Visibility Enhancement and Fog Detection: Solutions Presented in Recent Scientific Papers with Potential for Application to Mobile Systems

Miclea, Razvan-Catalin; Ungureanu, Vlad-Ilie; Sandru, Florin-Daniel; Silea, Ioan

doi:10.3390/s21103370

Cited by 20 publications

(11 citation statements)

References 107 publications

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“…To allow robots to work in turbid conditions, the first line of recourse is to use longer wavelengths such as radar or thermal imaging, but their lower spatial resolution is unfortunately often prohibitive. The mitigation of the effects of turbidity with near-visible–light sensors is carried out by first detecting then filtering its effects 43 . Alleviation is typically conducted through image filtering 44 or object filtering 45 , sensor fusion, and application-specific solutions that exploit specificities of a given task to improve the information content of sensor data 46 .…”

Section: Related Research Efforts In Construction Domainmentioning

confidence: 99%

RoBétArmé Project: Human-robot collaborative construction system for shotcrete digitization and automation through advanced perception, cognition, mobility and additive manufacturing skills

Kostavelis,

Nalpantidis,

Detry

et al. 2024

Open Res Europe

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The importance of construction automation has grown worldwide, aiming to deliver new machineries for the automation of roads, tunnels, bridges, buildings and earth-work construction. This need is mainly driven by (i) the shortage and rising costs of skilled workers, (ii) the tremendous increased needs for new infrastructures to serve the daily activities and (iii) the immense demand for maintenance of ageing infrastructure. Shotcrete (sprayed concrete) is increasingly becoming popular technology among contractors and builders, as its application is extremely economical and flexible as the growth in construction repairs in developed countries demand excessive automation of concrete placement. Even if shotcrete technology is heavily mechanized, the actual application is still performed manually at a large extend. RoBétArméEuropean project targets the Construction 4.0 transformation of the construction with shotcrete with the adoption of breakthrough technologies such as sensors, augmented reality systems, high-performance computing, additive manufacturing, advanced materials, autonomous robots and simulation systems, technologies that have already been studied and applied so far in Industry 4.0. The paper at hand showcases the development of a novel robotic system with advanced perception, cognition and digitization capabilities for the automation of all phases of shotcrete application. In particular, the challenges and barriers in shotcrete automation are presented and the RoBétArmésuggested solutions are outlined. We introduce a basic conceptual architecture of the system to be developed and we demonstrate the four application scenarios on which the system is designated to operate.

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Section: Related Research Efforts In Construction Domainmentioning

confidence: 99%

RoBétArmé Project: Human-robot collaborative construction system for shotcrete digitization and automation through advanced perception, cognition, mobility and additive manufacturing skills

Kostavelis,

Nalpantidis,

Detry

et al. 2024

Open Res Europe

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“…In this work, we used the CARLA [81] simulator to create a simulated environment for autonomous driving from which we collected camera and radar data. Seven (7) different types of common road participants were included in our datasets. Since the camera observations and radar detections were associated, the radar detections were sparsely overlapped in white dots on the camera image, as shown in Figure 8.…”

Section: Datasetmentioning

confidence: 99%

“…AVs encounter several difficulties under adverse weather conditions, such as snow, fog, haze, shadow, and rain [1][2][3][4][5][6][7][8]. AVs may suffer from poor decision-making and control if their perception systems are degraded by adverse weather.…”

Section: Introductionmentioning

confidence: 99%

Deep Camera-Radar Fusion with Attention Framework for Autonomous Vehicle Vision in Foggy Weather Conditions

Ogunrinde¹,

Bernadin²

2023

Preprint

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AVs suffer reduced maneuverability and performance due to the degradation in sensor performances in fog. Such degradation causes significant object detection errors essential for AVs' safety-critical conditions. For instance, YOLOv5 performs significantly well under favorable weather but suffers miss detections and false positives due to atmospheric scattering caused by fog particles. Existing deep object detection techniques often exhibit a high degree of accuracy. The drawback is being sluggish at object detection in fog. Object detection methods with fast detection speed have been obtained using deep learning at the expense of accuracy. The problem of the lack of balance between detection speed and accuracy in fog persist. This paper presents an improved YOLOv5-based multi-sensor fusion network that combines radar's object detection with a camera image bounding box. We transformed radar detection by mapping the radar detections into a two-dimensional image coordinate and projected the resultant radar image on the camera image. Using the attention mechanism, we emphasized and improved important feature representation used for object detection while reducing high-level feature information loss. We trained and tested our multi-sensor fusion network on clear and multi-fog weather datasets obtained from the CARLA simulator. Our result shows that the proposed method significantly enhances the detection of distant and small objects. Our small CR-YOLOnet model best strikes a balance between accuracy and speed with an accuracy of 0.849 at 69 fps.

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“…By examining the nuances and efficacy of these image processing approaches, this review aims to provide a comprehensive understanding and potential directions for advancing fog detection algorithms within the domain of image processing. A review of the solutions related to visibility enhancement and fog detection has been presented in [5].…”

Section: Related Workmentioning

confidence: 99%

Fog Detection through Image Processing Methods

Radescu,

Gellert

2023

International Journal of Advanced Statistics and IT&C for Economics and Life Sciences

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This paper presents a fog detection algorithm, highlighting the significance of continued exploration in fog identification through image processing techniques. The advancement and application of this algorithm can significantly benefit various domains, including road safety, environmental monitoring, navigation, security, surveillance, and improving existing systems’ performance. The evaluation performed on test images have shown an accuracy of 72%, a precision of 94%, a recall of 57% and an F1 score of 0.71. The proposed algorithm clearly outperformed some existing fog detection methods.

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Visibility Enhancement and Fog Detection: Solutions Presented in Recent Scientific Papers with Potential for Application to Mobile Systems

Cited by 20 publications

References 107 publications

RoBétArmé Project: Human-robot collaborative construction system for shotcrete digitization and automation through advanced perception, cognition, mobility and additive manufacturing skills

RoBétArmé Project: Human-robot collaborative construction system for shotcrete digitization and automation through advanced perception, cognition, mobility and additive manufacturing skills

Deep Camera-Radar Fusion with Attention Framework for Autonomous Vehicle Vision in Foggy Weather Conditions

Fog Detection through Image Processing Methods

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