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1. AutoLCZ: Towards Automatized Local Climate Zone Mapping from Rule-Based Remote Sensing

Author

Liu, Chenying, Song, Hunsoo, Shreevastava, Anamika, and Albrecht, Conrad M

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Computational Engineering, Finance, and Science, Computer Science - Information Retrieval, Computer Science - Machine Learning
Abstract

Local climate zones (LCZs) established a standard classification system to categorize the landscape universe for improved urban climate studies. Existing LCZ mapping is guided by human interaction with geographic information systems (GIS) or modelled from remote sensing (RS) data. GIS-based methods do not scale to large areas. However, RS-based methods leverage machine learning techniques to automatize LCZ classification from RS. Yet, RS-based methods require huge amounts of manual labels for training. We propose a novel LCZ mapping framework, termed AutoLCZ, to extract the LCZ classification features from high-resolution RS modalities. We study the definition of numerical rules designed to mimic the LCZ definitions. Those rules model geometric and surface cover properties from LiDAR data. Correspondingly, we enable LCZ classification from RS data in a GIS-based scheme. The proposed AutoLCZ method has potential to reduce the human labor to acquire accurate metadata. At the same time, AutoLCZ sheds light on the physical interpretability of RS-based methods. In a proof-of-concept for New York City (NYC) we leverage airborne LiDAR surveys to model 4 LCZ features to distinguish 10 LCZ types. The results indicate the potential of AutoLCZ as promising avenue for large-scale LCZ mapping from RS data., Comment: accepted at 2024 IGARSS

Published
2024

2. CromSS: Cross-modal pre-training with noisy labels for remote sensing image segmentation

Author

Liu, Chenying, Albrecht, Conrad, Wang, Yi, and Zhu, Xiao Xiang

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

We study the potential of noisy labels y to pretrain semantic segmentation models in a multi-modal learning framework for geospatial applications. Specifically, we propose a novel Cross-modal Sample Selection method (CromSS) that utilizes the class distributions P^{(d)}(x,c) over pixels x and classes c modelled by multiple sensors/modalities d of a given geospatial scene. Consistency of predictions across sensors $d$ is jointly informed by the entropy of P^{(d)}(x,c). Noisy label sampling we determine by the confidence of each sensor d in the noisy class label, P^{(d)}(x,c=y(x)). To verify the performance of our approach, we conduct experiments with Sentinel-1 (radar) and Sentinel-2 (optical) satellite imagery from the globally-sampled SSL4EO-S12 dataset. We pair those scenes with 9-class noisy labels sourced from the Google Dynamic World project for pretraining. Transfer learning evaluations (downstream task) on the DFC2020 dataset confirm the effectiveness of the proposed method for remote sensing image segmentation., Comment: Accepted as an oral presentation by ICLR 2024 ML4RS workshop

Published
2024

3. AIO2: Online Correction of Object Labels for Deep Learning with Incomplete Annotation in Remote Sensing Image Segmentation

Author

Liu, Chenying, Albrecht, Conrad M, Wang, Yi, Li, Qingyu, and Zhu, Xiao Xiang

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

While the volume of remote sensing data is increasing daily, deep learning in Earth Observation faces lack of accurate annotations for supervised optimization. Crowdsourcing projects such as OpenStreetMap distribute the annotation load to their community. However, such annotation inevitably generates noise due to insufficient control of the label quality, lack of annotators, frequent changes of the Earth's surface as a result of natural disasters and urban development, among many other factors. We present Adaptively trIggered Online Object-wise correction (AIO2) to address annotation noise induced by incomplete label sets. AIO2 features an Adaptive Correction Trigger (ACT) module that avoids label correction when the model training under- or overfits, and an Online Object-wise Correction (O2C) methodology that employs spatial information for automated label modification. AIO2 utilizes a mean teacher model to enhance training robustness with noisy labels to both stabilize the training accuracy curve for fitting in ACT and provide pseudo labels for correction in O2C. Moreover, O2C is implemented online without the need to store updated labels every training epoch. We validate our approach on two building footprint segmentation datasets with different spatial resolutions. Experimental results with varying degrees of building label noise demonstrate the robustness of AIO2. Source code will be available at https://github.com/zhu-xlab/AIO2.git., Comment: This work has been accepted by IEEE Transactions on Geoscience and Remote Sensing (TGRS)

