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    题名: 以雙重卷積神經網路實現容易更換前導者的跟隨自走車;A double convolutional neural network for an automatic following navigation vehicle with easily changing guider
    作者: 林亭彣;Lin, Ting-Wen
    贡献者: 資訊工程學系
    关键词: 卷積神經網路;深度學習;行人偵測;前導者辨識
    日期: 2017-08-18
    上传时间: 2017-10-27 14:37:50 (UTC+8)
    出版者: 國立中央大學
    摘要: 近幾年來自走車是一項熱門的研究議題,希望能透過車輛自動駕駛來減少使用人的負擔及降低交通事故。小型慢速自走車的應用廣,並且保有裝載物品的空間,因此希望將車輛結合電腦視覺技術,讓車子能夠自動偵測並跟隨特定行人。在本研究中,我們將發展可跟隨前導者的自走車,協助貨物運送或協助區域性購物及觀光導覽等。由於相關應用領域可能需要頻繁性替換前導者,本系統將要能夠實現快速前導者替換,在應用上能更加便利。
    本系統核心主要分為兩個架構,第一部分為行人偵測系統,用來找出可能是前導者的所有行人;第二部分為前導者確認系統,用來比對行人與前導者的相似性,找出真正的前導者。由於偵測行人的難度高,易受到行人姿態、環境變化等影響,過去使用傳統機器學習方法效果不佳。因此本研究使用深度學習技術來實作行人偵測,透過卷積神經網路提取能適應各種變異的行人特徵,以提升偵測準確度;在前導者確認系統中,我們也是使用卷積神經網路,此網路經過離線訓練後,能夠線上比對提前未訓練過的前導者。
    在實驗中,我們以校園及實驗大樓拍攝的影片測試,在行人偵測方面,偵測率可達94%,誤判率為 4 × 10-7;在前導者確認方面,我們測試 2,200張影像,識別準確率可達94%。
    ;Self-propelled vehicles have been a popular topic in the past few years. Self-propelled vehicle research aims at reducing human resources and traffic accidents. A small slowly self-propelled car is widely used and has the space to load the goods. Therefore we hope the self-propelled vehicle integrates self-propelled technology and computer vision would be able to automatically detect and follow a specific pedestrian. In this paper, we development of the automatic following guider vehicle that be used in the delivery service business, regional shopping and sightseeing tours, etc. Furthermore, due to the requirement that need high frequently switching guider in the relevant application areas, our system propose a convenient, fast and robustness system for the guider replacement.
    The proposed system consists of two parts: pedestrian detection system for finding pedestrian location coordinates and guider identification system for comparing pedestrians and the pre-defined guider. It’s difficult to detect pedestrians in various environments. We have use a more accurate deep learning technique to achieve pedestrian detection. We are able to find variation-adapted features of pedestrians and promote detection rate by using a convolution neural network. The guider identification system uses another convolution neural network to compare the detected pedestrian and the pre-defined guider to identify the unique pedestrian.
    In the experiments, we test several videos which are captured from campus streets and building lobby. In the pedestrian detection system, the detection rate can reach up to 94% and has only 4 × 10-7 false positive rate. We train the deep convolutional neural network model for identifying guider. In the case of 2200 images, the recognition accuracy rate reach up to 94%.
    显示于类别:[資訊工程研究所] 博碩士論文

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