Related papers: Perception of Misalignment States for Sky Survey Telescopes with the Digital Twin and the Deep Neural Networks

Perception of Misalignment States for Sky Survey Telescopes with the Digital Twin and the Deep Neural Networks

URL: http://arxiv.org/abs/2311.18214v1
Date: Thu, 30 Nov 2023 03:16:27 GMT
Title: Perception of Misalignment States for Sky Survey Telescopes with the Digital Twin and the Deep Neural Networks
Authors: Miao Zhang, Peng Jia, Zhengyang Li, Wennan Xiang, Jiameng Lv, Rui Sun
Abstract summary: We propose a deep neural network to extract misalignment states from continuously varying point spread functions in different field of views. We store misalignment data and explore complex relationships between misalignment states and corresponding point spread functions. The method could be used to provide prior information for the active optics system and the optical system alignment.
Score: 16.245776159991294
License: http://creativecommons.org/licenses/by/4.0/
Abstract: Sky survey telescopes play a critical role in modern astronomy, but misalignment of their optical elements can introduce significant variations in point spread functions, leading to reduced data quality. To address this, we need a method to obtain misalignment states, aiding in the reconstruction of accurate point spread functions for data processing methods or facilitating adjustments of optical components for improved image quality. Since sky survey telescopes consist of many optical elements, they result in a vast array of potential misalignment states, some of which are intricately coupled, posing detection challenges. However, by continuously adjusting the misalignment states of optical elements, we can disentangle coupled states. Based on this principle, we propose a deep neural network to extract misalignment states from continuously varying point spread functions in different field of views. To ensure sufficient and diverse training data, we recommend employing a digital twin to obtain data for neural network training. Additionally, we introduce the state graph to store misalignment data and explore complex relationships between misalignment states and corresponding point spread functions, guiding the generation of training data from experiments. Once trained, the neural network estimates misalignment states from observation data, regardless of the impacts caused by atmospheric turbulence, noise, and limited spatial sampling rates in the detector. The method proposed in this paper could be used to provide prior information for the active optics system and the optical system alignment.

Related papers

MODEL&CO: Exoplanet detection in angular differential imaging by learning across multiple observations [37.845442465099396]
Most post-processing methods build a model of the nuisances from the target observations themselves. We propose to build the nuisance model from an archive of multiple observations by leveraging supervised deep learning techniques. We apply the proposed algorithm to several datasets from the VLT/SPHERE instrument, and demonstrate a superior precision-recall trade-off.
arXiv Detail & Related papers (2024-09-23T09:22:45Z)
Generalizable Non-Line-of-Sight Imaging with Learnable Physical Priors [52.195637608631955]
Non-line-of-sight (NLOS) imaging has attracted increasing attention due to its potential applications. Existing NLOS reconstruction approaches are constrained by the reliance on empirical physical priors. We introduce a novel learning-based solution, comprising two key designs: Learnable Path Compensation (LPC) and Adaptive Phasor Field (APF)
arXiv Detail & Related papers (2024-09-21T04:39:45Z)
Image Restoration with Point Spread Function Regularization and Active Learning [5.575847437953924]
Large-scale astronomical surveys can capture numerous images of celestial objects, including galaxies and nebulae. varying noise levels and point spread functions can hamper the accuracy and efficiency of information extraction from these images. We propose a novel image restoration algorithm that connects a deep learning-based restoration algorithm with a high-fidelity telescope simulator.
arXiv Detail & Related papers (2023-10-31T23:16:26Z)
Neural FIM for learning Fisher Information Metrics from point cloud data [71.07939200676199]
We propose neural FIM, a method for computing the Fisher information metric (FIM) from point cloud data. We demonstrate its utility in selecting parameters for the PHATE visualization method as well as its ability to obtain information pertaining to local volume illuminating branching points and cluster centers embeddings of a toy dataset and two single-cell datasets of IPSC reprogramming and PBMCs (immune cells)
arXiv Detail & Related papers (2023-06-01T17:36:13Z)
Active Gaze Control for Foveal Scene Exploration [124.11737060344052]
We propose a methodology to emulate how humans and robots with foveal cameras would explore a scene. The proposed method achieves an increase in detection F1-score of 2-3 percentage points for the same number of gaze shifts.
arXiv Detail & Related papers (2022-08-24T14:59:28Z)
Improving Astronomical Time-series Classification via Data Augmentation with Generative Adversarial Networks [1.2891210250935146]
We propose a data augmentation methodology based on Generative Adrial Networks (GANs) to generate a variety of synthetic light curves from variable stars. The classification accuracy of variable stars is improved significantly when training with synthetic data and testing with real data.
arXiv Detail & Related papers (2022-05-13T16:39:54Z)
FuNNscope: Visual microscope for interactively exploring the loss landscape of fully connected neural networks [77.34726150561087]
We show how to explore high-dimensional landscape characteristics of neural networks. We generalize observations on small neural networks to more complex systems. An interactive dashboard opens up a number of possible application networks.
arXiv Detail & Related papers (2022-04-09T16:41:53Z)
RRNet: Relational Reasoning Network with Parallel Multi-scale Attention for Salient Object Detection in Optical Remote Sensing Images [82.1679766706423]
Salient object detection (SOD) for optical remote sensing images (RSIs) aims at locating and extracting visually distinctive objects/regions from the optical RSIs. We propose a relational reasoning network with parallel multi-scale attention for SOD in optical RSIs. Our proposed RRNet outperforms the existing state-of-the-art SOD competitors both qualitatively and quantitatively.
arXiv Detail & Related papers (2021-10-27T07:18:32Z)
Data Augmentation for Object Detection via Differentiable Neural Rendering [71.00447761415388]
It is challenging to train a robust object detector when annotated data is scarce. Existing approaches to tackle this problem include semi-supervised learning that interpolates labeled data from unlabeled data. We introduce an offline data augmentation method for object detection, which semantically interpolates the training data with novel views.
arXiv Detail & Related papers (2021-03-04T06:31:06Z)
Point Spread Function Estimation for Wide Field Small Aperture Telescopes with Deep Neural Networks and Calibration Data [11.909250072362264]
The point spread function (PSF) reflects states of a telescope. estimating PSF in any position of the whole field of view is hard, because aberrations induced by the optical system are quite complex. We further develop our deep neural network (DNN) based PSF modelling method and show its applications in PSF estimation.
arXiv Detail & Related papers (2020-11-20T07:26:02Z)
Detecting optical transients using artificial neural networks and reference images from different surveys [0.0]
We present a method to detect these transients based on an artificial neural network. One image corresponds to the epoch in which a potential transient could exist; the other is a reference image of an earlier epoch. We trained a convolutional neural network and a dense layer network on simulated source samples and tested the trained networks on samples created from real image data.
arXiv Detail & Related papers (2020-09-28T22:16:54Z)

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