Published
2024

4. Task Specific Pretraining with Noisy Labels for Remote Sensing Image Segmentation

Author

Liu, Chenying, Albrecht, Conrad M, Wang, Yi, and Zhu, Xiao Xiang

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Compared to supervised deep learning, self-supervision provides remote sensing a tool to reduce the amount of exact, human-crafted geospatial annotations. While image-level information for unsupervised pretraining efficiently works for various classification downstream tasks, the performance on pixel-level semantic segmentation lags behind in terms of model accuracy. On the contrary, many easily available label sources (e.g., automatic labeling tools and land cover land use products) exist, which can provide a large amount of noisy labels for segmentation model training. In this work, we propose to exploit noisy semantic segmentation maps for model pretraining. Our experiments provide insights on robustness per network layer. The transfer learning settings test the cases when the pretrained encoders are fine-tuned for different label classes and decoders. The results from two datasets indicate the effectiveness of task-specific supervised pretraining with noisy labels. Our findings pave new avenues to improved model accuracy and novel pretraining strategies for efficient remote sensing image segmentation., Comment: To appear as a conference paper at IEEE IGARSS 2024

Published
2024

5. Decoupling Common and Unique Representations for Multimodal Self-supervised Learning

Author

Wang, Yi, Albrecht, Conrad M, Braham, Nassim Ait Ali, Liu, Chenying, Xiong, Zhitong, and Zhu, Xiao Xiang

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

The increasing availability of multi-sensor data sparks wide interest in multimodal self-supervised learning. However, most existing approaches learn only common representations across modalities while ignoring intra-modal training and modality-unique representations. We propose Decoupling Common and Unique Representations (DeCUR), a simple yet effective method for multimodal self-supervised learning. By distinguishing inter- and intra-modal embeddings through multimodal redundancy reduction, DeCUR can integrate complementary information across different modalities. We evaluate DeCUR in three common multimodal scenarios (radar-optical, RGB-elevation, and RGB-depth), and demonstrate its consistent improvement regardless of architectures and for both multimodal and modality-missing settings. With thorough experiments and comprehensive analysis, we hope this work can provide valuable insights and raise more interest in researching the hidden relationships of multimodal representations., Comment: Accepted to ECCV 2024. 27 pages, 8 figures

Published
2023

6. Deep Semantic Model Fusion for Ancient Agricultural Terrace Detection

Author

Wang, Yi, Liu, Chenying, Tiwari, Arti, Silver, Micha, Karnieli, Arnon, Zhu, Xiao Xiang, and Albrecht, Conrad M

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Discovering ancient agricultural terraces in desert regions is important for the monitoring of long-term climate changes on the Earth's surface. However, traditional ground surveys are both costly and limited in scale. With the increasing accessibility of aerial and satellite data, machine learning techniques bear large potential for the automatic detection and recognition of archaeological landscapes. In this paper, we propose a deep semantic model fusion method for ancient agricultural terrace detection. The input data includes aerial images and LiDAR generated terrain features in the Negev desert. Two deep semantic segmentation models, namely DeepLabv3+ and UNet, with EfficientNet backbone, are trained and fused to provide segmentation maps of ancient terraces and walls. The proposed method won the first prize in the International AI Archaeology Challenge. Codes are available at https://github.com/wangyi111/international-archaeology-ai-challenge., Comment: IEEE Big Data 2022 workshop on Digital Twins for Accelerated Discovery of Climate & Sustainability Solutions (ADoCS)

