid zone. Overall, we estimated the total carbon for our study area to be 0.84 (±19.8%) Pg C. Comparisons with 14 previous TRENDY numerical simulation studies23 for our area found that the density and carbon stocks of scattered trees have been underestimated by three models and overestimated by 11 models, respectively. This benchmarking can help understand the carbon cycle and address concerns about land degradation. We make available a linked database of wood mass, foliage mass, root mass and carbon stock of each tree for scientists, policymakers, dryland-restoration practitioners and farmers, who can use it to estimate farmland tree carbon stocks from tablets or laptops.

Published
2023
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28. OPTIMADE, an API for exchanging materials data

Author

Casper W. Andersen, Rickard Armiento, Evgeny Blokhin, Gareth J. Conduit, Shyam Dwaraknath, Matthew L. Evans, Ádám Fekete, Abhijith Gopakumar, Saulius Gražulis, Andrius Merkys, Fawzi Mohamed, Corey Oses, Giovanni Pizzi, Gian-Marco Rignanese, Markus Scheidgen, Leopold Talirz, Cormac Toher, Donald Winston, Rossella Aversa, Kamal Choudhary, Pauline Colinet, Stefano Curtarolo, Davide Di Stefano, Claudia Draxl, Suleyman Er, Marco Esters, Marco Fornari, Matteo Giantomassi, Marco Govoni, Geoffroy Hautier, Vinay Hegde, Matthew K. Horton, Patrick Huck, Georg Huhs, Jens Hummelshøj, Ankit Kariryaa, Boris Kozinsky, Snehal Kumbhar, Mohan Liu, Nicola Marzari, Andrew J. Morris, Arash A. Mostofi, Kristin A. Persson, Guido Petretto, Thomas Purcell, Francesco Ricci, Frisco Rose, Matthias Scheffler, Daniel Speckhard, Martin Uhrin, Antanas Vaitkus, Pierre Villars, David Waroquiers, Chris Wolverton, Michael Wu, and Xiaoyu Yang

Subjects
Science
Abstract

Abstract The Open Databases Integration for Materials Design (OPTIMADE) consortium has designed a universal application programming interface (API) to make materials databases accessible and interoperable. We outline the first stable release of the specification, v1.0, which is already supported by many leading databases and several software packages. We illustrate the advantages of the OPTIMADE API through worked examples on each of the public materials databases that support the full API specification.

Published
2021
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29. An unexpectedly large count of trees in the West African Sahara and Sahel

Author

Brandt, Martin, Tucker, Compton J., Kariryaa, Ankit, Rasmussen, Kjeld, Abel, Christin, Small, Jennifer, Chave, Jerome, Rasmussen, Laura Vang, Hiernaux, Pierre, Diouf, Abdoul Aziz, Kergoat, Laurent, Mertz, Ole, Igel, Christian, Gieseke, Fabian, Schöning, Johannes, Li, Sizhuo, Melocik, Katherine, Meyer, Jesse, Sinno, Scott, Romero, Eric, Glennie, Erin, Montagu, Amandine, Dendoncker, Morgane, and Fensholt, Rasmus

Published
2020
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33. CHI 2018.

Author

Niels van Berkel, Julio Vega, Ankit Kariryaa, C. Estelle Smith, and Ye Yuan 0010

Published
2018
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34. Severe decline in large agroforestry trees in India over the past decade

Author

Brandt, Martin, primary, Gominski, Dimitri, additional, Reiner, Florian, additional, Kariryaa, Ankit, additional, Guthula, Venkanna, additional, Ciais, Philippe, additional, Tong, Xiaoye, additional, Zhang, Wenmin, additional, Govindarajulu, Dhanapal, additional, Ortiz-Gonzalo, Daniel, additional, and Fensholt, Rasmus, additional

Published
2023
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35. Rwanda’s pathway to net zero empowering smallholder farmers and forest restoration

