Related papers: Rainfall regression from C-band Synthetic Aperture Radar using Multi-Task Generative Adversarial Networks

Rainfall regression from C-band Synthetic Aperture Radar using Multi-Task Generative Adversarial Networks

URL: http://arxiv.org/abs/2411.03480v1
Date: Tue, 05 Nov 2024 20:06:50 GMT
Title: Rainfall regression from C-band Synthetic Aperture Radar using Multi-Task Generative Adversarial Networks
Authors: Aurélien Colin, Romain Husson,
Abstract summary: The paper introduces a data-driven approach to estimate precipitation rates from Synthetic Aperture Radar (SAR) at a spatial resolution of 200 meters per pixel. It exploits the full NEXRAD archive to look for potential co-locations with Sentinel-1 data. The resulting model demonstrates improved accuracy in rainfall estimates and the ability to extend its performance to scenarios up to 15 m/s.
Score: 0.0
License:
Abstract: This paper introduces a data-driven approach to estimate precipitation rates from Synthetic Aperture Radar (SAR) at a spatial resolution of 200 meters per pixel. It addresses previous challenges related to the collocation of SAR and weather radar data, specifically the misalignment in collocations and the scarcity of rainfall examples under strong wind. To tackle these challenges, the paper proposes a multi-objective formulation, introducing patch-level components and an adversarial component. It exploits the full NEXRAD archive to look for potential co-locations with Sentinel-1 data. With additional enhancements to the training procedure and the incorporation of additional inputs, the resulting model demonstrates improved accuracy in rainfall estimates and the ability to extend its performance to scenarios up to 15 m/s.

Related papers

SFANet: Spatial-Frequency Attention Network for Weather Forecasting [54.470205739015434]
Weather forecasting plays a critical role in various sectors, driving decision-making and risk management. Traditional methods often struggle to capture the complex dynamics of meteorological systems. We propose a novel framework designed to address these challenges and enhance the accuracy of weather prediction.
arXiv Detail & Related papers (2024-05-29T08:00:15Z)
Enhanced Radar Perception via Multi-Task Learning: Towards Refined Data for Sensor Fusion Applications [6.237187007098249]
This work introduces a learning-based approach to infer the height of radar points associated with 3D objects. The average radar absolute height error decreases from 1.69 to 0.25 meters compared to the state-of-the-art height extension method.
arXiv Detail & Related papers (2024-04-09T09:42:18Z)
PAUNet: Precipitation Attention-based U-Net for rain prediction from satellite radiance data [0.0]
This paper introduces Precipitation Attention-based U-Net (PAUNet), a deep learning architecture for predicting precipitation from satellite radiance data. PAUNet is a variant of U-Net and Res-Net, designed to effectively capture the large-scale contextual information of multi-band satellite images. Trained on a substantial dataset from various European regions, PAUNet demonstrates notable accuracy with a higher Critical Success Index (CSI) score than the baseline model.
arXiv Detail & Related papers (2023-11-30T07:22:55Z)
Semantic Segmentation of Radar Detections using Convolutions on Point Clouds [59.45414406974091]
We introduce a deep-learning based method to convolve radar detections into point clouds. We adapt this algorithm to radar-specific properties through distance-dependent clustering and pre-processing of input point clouds. Our network outperforms state-of-the-art approaches that are based on PointNet++ on the task of semantic segmentation of radar point clouds.
arXiv Detail & Related papers (2023-05-22T07:09:35Z)
Reduction of rain-induced errors for wind speed estimation on SAR observations using convolutional neural networks [0.16067645574373132]
We train a wind speed estimator with reduced errors under rain. Results demonstrate the capacity of deep learning models to correct rain-related errors in SAR products.
arXiv Detail & Related papers (2023-03-16T10:19:14Z)
Rain regime segmentation of Sentinel-1 observation learning from NEXRAD collocations with Convolution Neural Networks [0.16067645574373132]
Ground-based weather radars, such as NOAA's Next-Generation Radar (NEXRAD), provide reflectivity and precipitation estimates of rainfall events. Here we propose a deep learning approach to deliver a three-class segmentation of SAR observations in terms of rainfall regimes. We demonstrate that a convolutional neural network trained on a collocated Sentinel-1/NEXRAD dataset clearly outperforms state-of-the-art filtering schemes.
arXiv Detail & Related papers (2022-07-15T08:05:41Z)
End-to-end system for object detection from sub-sampled radar data [18.462990836437626]
We present an end-to-end signal processing pipeline that relies on sub-sampled radar data to perform object detection in vehicular settings. We show robust detection based on radar data reconstructed using 20% of samples under extreme weather conditions. We generate 20% sampled radar data in a fine-tuning set and show 1.1% gain in AP50 across scenes and 3% AP50 gain in motorway condition.
arXiv Detail & Related papers (2022-03-08T08:02:33Z)
Rethinking Drone-Based Search and Rescue with Aerial Person Detection [79.76669658740902]
The visual inspection of aerial drone footage is an integral part of land search and rescue (SAR) operations today. We propose a novel deep learning algorithm to automate this aerial person detection (APD) task. We present the novel Aerial Inspection RetinaNet (AIR) algorithm as the combination of these contributions.
arXiv Detail & Related papers (2021-11-17T21:48:31Z)
Lidar Light Scattering Augmentation (LISA): Physics-based Simulation of Adverse Weather Conditions for 3D Object Detection [60.89616629421904]
Lidar-based object detectors are critical parts of the 3D perception pipeline in autonomous navigation systems such as self-driving cars. They are sensitive to adverse weather conditions such as rain, snow and fog due to reduced signal-to-noise ratio (SNR) and signal-to-background ratio (SBR)
arXiv Detail & Related papers (2021-07-14T21:10:47Z)
LiRaNet: End-to-End Trajectory Prediction using Spatio-Temporal Radar Fusion [52.59664614744447]
We present LiRaNet, a novel end-to-end trajectory prediction method which utilizes radar sensor information along with widely used lidar and high definition (HD) maps. automotive radar provides rich, complementary information, allowing for longer range vehicle detection as well as instantaneous velocity measurements.
arXiv Detail & Related papers (2020-10-02T00:13:00Z)
From Rain Generation to Rain Removal [67.71728610434698]
We build a full Bayesian generative model for rainy image where the rain layer is parameterized as a generator. We employ the variational inference framework to approximate the expected statistical distribution of rainy image. Comprehensive experiments substantiate that the proposed model can faithfully extract the complex rain distribution.
arXiv Detail & Related papers (2020-08-08T18:56:51Z)

This list is automatically generated from the titles and abstracts of the papers in this site.