Published
2023

7. DeepLCZChange: A Remote Sensing Deep Learning Model Architecture for Urban Climate Resilience

Author

Sun, Wenlu, Sun, Yao, Liu, Chenying, and Albrecht, Conrad M

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

Urban land use structures impact local climate conditions of metropolitan areas. To shed light on the mechanism of local climate wrt. urban land use, we present a novel, data-driven deep learning architecture and pipeline, DeepLCZChange, to correlate airborne LiDAR data statistics with the Landsat 8 satellite's surface temperature product. A proof-of-concept numerical experiment utilizes corresponding remote sensing data for the city of New York to verify the cooling effect of urban forests., Comment: accepted for publication in 2023 IGARSS conference

Published
2023

8. SSL4EO-S12: A Large-Scale Multi-Modal, Multi-Temporal Dataset for Self-Supervised Learning in Earth Observation

Author

Wang, Yi, Braham, Nassim Ait Ali, Xiong, Zhitong, Liu, Chenying, Albrecht, Conrad M, and Zhu, Xiao Xiang

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

Self-supervised pre-training bears potential to generate expressive representations without human annotation. Most pre-training in Earth observation (EO) are based on ImageNet or medium-size, labeled remote sensing (RS) datasets. We share an unlabeled RS dataset SSL4EO-S12 (Self-Supervised Learning for Earth Observation - Sentinel-1/2) to assemble a large-scale, global, multimodal, and multi-seasonal corpus of satellite imagery from the ESA Sentinel-1 \& -2 satellite missions. For EO applications we demonstrate SSL4EO-S12 to succeed in self-supervised pre-training for a set of methods: MoCo-v2, DINO, MAE, and data2vec. Resulting models yield downstream performance close to, or surpassing accuracy measures of supervised learning. In addition, pre-training on SSL4EO-S12 excels compared to existing datasets. We make openly available the dataset, related source code, and pre-trained models at https://github.com/zhu-xlab/SSL4EO-S12., Comment: Accepted by IEEE Geoscience and Remote Sensing Magazine. 18 pages

Published
2022

9. Monitoring Urban Forests from Auto-Generated Segmentation Maps

Author

Albrecht, Conrad M, Liu, Chenying, Wang, Yi, Klein, Levente, and Zhu, Xiao Xiang

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

We present and evaluate a weakly-supervised methodology to quantify the spatio-temporal distribution of urban forests based on remotely sensed data with close-to-zero human interaction. Successfully training machine learning models for semantic segmentation typically depends on the availability of high-quality labels. We evaluate the benefit of high-resolution, three-dimensional point cloud data (LiDAR) as source of noisy labels in order to train models for the localization of trees in orthophotos. As proof of concept we sense Hurricane Sandy's impact on urban forests in Coney Island, New York City (NYC) and reference it to less impacted urban space in Brooklyn, NYC., Comment: accepted for presentation and publication at IGARSS 2022

Published
2022

10. Overview and Introduction to Development of Non-Ergodic Earthquake Ground-Motion Models

Author

Lavrentiadis, Grigorios, Abrahamson, Norman A., Nicolas, Kuehn M., Bozorgnia, Yousef, Goulet, Christine A., Babič, Anže, Macedo, Jorge, Dolšek, Matjaž, Gregor, Nicholas, Kottke, Albert R., Lacour, Maxime, Liu, Chenying, Meng, Xiaofeng, Phung, Van-Bang, Sung, Chih-Hsuan, and Walling, Melanie

