A multi-temporal hyperspectral target detection experiment: evaluation of military setups

Gross, Wolfgang L.; Queck, Florian; Vögtli, Marius; Schreiner, Simon; Kuester, Jannick; Böhler, Jonas E.; Mispelhorn, Jonas; Kneubühler, Mathias; Middelmann, Wolfgang

doi:10.1117/12.2597991

Cited by 14 publications

(9 citation statements)

References 14 publications

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“…HSI has been recently used in many industries including agriculture [31], astronomy [32], military [33], biosensors [34][35][36], remote sensing [37], dental imaging [38], environment monitoring [39], satellite photography [40], cancer detection [27,41], forestry monitoring [42], food security [43], natural resources surveying [44], vegetation observation [45], and geological mapping [46]. The visible-light hyperspectral imaging (VIS-HSI) developed in this study uses an aerial camera (DJI MAVIC MINI) image to convert the image into a hyperspectral image in the visible wavelength range of 380-780 nm and up to a spectral resolution of 1 nm.…”

Section: Hsi Algorithmmentioning

confidence: 99%

Air Pollution Detection Using a Novel Snap-Shot Hyperspectral Imaging Technique

Mukundan

Huang

Men

et al. 2022

Sensors

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Air pollution has emerged as a global problem in recent years. Particularly, particulate matter (PM2.5) with a diameter of less than 2.5 μm can move through the air and transfer dangerous compounds to the lungs through human breathing, thereby creating major health issues. This research proposes a large-scale, low-cost solution for detecting air pollution by combining hyperspectral imaging (HSI) technology and deep learning techniques. By modeling the visible-light HSI technology of the aerial camera, the image acquired by the drone camera is endowed with hyperspectral information. Two methods are used for the classification of the images. That is, 3D Convolutional Neural Network Auto Encoder and principal components analysis (PCA) are paired with VGG-16 (Visual Geometry Group) to find the optical properties of air pollution. The images are classified into good, moderate, and severe based on the concentration of PM2.5 particles in the images. The results suggest that the PCA + VGG-16 has the highest average classification accuracy of 85.93%.

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Section: Hsi Algorithmmentioning

confidence: 99%

Air Pollution Detection Using a Novel Snap-Shot Hyperspectral Imaging Technique

Mukundan

Huang

Men

et al. 2022

Sensors

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“…However, hyperspectral imaging (HSI) combined with narrowband imaging (NBI) is a technique used to enhance the image for early EC detection [28,29]. HSI has many applications including air pollution detection [30,31], cancer detection [32][33][34], counterfeit detection [35][36][37], aerospace engineering [38][39][40][41], military [42,43], agriculture [44][45][46], remote sensing [47,48], quality detection [49,50], and microbiology [51,52].…”

Section: Introductionmentioning

confidence: 99%

Evaluating Hyperspectral Techniques Using Objective Metrics Research on Analog Narrowband Image

Yang,

Mukundan,

Tsao

et al. 2023

Preprint

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The evident signs of esophageal cancer (EC) typically do not become noticeable until the middle or late stages. The survival rate of EC is reduced to less than 20% if it is detected in the latter stages. This paper compares the performance of white light image (WLI), narrowband imaging (NBI), cycle-consistent adversarial network (CycleGAN) simulated narrowband image (CNBI), and hyperspectral imaging (HSI) simulated narrowband image (HNBI) to detect EC in its early stages. A total of 1000 EC images (500 WLI images and 500 NBI images) were used as dataset in collaboration with Kaohsiung Armed Forces General Hospital. The CycleGAN model was used to produce CNBI. An HSI imaging algorithm was also developed to produce HNBI images. The effectiveness of these four types of images in detecting EC at its early stages was evaluated based on three indicators, namely, CIEDE2000, entropy, and structural similarity index measure (SSIM). Results of CIEDE2000, entropy, and SSIM analysis suggest using CycleGAN to generate CNBI and HNBI images is superior in detecting EC compared with normal WLI and NBI.

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“…HSI has previously been used in numerous classifications fields, such as agriculture [ 33 ], astronomy [ 34 ], military [ 35 ], biosensors [ 36 ], air pollution detection [ 37 , 38 ], remote sensing [ 39 ], dental imaging [ 40 ], environment monitoring [ 41 ], satellite photography [ 42 ], cancer detection [ 43 ], forestry monitoring [ 44 ], food security [ 45 ], natural resource surveying [ 46 ], vegetation observation [ 47 ], and geological mapping [ 48 ]. The advantage of HSI lies in its excellent resolution, and with a minimum spectral resolution of less than 10 nm, it can be used to obtain more information than RGB images [ 49 ].…”

Section: Introductionmentioning

confidence: 99%

Intelligent Identification of Early Esophageal Cancer by Band-Selective Hyperspectral Imaging

Tsai

Mukundan

Chi

et al. 2022

Cancers

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In this study, the combination of hyperspectral imaging (HSI) technology and band selection was coupled with color reproduction. The white-light images (WLIs) were simulated as narrow-band endoscopic images (NBIs). As a result, the blood vessel features in the endoscopic image became more noticeable, and the prediction performance was improved. In addition, a single-shot multi-box detector model for predicting the stage and location of esophageal cancer was developed to evaluate the results. A total of 1780 esophageal cancer images, including 845 WLIs and 935 NBIs, were used in this study. The images were divided into three stages based on the pathological features of esophageal cancer: normal, dysplasia, and squamous cell carcinoma. The results showed that the mean average precision (mAP) reached 80% in WLIs, 85% in NBIs, and 84% in HSI images. This study′s results showed that HSI has more spectral features than white-light imagery, and it improves accuracy by about 5% and matches the results of NBI predictions.

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A multi-temporal hyperspectral target detection experiment: evaluation of military setups

Cited by 14 publications

References 14 publications

Air Pollution Detection Using a Novel Snap-Shot Hyperspectral Imaging Technique

Air Pollution Detection Using a Novel Snap-Shot Hyperspectral Imaging Technique

Evaluating Hyperspectral Techniques Using Objective Metrics Research on Analog Narrowband Image

Intelligent Identification of Early Esophageal Cancer by Band-Selective Hyperspectral Imaging

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