Author

Mugabowindekwe, Maurice, primary, Brandt, Martin, additional, Mukuralinda, Athanase, additional, Ciais, Philippe, additional, Reiner, Florian, additional, Kariryaa, Ankit, additional, Igel, Christian, additional, Chave, Jerome, additional, Mertz, Ole, additional, Hiernaux, Pierre, additional, Tong, Xiaoye, additional, Rwanyiziri, Gaspard, additional, Gominski, Dimitri, additional, Li, Sizhuo, additional, Liu, Siyu, additional, Gasangwa, Ivan, additional, Hategekimana, Yves, additional, Ndoli, Alain, additional, Nduwamungu, Jean, additional, Saatchi, Sassan, additional, and Fensholt, Rasmus, additional

Published
2023
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36. Mapping every adult baobab (Adansonia digitata L.) across the Sahel to uncover the co-existence with rural livelihoods

Author

huang, ke, primary, Brandt, Martin, additional, Hiernaux, Pierre, additional, Tucker, Compton, additional, Rasmussen, Laura, additional, Reiner, Florian, additional, Li, Sizhuo, additional, Kariryaa, Ankit, additional, Mugabowindekwe, Maurice, additional, Braber, Bowy, additional, Small, Jennifer, additional, Sino, Scott, additional, and Fensholt, Rasmus, additional

Published
2023
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37. Deep learning for mapping water bodies in the Sahel

Author

de FLEURY, Mathilde, Kergoat, Laurent, Brandt, Martin, Fensholt, Rasmus, Kariryaa, Ankit, Kovács, Gyula Mate, Horion, Stéphanie, Grippa, Manuela, de FLEURY, Mathilde, Kergoat, Laurent, Brandt, Martin, Fensholt, Rasmus, Kariryaa, Ankit, Kovács, Gyula Mate, Horion, Stéphanie, and Grippa, Manuela

Abstract

Inland surface water, especially lakes and small water bodies, are essential resources and have impacts on biodiversity, greenhouse gases and health. This is particularly true in the semi-arid Sahelian region, where these resources remain largely unassessed, and little is known about their number, size and quality. Remote sensing monitoring methods remain a promising tool to address these issues at the large scale, especially in areas where field data are scarce. Thanks to technological advances, current remote sensing systems provide data for regular monitoring over time and offer a high spatial resolution, up to 10 metres. Several water detection methods have been developed, many of them using spectral information to differentiate water surfaces from soil, through thresholding on water indices (MNDWI for example), or classifications by clustering. These methods are sensitive to optical reflectance variability and are not straight forwardly applicable to regions, such as the Sahel, where the lakes and their environment are very diverse. Particularly, the presence of aquatic vegetation is an important challenge and source of error for many of the existing algorithms and available databases. Deep learning, a subset of machine learning methods for training deep neural networks, has emerged as the state-of-the-art approach for a large number of remote sensing tasks. In this study, we apply a deep learning model based on the U-Net architecture to detect water bodies in the Sahel using Sentinel-2 MSI data, and 86 manually defined lake polygons as training data. This framework was originally developed for tree mapping (Brandt et al., 2020, https://doi.org/10.1038/s41586-020-2824-5). Our preliminary analysis indicate that our models achieve a good accuracy (98 %). The problems of aquatic vegetation do not appear anymore, and each lake is thus well delimited irrespective of water type and characteristics. Using the water delineations obtained

Published
2023

38. Deep learning enables image-based tree counting, crown segmentation and height prediction at national scale

Author

Li, Sizhuo, Brandt, Martin, Fensholt, Rasmus, Kariryaa, Ankit, Igel, Christian, Gieseke, Fabian, Nord-Larsen, Thomas, Oehmcke, Stefan, Carlsen, Ask Holm, Junttila, Samuli, Tong, Xiaoye, d’Aspremont, Alexandre, Ciais, Philippe, Li, Sizhuo, Brandt, Martin, Fensholt, Rasmus, Kariryaa, Ankit, Igel, Christian, Gieseke, Fabian, Nord-Larsen, Thomas, Oehmcke, Stefan, Carlsen, Ask Holm, Junttila, Samuli, Tong, Xiaoye, d’Aspremont, Alexandre, and Ciais, Philippe