Subjects
Statistics - Applications, Physics - Geophysics, 62P30
Abstract

This paper provides an overview and introduction to the development of non-ergodic ground-motion models, GMMs. It is intended for a reader who is familiar with the standard approach for developing ergodic GMMs. It starts with a brief summary of the development of ergodic GMMs and then describes different methods that are used in the development of non-ergodic GMMs with an emphasis on Gaussian Process (GP) regression, as that is currently the method preferred by most researchers contributing to this special issue. Non-ergodic modeling requires the definition of locations for the source and site characterizing the systematic source and site effects; the non-ergodic domain is divided into cells for describing the systematic path effects. Modeling the cell-specific anelastic attenuation as a GP and considerations on constraints for extrapolation of the non-ergodic GMMs are also discussed. An updated unifying notation for non-ergodic GMMs is also presented, which has been adopted by the authors of this issue., Comment: 28 pages, 2 figures

Published
2021

11. Artificial intelligence for geoscience: Progress, challenges, and perspectives

Author

Zhao, Tianjie, Wang, Sheng, Ouyang, Chaojun, Chen, Min, Liu, Chenying, Zhang, Jin, Yu, Long, Wang, Fei, Xie, Yong, Li, Jun, Wang, Fang, Grunwald, Sabine, Wong, Bryan M., Zhang, Fan, Qian, Zhen, Xu, Yongjun, Yu, Chengqing, Han, Wei, Sun, Tao, Shao, Zezhi, Qian, Tangwen, Chen, Zhao, Zeng, Jiangyuan, Zhang, Huai, Letu, Husi, Zhang, Bing, Wang, Li, Luo, Lei, Shi, Chong, Su, Hongjun, Zhang, Hongsheng, Yin, Shuai, Huang, Ni, Zhao, Wei, Li, Nan, Zheng, Chaolei, Zhou, Yang, Huang, Changping, Feng, Defeng, Xu, Qingsong, Wu, Yan, Hong, Danfeng, Wang, Zhenyu, Lin, Yinyi, Zhang, Tangtang, Kumar, Prashant, Plaza, Antonio, Chanussot, Jocelyn, Zhang, Jiabao, Shi, Jiancheng, and Wang, Lizhe

Published
2024
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20. Naive Gabor Networks for Hyperspectral Image Classification

Author

Liu, Chenying, Li, Jun, He, Lin, Plaza, Antonio J., Li, Shutao, and Li, Bo

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning, Electrical Engineering and Systems Science - Signal Processing
Abstract

Recently, many convolutional neural network (CNN) methods have been designed for hyperspectral image (HSI) classification since CNNs are able to produce good representations of data, which greatly benefits from a huge number of parameters. However, solving such a high-dimensional optimization problem often requires a large amount of training samples in order to avoid overfitting. Additionally, it is a typical non-convex problem affected by many local minima and flat regions. To address these problems, in this paper, we introduce naive Gabor Networks or Gabor-Nets which, for the first time in the literature, design and learn CNN kernels strictly in the form of Gabor filters, aiming to reduce the number of involved parameters and constrain the solution space, and hence improve the performances of CNNs. Specifically, we develop an innovative phase-induced Gabor kernel, which is trickily designed to perform the Gabor feature learning via a linear combination of local low-frequency and high-frequency components of data controlled by the kernel phase. With the phase-induced Gabor kernel, the proposed Gabor-Nets gains the ability to automatically adapt to the local harmonic characteristics of the HSI data and thus yields more representative harmonic features. Also, this kernel can fulfill the traditional complex-valued Gabor filtering in a real-valued manner, hence making Gabor-Nets easily perform in a usual CNN thread. We evaluated our newly developed Gabor-Nets on three well-known HSIs, suggesting that our proposed Gabor-Nets can significantly improve the performance of CNNs, particularly with a small training set., Comment: This paper has been accepted by IEEE TNNLS

Published
2019

27. CPTu-Based Spatial Variability Assessment of Thickened and Conventional Mine Tailings.

Author

Macedo, Jorge, Vergaray, Luis, Liu, Chenying, Sharp, James, Morrison, Kimberly Finke, and Byler, Brett

Subjects
CONE penetration tests, RANDOM fields, ALLUVIUM, TAILINGS dams, MACHINE learning
Abstract

