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    Please use this identifier to cite or link to this item: http://ir.lib.ncu.edu.tw/handle/987654321/92261


    Title: 基於人工智慧之PCB瑕疵檢測技術開發;Development of PCB Defect Detection Technology Based on Artificial Intelligence
    Authors: 黃柏盛;HUANG, BOR-SHENG
    Contributors: 光機電工程研究所
    Keywords: YOLO;深度學習;CNN;PCB;AOI;YOLO;Deep learning;CNN;PCB;AOI
    Date: 2023-02-01
    Issue Date: 2024-09-19 15:43:15 (UTC+8)
    Publisher: 國立中央大學
    Abstract: 隨著硬體技術的發展,電路板的需求量逐年大幅增加,產業對於電路板製造品質與產品良率的要求也是與日俱增;深度學習技術也隨著硬體技術的進步而蓬勃發展。尤其是在過去的幾年內,硬體效能的快速成長讓深度學習技術得以突飛猛進,深度學習技術經常被應用在生活和工業中,比如:GOOGLE翻譯、停車場車牌識別,都是深度學習在生活中的應用。
    目前電路板印刷相關產業的PCB電路板良率檢測,主要依賴自動化光學檢測系統(AOI)和人工檢測,由於AOI系統經常會出現缺陷判斷錯誤,因此需要大量人工進行檢測,使得成本提高。本研究提出了一種基於深度學習的檢測技術,檢測PCB板上的缺陷,主要目的為過濾掉AOI系統標記的「假缺陷」。經過本研究開發的深度學習神經網路系統過濾後,可以大幅減少工作量和人力成本,顯著提高PCB缺陷檢測的效率和良品率。
    本次研究分為神經網路系統主體架構和數據庫主體,系統主體架構為YOLO。在AI技術發達的時代,誕生了很多物件偵測技術,經過多方考慮和篩選,我們選擇YOLO作為主要架構。YOLO是近幾年非常強大的物件偵測神經網路架構系統,廣泛應用於學術界和工業界,經過訓練,可以準確地判斷和標記目標位置。資料集部分為,廠商提供之產線AOI系統輸出之影像資料,其中包含AOI檢測系統所誤判的11種瑕疵與非瑕疵的影像資料。
    本研究與其他實驗難易度不同,本研究的測試資料為廠商每個月送來當下PCB產線AOI系統輸出的影像,資料變化多端且具有一定難度,時常會遇到模型從未訓練過的資料特徵型態。相較於其他實驗,測試資料為封閉資料且資料特性相近,通常由資料庫中分割一部份成為測試資料,兩者難度差距極大,因此本研究運用更多方式分析以及調整,達到我們所設定的實驗目標。
    ;With the development of hardware technology, the demand for circuit boards has increased dramatically year by year, and the industry′s demand for quality and yield of circuit boards has also been increasing. In particular, the rapid growth in hardware performance over the past few years has allowed deep learning technology to advance by leaps and bounds. Deep learning technology is often used in everyday life and industry, for example, GOOGLE translation and car park license plate recognition.
    At present, PCB yield inspection in the PCB printing-related industry mainly relies on automated optical inspection systems (AOI) and manual inspection, which requires a large amount of manual inspection due to the frequent error in defect judgement in AOI systems, resulting in higher costs.
    This study proposes a deep learning-based inspection technique to detect defects on PCBs, with the main objective of filtering out ′false defects′ marked by AOI systems. After filtering by the deep learning neural network system developed in this study, the workload and labour cost can be significantly reduced and the efficiency and yield of PCB defect detection can be significantly improved.
    In this study, the main architecture of the neural network system is YOLO, which is a very powerful neural network system for object detection in recent years, widely used in academia and industry. It has been trained to accurately determine and mark the location of targets.
    The dataset consists of images from the AOI system of the production line provided by the manufacturer, which contains images of 11 types of defects and non-defects that were misidentified by the AOI inspection system.This study is different from other experiments in terms of difficulty.
    The test data in this study is the current image output from the AOI system of PCB production line sent by the vendor every month. Compared to other experiments, the test data is closed data with similar characteristics, and usually a part of the database is divided into test data, which is extremely difficult.
    Appears in Collections:[Graduate Institute of opto-Mechatronics] Electronic Thesis & Dissertation

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