Abstract

Sustainable tree resource management is the key to mitigating climate warming, fostering a green economy, and protecting valuable habitats. Detailed knowledge about tree resources is a prerequisite for such management but is conventionally based on plot-scale data, which often neglects trees outside forests. Here, we present a deep learning-based framework that provides location, crown area, and height for individual overstory trees from aerial images at country scale. We apply the framework on data covering Denmark and show that large trees (stem diameter >10 cm) can be identified with a low bias (12.5%) and that trees outside forests contribute to 30% of the total tree cover, which is typically unrecognized in national inventories. The bias is high (46.6%) when our results are evaluated against all trees taller than 1.3 m, which involve undetectable small or understory trees. Furthermore, we demonstrate that only marginal effort is needed to transfer our framework to data from Finland, despite markedly dissimilar data sources. Our work lays the foundation for digitalized national databases, where large trees are spatially traceable and manageable.

Published
2023

39. Allometric equations to estimate the dry mass of Sahel woody plants mapped with very-high resolution satellite imagery

Author

Hiernaux, Pierre, Issoufou, Hassane Bil Assanou, Igel, Christian, Kariryaa, Ankit, Kourouma, Moussa, Chave, Jérôme, Mougin, Eric, Savadogo, Patrice, Hiernaux, Pierre, Issoufou, Hassane Bil Assanou, Igel, Christian, Kariryaa, Ankit, Kourouma, Moussa, Chave, Jérôme, Mougin, Eric, and Savadogo, Patrice

Abstract

Very high-resolution satellite images and deep learning are achieving the mapping of individual trees and shrubs over large areas in Africa. Each woody plant is precisely georeferenced and defined by its crown area and, sometimes, its height. The challenge is to build allometric equations for foliage, wood and root dry masses based either on crown area alone, or the product crown area × tree height as independent variables regardless of species. This was met by reanalyzing existing Sahel woody plant data from destructive sampling. Overall, the foliage (seasonal maximum), wood and root dry masses were measured on 900, 698 and 26 trees or shrubs from 27, 26 and 5 species respectively. The regression models tested for foliage, wood or root masses were linear or power functions using a range of different approaches: Ordinary least square (OLS) regression after log–log transform with or without Baskerville correction (1972), and non-linear regressions (NLR). All the models outputs were intercompared for fit indicators and prediction uncertainty, as well as the resulting trends in root to wood ratio, and foliage to wood ratio over the range of crown areas. This process selected a set of OLS log–log equations with crown area as independent variable. When the Baskerville correction is applied the approximation errors are 0.4 kg Dry Matter (DM) for foliage, 12.2 for wood and 6.3 for roots, aggregating at 13.8 kg DM per tree. These allometry equations were compared to published equations for tropical trees, most from the more humid tropics that were generally based on stem diameter, tree height and wood density. This paper's allometry predictions were within the range of these other allometry equations, reinforcing the confidence in their use even beyond the Sahel domain towards sub-humid savannas.

Published
2023

40. Predicting urban tree cover from incomplete point labels and limited background information

Author

Omitaomu, Olufemi A., Mostafavi, Ali, Liu, Yan, Zhang, Hui, Kariryaa, Ankit, Guthula, Venkanna Babu, Igel, Christian, Oehmcke, Stefan, Omitaomu, Olufemi A., Mostafavi, Ali, Liu, Yan, Zhang, Hui, Kariryaa, Ankit, Guthula, Venkanna Babu, Igel, Christian, and Oehmcke, Stefan

