DF-3DNet: A Lightweight Approach Based on Deep Learning for 3D Telecommunication Tower Asset Classification

IF 2.2 4区计算机科学 Q3 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE

IET Image Processing Pub Date : 2025-07-11 DOI:10.1049/ipr2.70149

Amzar Omairi, Zool Hilmi Ismail, Gianmarco Goycochea Casas

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引用次数: 0

Abstract

The transition from 4G to 5G communication systems and the phase-out of 3G equipment have increased the demand for efficient telecommunication tower inspection and maintenance. Traditional manual methods are time-consuming and risky, prompting the adoption of unmanned aerial vehicles (UAVs) equipped with LiDAR sensors. This research introduces a framework for telecommunication tower asset inspection, utilising a lightweight, deep learning-based 3D classifier called DF-3DNet. The process involves raw 3D point cloud data collection using DJI's Zenmuse L1 LiDAR, optimal flight planning, data pre-processing, augmentation, and classification. The study focuses on two key asset classes—radio frequency (RF) panels and microwave (MW) dishes—which are prevalent in telecommunication towers. DF-3DNet, an enhanced version of PointNet, incorporates advanced data augmentation methods and class balance compensation to optimise performance, particularly when working with limited datasets. The model achieved classification accuracies of 0.6613 on ScanObjectNN, 0.8171 on ModelNet40, and 0.869 on the telecommunication tower dataset, demonstrating its effectiveness in handling noisy, small-scale data. By streamlining inspection workflows and leveraging AI-driven classification, this framework significantly reduces costs, time, and risks associated with traditional methods, paving the way for scalable, real-time telecommunication tower asset management.

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DF-3DNet：一种基于深度学习的轻量级3D电信塔资产分类方法

从4G到5G通信系统的过渡以及3G设备的逐步淘汰增加了对高效电信塔检测和维护的需求。传统的人工方法既耗时又有风险，这促使人们采用配备激光雷达传感器的无人机（uav）。本研究引入了一种用于电信塔资产检测的框架，该框架利用了一种轻量级的、基于深度学习的3D分类器DF-3DNet。该过程包括使用大疆的Zenmuse L1激光雷达收集原始3D点云数据、优化飞行计划、数据预处理、增强和分类。这项研究集中在两个关键的资产类别——无线电频率（RF）面板和微波（MW）天线——它们在电信塔中普遍存在。DF-3DNet是PointNet的增强版本，结合了先进的数据增强方法和类平衡补偿来优化性能，特别是在有限的数据集上工作时。该模型在ScanObjectNN上的分类精度为0.6613，在ModelNet40上的分类精度为0.8171，在电信塔数据集上的分类精度为0.869，证明了其在处理有噪声的小规模数据方面的有效性。通过简化检查工作流程和利用人工智能驱动的分类，该框架显著降低了与传统方法相关的成本、时间和风险，为可扩展的实时电信塔资产管理铺平了道路。

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来源期刊

IET Image Processing 工程技术-工程：电子与电气

CiteScore

5.40

自引率

8.70%

发文量

282

审稿时长

6 months

期刊介绍： The IET Image Processing journal encompasses research areas related to the generation, processing and communication of visual information. The focus of the journal is the coverage of the latest research results in image and video processing, including image generation and display, enhancement and restoration, segmentation, colour and texture analysis, coding and communication, implementations and architectures as well as innovative applications. Principal topics include: Generation and Display - Imaging sensors and acquisition systems, illumination, sampling and scanning, quantization, colour reproduction, image rendering, display and printing systems, evaluation of image quality. Processing and Analysis - Image enhancement, restoration, segmentation, registration, multispectral, colour and texture processing, multiresolution processing and wavelets, morphological operations, stereoscopic and 3-D processing, motion detection and estimation, video and image sequence processing. Implementations and Architectures - Image and video processing hardware and software, design and construction, architectures and software, neural, adaptive, and fuzzy processing. Coding and Transmission - Image and video compression and coding, compression standards, noise modelling, visual information networks, streamed video. Retrieval and Multimedia - Storage of images and video, database design, image retrieval, video annotation and editing, mixed media incorporating visual information, multimedia systems and applications, image and video watermarking, steganography. Applications - Innovative application of image and video processing technologies to any field, including life sciences, earth sciences, astronomy, document processing and security. Current Special Issue Call for Papers: Evolutionary Computation for Image Processing - https://digital-library.theiet.org/files/IET_IPR_CFP_EC.pdf AI-Powered 3D Vision - https://digital-library.theiet.org/files/IET_IPR_CFP_AIPV.pdf Multidisciplinary advancement of Imaging Technologies: From Medical Diagnostics and Genomics to Cognitive Machine Vision, and Artificial Intelligence - https://digital-library.theiet.org/files/IET_IPR_CFP_IST.pdf Deep Learning for 3D Reconstruction - https://digital-library.theiet.org/files/IET_IPR_CFP_DLR.pdf