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11 results on '"Hong, Heting"'

1. Intelligent Traffic Monitoring with Distributed Acoustic Sensing

Author

Xie, Dongzi, Wu, Xinming, Guo, Zhixiang, Hong, Heting, Wang, Baoshan, and Rong, Yingjiao

Subjects
Physics - Geophysics
Abstract

Distributed Acoustic Sensing (DAS) is promising for traffic monitoring, but its extensive data and sensitivity to vibrations, causing noise, pose computational challenges. To address this, we propose a two-step deep-learning workflow with high efficiency and noise immunity for DAS-based traffic monitoring, focusing on instance vehicle trajectory segmentation and velocity estimation. Our approach begins by generating a diverse synthetic DAS dataset with labeled vehicle signals, tackling the issue of missing training labels in this field. This dataset is used to train a Convolutional Neural Network (CNN) to detect linear vehicle trajectories from the noisy DAS data in the time-space domain. However, due to significant noise, these trajectories are often fragmented and incomplete. To enhance accuracy, we introduce a second step involving the Hough transform. This converts detected linear features into point-like energy clusters in the Hough domain. Another CNN is then employed to focus on these energies, identifying the most significant points. The inverse Hough transform is applied to these points to reconstruct complete, distinct, and noise-free linear vehicle trajectories in the time-space domain. The Hough transform plays a crucial role by enforcing a local linearity constraint on the trajectories, enhancing continuity and noise immunity, and facilitating the separation of individual trajectories and estimation of vehicle velocities (indicated by trajectory slopes in the Hough domain). Our method has shown effectiveness in real-world datasets, proving its value in real-time processing of DAS data and applicability in similar traffic monitoring scenarios. All related codes and data are available at https://github.com/TTMuTian/itm/.

Published
2024

7. Tracking Lightning Through 3D Thunder Source Location With Distributed Acoustic Sensing.

Author

Hong, Heting, Wang, Baoshan, Lu, Gaopeng, Li, Xiao, Ge, Qishuai, Xie, Ao, Wu, Yue, Qiu, Xuexing, and Chen, Jian

Subjects
THUNDERSTORMS, LIGHTNING, FIBER optic cables, ELECTROMAGNETIC pulses, SOUND waves, RADAR meteorology
Abstract

Investigating lightning is of key significance in understanding the lightning mechanism and mitigating lightning hazards. We reported an experiment of investigating lightning through three‐dimensional (3D) thunder locating using a Distributed Acoustic Sensing (DAS) array in Hefei, China. In this experiment, we recast a 7.7 km long urban telecom optical fiber cable as 3,850 sensors using the DAS technique. From dense DAS recording, we manually identified 101 thunder events during six positive cloud‐to‐ground (CG) lightning flashes within 20 min. The DAS recorded thunder signals are dominated by direct acoustic waves rather than air‐ground coupled surface waves. The thunder events were then located using the arrival times of thunder signals. The locations and amplitudes of thunder events are generally consistent with those from the conventional lightning detection data set and broadband magnetic field. There is likely a correlation between the maximum strength of thunder events and the highest peak current for individual CG flashes. Moreover, the comparison with weather radar observations indicates that lightning usually originated from areas of high reflectivity (e.g., ≥50dBz) with diffusely distributed (from ground surface to ∼5 km altitude) thunder events and extended in a narrow altitude range of 3–5 km to areas with low radar reflectivity. Plain Language Summary: Lightning is one of the most serious natural hazards. Locating lightning is of key importance in mitigating lightning hazards, which has been achieved by detecting lightning signals (either electromagnetic pulses or thunder bursts) at distributed detectors over various ranges. In this study, we reported an experiment of thunder observation with the emerging Distributed Acoustic Sensing (DAS) technique. We recast a 7.7 km long urban telecom optical fiber cable as 3,850 microphones using the DAS technique. Using the dense sensors, we identified a total of 101 thunder events within 20 min during the lifetime of thunderstorm. Based on the DAS signal, we can also triangulate the thunder sources with a fairly good accuracy, and the geometries of thunder events generally show good correlation with radar reflectivity. Nevertheless, our study demonstrates the feasibility of effectively tracking lightning with existing optic cables, and this technique has a broad application, especially in urban areas. Key Points: Urban telecom optic fiber cable was used as a Distributed Acoustic Sensing (DAS) array to detect and locate thunder events in 3‐D spaceThe DAS records of thunder events are dominated by direct acoustic waves rather than air‐ground coupled surface wavesLightning locations constructed with DAS observations are in good agreement with radar reflectivity [ABSTRACT FROM AUTHOR]

Published
2024
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8. How to identify biofouling species in marine and freshwater.

Author

Hong, Heting, Deng, Aijuan, Tang, Yang, and Liu, Zhixiong

Subjects
FOULING, FRESH water, COMMUNITY involvement, ANALYTICAL chemistry, SUSTAINABILITY, ECOSYSTEMS, MARINE ecology, IDENTIFICATION
Abstract

The identification and management of biofouling remain pressing challenges in marine and freshwater ecosystems, with significant implications for environmental sustainability and industrial operations. This comprehensive review synthesizes the current state-of-the-art in biofouling identification technologies, examining eight prominent methodologies: Microscopy Examination, Molecular Biology, Remote Sensing, Community Involvement, Ecological Methods, Artificial Intelligence, Chemical Analysis, and Macro Photography. Each method is evaluated for its respective advantages and disadvantages, considering factors such as precision, scalability, cost, and data quality. Furthermore, the review identifies current obstacles that inhibit the optimal utilization of these technologies, ranging from technical limitations and high operational costs to issues of data inconsistency and subjectivity. Finally, the review posits a future outlook, advocating for the development of integrated, standardized systems that amalgamate the strengths of individual approaches. Such advancement will pave the way for more effective and sustainable strategies for biofouling identification and management. [ABSTRACT FROM AUTHOR]

Published
2024
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9. Progress in Marine Antifouling Coatings: Current Status and Prospects.

Author

Li, Liang, Hong, Heting, Cao, Jingyi, and Yang, Yange

Subjects
ANTIFOULING paint, SURFACE coatings, POLYZWITTERIONS, MARITIME shipping, ENERGY consumption, INTERNATIONAL trade
Abstract

The shipping industry is vital to global trade. Unfortunately, this industry is negatively impacted on a large scale by biofouling, a process whereby unwanted organisms accumulate on submerged surfaces, massively affecting traveling speed and fuel consumption. Fortunately, antifouling coatings have been developed to combat this problem. This review summarizes the process of biofouling and briefly discusses the history of antifouling coating development. Moreover, eight major antifouling coatings are reviewed, including bionic microstructure, self-polishing, fouling and desorption, zwitterionic polymer, self-assembled thin-layer, liquid-smooth surface, conductive, and photocatalytic antifouling coatings. The technical principles, innovation, and advancement of each coating are expounded, and the relevant research progress is discussed. Finally, the remaining issues and challenges in antifouling coatings are discussed, along with their prospects. [ABSTRACT FROM AUTHOR]

Published
2023
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