Abstract

Trees inside cities are important for the urban microclimate, contributing positively to the physical and mental health of the urban dwellers. Despite their importance, often only limited information about city trees is available. Therefore in this paper, we propose a method for mapping urban trees in high-resolution aerial imagery using limited datasets and deep learning. Deep learning has become best-practice for this task, however, existing approaches rely on large and accurately labelled training datasets, which can be difficult and expensive to obtain. However, often noisy and incomplete data may be available that can be combined and utilized to solve more difficult tasks than those datasets were intended for.This paper studies how to combine accurate point labels of urban trees along streets with crowd-sourced annotations from an open geographic database to delineate city trees in remote sensing images, a task which is challenging even for humans. To that end, we perform semantic segmentation of very high resolution aerial imagery using a fully convolutional neural network.The main challenge is that our segmentation maps are sparsely annotated and incomplete. Small areas around the point labels of the street trees coming from official and crowd-sourced data are marked as foreground class. Crowd-sourced annotations of streets, buildings, etc. define the background class. Since the tree data is incomplete, we introduce a masking to avoid class confusion.Our experiments in Hamburg, Germany, showed that the system is able to produce tree cover maps, not limited to trees along streets, without providing tree delineations. We evaluated the method on manually labelled trees and show that performance drastically deteriorates if the open geographic database is not used.

Published
2023

41. Digital twinning of all forest and non-forest trees at national level via deep learning

Author

Sizhuo Li, Martin Brandt, Rasmus Fensholt, Ankit Kariryaa, Christian Igel, Fabian Gieseke, Thomas Nord-Larsen, Stefan Oehmke, Ask Holm-Carlsen, Samuli Junttila, Xiaoye Tong, Alexandre d’Aspremont, Philippe Ciais, University of Copenhagen = Københavns Universitet (UCPH), Department of Computer Science [Copenhagen] (DIKU), Faculty of Science [Copenhagen], University of Copenhagen = Københavns Universitet (UCPH)-University of Copenhagen = Københavns Universitet (UCPH), Department of Geosciences and Natural Resource Management [Copenhagen] (IGN), Laboratoire de physique de l'ENS - ENS Paris (LPENS), Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)-Université Paris Cité (UPCité)-Département de Physique de l'ENS-PSL, École normale supérieure - Paris (ENS-PSL), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-École normale supérieure - Paris (ENS-PSL), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL), Kayrros, Laboratoire des Sciences du Climat et de l'Environnement [Gif-sur-Yvette] (LSCE), Université de Versailles Saint-Quentin-en-Yvelines (UVSQ)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut national des sciences de l'Univers (INSU - CNRS)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), and ANR-19-P3IA-0001,PRAIRIE,PaRis Artificial Intelligence Research InstitutE(2019)

Subjects
[STAT.ML]Statistics [stat]/Machine Learning [stat.ML], [INFO.INFO-RO]Computer Science [cs]/Operations Research [cs.RO]
Abstract

Intelligent forest management is the key to mitigating climate warming, fostering a green economy, and protecting valuable habitats. Detailed knowledge about forests is a prerequisite for such management but is conventionally based on costly plot-scale data, rarely available at resolution of relevance for management strategies. Here, we present a deep learning-based framework that provides location, crown area and height for each individual tree from aerial images at country scale. We quantify and characterize all individual trees in Denmark and show that 26% of the trees grow outside forests, which is typically unrecognized in national inventories. Furthermore, we demonstrate that only marginal effort is needed to transfer our framework to Finland, despite markedly dissimilar landscapes and data sources. Our work lays the foundation for a global database, where every tree has its digital twin and is spatially traceable and manageable.