The Global Industry Standard on Tailings Management (GISTM) promotes performance-based approaches in geotechnical assessments. Hence, characterizing the spatial variability of deposited tailings is expected to be a key input for some tailings storage facilities (TSFs); however, it has seldom been investigated. In this study, we assess the spatial variability of thickened and conventional tailings, which have been deposited into the same TSF, providing a unique opportunity to investigate two tailings technologies. A dense array of 15 cone penetration tests (CPTus) with an average offset of 1.5 m has been conducted to collect data. In addition to evaluating the spatial variability, the collected information is also used to assess the potential of machine learning (ML) for detrending when deriving random fields. Using a new proposed stationarity score, we find that an ML-based detrending outperforms traditional procedures for most scenarios. In terms of correlation lengths, we find similar ranges for thickened and conventional tailings (vertical: δwv=0.2–0.6 m , horizontal δwh=1.5–4.5 m) and similar distributions, likely influenced by the depositional processes. In contrast, the variance in the conventional tailings is higher, which we attribute to its segregating nature. Finally, by inspecting previous studies on natural soils, we find that the variability of mine tailings (δwh/δwv=2–21) resembles that observed in alluvial deposits, which we attribute to the parallels in the depositional processes. [ABSTRACT FROM AUTHOR]

Published
2024
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42. Controlling the fold: proprioceptive feedback in a soft origami robot.

Author

Hanson, Nathaniel, Mensah, Immanuel Ampomah, Roberts, Sonia F., Healey, Jessica, Wu, Celina, Dorsey, Kristen L., Liu, Chenying, Banerjee, Surojit, and Shih, Benjamin

Subjects
DEGREES of freedom, CAPACITIVE sensors, ORIGAMI, PSYCHOLOGICAL feedback, ROBOTS, PROPRIOCEPTION, SOFT robotics, 3-D printers
Abstract

We demonstrate proprioceptive feedback control of a one degree of freedom soft, pneumatically actuated origami robot and an assembly of two robots into a two degree of freedom system. The base unit of the robot is a 41 mm long, 3-D printed Kresling-inspired structure with six sets of sidewall folds and one degree of freedom. Pneumatic actuation, provided by negative fluidic pressure, causes the robot to contract. Capacitive sensors patterned onto the robot provide position estimation and serve as input to a feedback controller. Using a finite element approach, the electrode shapes are optimized for sensitivity at larger (more obtuse) fold angles to improve control across the actuation range. We demonstrate stable position control through discrete-time proportional-integral-derivative (PID) control on a single unit Kresling robot via a series of static set points to 17 mm, dynamic set point stepping, and sinusoidal signal following, with error under 3 mm up to 10 mm contraction. We also demonstrate a two-unit Kresling robot with two degree of freedom extension and rotation control, which has error of 1.7 mm and 6.1°. This work contributes optimized capacitive electrode design and the demonstration of closed-loop feedback position control without visual tracking as an input. This approach to capacitance sensing and modeling constitutes a major step towards proprioceptive state estimation and feedback control in soft origami robotics. [ABSTRACT FROM AUTHOR]

Published
2024
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48. Inhibiting sorting nexin 10 promotes mucosal healing through SREBP2-mediated stemness restoration of intestinal stem cells

Author

Bao, Weilian, primary, You, Yan, additional, Ni, Jiahui, additional, Hou, Hui, additional, Lyu, Jiaren, additional, Feng, Guize, additional, Wang, Yirui, additional, You, Keyuan, additional, Zhang, Sulin, additional, Zhang, Lijie, additional, Cao, Xinyue, additional, Wang, Xu, additional, Li, Haidong, additional, Li, Hong, additional, Xu, Jiake, additional, Liu, Chenying, additional, Luo, Xiaomin, additional, Du, Peng, additional, Chen, Daofeng, additional, and Shen, Xiaoyan, additional

Published
2023
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