Published
2023

42. An African-wide map of tree cover at individual tree level

Author

Florian Reiner, Martin Brandt, Xiaoye Tong, Ankit Kariryaa, and Rasmus Fensholt

Abstract

The consistent monitoring of trees both inside and outside of forests is key to mitigating climate change. However existing large-scale tree cover maps primarily quantify forest cover and do not include isolated trees, as these are not discernible in lower resolution satellite images. In many dryland countries these non-forest trees constitute the main form of tree cover, and play a vital role in ecological stability, local economies, livelihoods, and food security.Here we make use of the PlanetScope nanosatellite constellation, which delivers global very high-resolution daily imagery, to map both forest and non-forest tree cover for continental Africa using images from a single year. We composite 232,053 4-band scenes from 2019 into 1x1° mosaics and apply a Convolutional Neural Network to segment canopy cover of all trees and shrubs. To train the network we use a combination of manually annotated 1 m labels and source images upsampled from 3 m to 1 m, resulting in a final model that maps tree cover at 1 m across the continent, segmenting closed canopies in forest areas and individual scattered trees in savannah areas.Our prototype map demonstrates that a precise assessment of all tree-based ecosystems is possible at continental scale, and reveals that 29% of tree cover is found outside areas previously classified as tree cover in state-of-the-art maps, such as in croplands and grassland. This analysis lays the groundwork towards global scale studies of tree cover at individual tree level and annual temporal scale, which is crucial for improved managing of woody resources, monitoring of TOF in relation to agroforestry, tree planting and restoration efforts, and assessing land use impacts in non-forest landscapes.

Published
2023
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43. Separating tree systems in agricultural lands from forests using Deep learning

Author

Wanting Yang, Daniel Ortiz Gonzalo, Xiaoye Tong, Dimitri Pierre Johannes Gominski, Martin Brandt, Ankit Kariryaa, Florian Reiner, and Rasmus Fensholt

Abstract

Distinguishing trees on agricultural land from forests is essential for a better understanding of the relationship between forests and human farming activities. However, it is difficult to separate them with remote sensing imagery since they share similar canopy cover, especially on the edge of the amazon rain forest, which has a much-complicated agriculture pattern. Except for annual crops and pasture, there are also lots of agroforestry applications and shifting cultivation, which integrates many tree systems. And those tree systems are not well separated from the forest in the existing land cover map. Recent techniques allow for the mapping of single trees outside of forests, now we take the next step by identifying those diverse tree-involved systems in agricultural land. Here we aim to generate a robust, cost-efficient method to distinguish trees within agricultural land from the forest. We started our exploration from Peruvian Amazon, where the competition for land has increased in the last decades, causing possible adverse effects on livelihoods and ecosystem services. Deep learning models, data sampling, and fine-tuning strategies are tested and optimized with PlanetScope satellite imagery. Our research target is to provide a tool for separating tree systems in farmland from the forest. It can also be used as a base map to explore the dynamic of agriculture transition and its impact on livelihoods and ecosystem services.

Published
2023
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44. Deep learning for mapping water bodies in the Sahel

Author

Mathilde de FLEURY, Laurent Kergoat, Martin Brandt, Rasmus Fensholt, Ankit Kariryaa, Gyula Mate Kovács, Stéphanie Horion, and Manuela Grippa

Abstract

Inland surface water, especially lakes and small water bodies, are essential resources and have impacts on biodiversity, greenhouse gases and health. This is particularly true in the semi-arid Sahelian region, where these resources remain largely unassessed, and little is known about their number, size and quality. Remote sensing monitoring methods remain a promising tool to address these issues at the large scale, especially in areas where field data are scarce. Thanks to technological advances, current remote sensing systems provide data for regular monitoring over time and offer a high spatial resolution, up to 10 metres. Several water detection methods have been developed, many of them using spectral information to differentiate water surfaces from soil, through thresholding on water indices (MNDWI for example), or classifications by clustering. These methods are sensitive to optical reflectance variability and are not straight forwardly applicable to regions, such as the Sahel, where the lakes and their environment are very diverse. Particularly, the presence of aquatic vegetation is an important challenge and source of error for many of the existing algorithms and available databases. Deep learning, a subset of machine learning methods for training deep neural networks, has emerged as the state-of-the-art approach for a large number of remote sensing tasks. In this study, we apply a deep learning model based on the U-Net architecture to detect water bodies in the Sahel using Sentinel-2 MSI data, and 86 manually defined lake polygons as training data. This framework was originally developed for tree mapping (Brandt et al., 2020, https://doi.org/10.1038/s41586-020-2824-5). Our preliminary analysis indicate that our models achieve a good accuracy (98 %). The problems of aquatic vegetation do not appear anymore, and each lake is thus well delimited irrespective of water type and characteristics. Using the water delineations obtained, we then classify different optical water types and thereby highlight different type of waterbodies, that appear to be mostly turbid and eutrophic waters, allowing to better understand the eco-hydrological processes in this region. This method demonstrates the effectiveness of deep learning in detecting water surfaces in the study region. Deriving water masks that account for all kind of waterbodies offer a great opportunity to further characterize different water types. This method is easily reproducible due to the availability of the satellite data/algorithm and can be further applied to detect dams and other human-made features in relation to lake environments.

Published
2023
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45. Sentinel-2 MSI for mapping Sahelian water bodies using a U-Net network

Author

Mathilde de FLEURY, Laurent Kergoat, Martin Brandt, Rasmus Fensholt, Ankit Kariryaa, Gyula Mate Kovács, Stéphanie Horion, and Manuela Grippa

Abstract

Inland surface water, especially lakes and small water bodies, are essential resources and have impacts on biodiversity, greenhouse gases and health. This is particularly true in the semi-arid Sahelian region, where these resources remain largely unassessed, and little is known about their number, size and quality. Remote sensing monitoring methods remain a promising tool to address these issues at the large scale, especially in areas where field data are scarce. Thanks to technological advances, current remote sensing systems provide data for regular monitoring over time and offer a high spatial resolution, up to 10 metres. Several water detection methods have been developed, many of them using spectral information to differentiate water surfaces from soil, through thresholding on water indices (MNDWI for example), or classifications by clustering. These methods are sensitive to optical reflectance variability and are not straight forwardly applicable to regions, such as the Sahel, where the lakes and their environment are very diverse. Particularly, the presence of aquatic vegetation is an important challenge and source of error for many of the existing algorithms and available databases. Deep learning, a subset of machine learning methods for training deep neural networks, has emerged as the state-of-the-art approach for a large number of remote sensing tasks. In this study, we apply a deep learning model based on the U-Net architecture to detect water bodies in the Sahel using Sentinel-2 MSI data, and 86 manually defined lake polygons as training data. This framework was originally developed for tree mapping (Brandt et al., 2020, https://doi.org/10.1038/s41586-020-2824-5). Our preliminary analysis indicate that our models achieve a good accuracy (98 %). The problems of aquatic vegetation do not appear anymore, and each lake is thus well delimited irrespective of water type and characteristics. Using the water delineations obtained, we then classify different optical water types and thereby highlight different type of waterbodies, that appear to be mostly turbid and eutrophic waters, allowing to better understand the eco-hydrological processes in this region. This method demonstrates the effectiveness of deep learning in detecting water surfaces in the study region. Deriving water masks that account for all kind of waterbodies offer a great opportunity to further characterize different water types. This method is easily reproducible due to the availability of the satellite data/algorithm and can be further applied to detect dams and other human-made features in relation to lake environments.

Published
2023
Full Text
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46. Deep learning enables image-based tree counting, crown segmentation, and height prediction at national scale

Author

Li, Sizhuo, primary, Brandt, Martin, additional, Fensholt, Rasmus, additional, Kariryaa, Ankit, additional, Igel, Christian, additional, Gieseke, Fabian, additional, Nord-Larsen, Thomas, additional, Oehmcke, Stefan, additional, Carlsen, Ask Holm, additional, Junttila, Samuli, additional, Tong, Xiaoye, additional, d’Aspremont, Alexandre, additional, and Ciais, Philippe, additional

Published
2023
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49. Deep learning for mapping water bodies in the Sahel 

Author

de FLEURY, Mathilde, primary, Kergoat, Laurent, additional, Brandt, Martin, additional, Fensholt, Rasmus, additional, Kariryaa, Ankit, additional, Kovács, Gyula Mate, additional, Horion, Stéphanie, additional, and Grippa, Manuela, additional

Published
2023
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