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    Please use this identifier to cite or link to this item: https://nccur.lib.nccu.edu.tw/handle/140.119/101171


    Title: 利用智慧型行動裝置與場景約制進行室內導航定位之研究
    Using Smart Mobile Device for Indoor Navigation with Scene Constraint
    Authors: 吳東旂
    Wu, Dong Chi
    Contributors: 甯方璽
    Ning, Fang Shii
    吳東旂
    Wu, Dong Chi
    Keywords: 室內定位
    行人航位推算
    Savitzky-Golay Filter
    場景約制
    Indoor position
    Pedestrian Dead Reckoning
    Savitzky-Golay Filter
    Scene Constraint
    Date: 2016
    Issue Date: 2016-09-02 00:51:39 (UTC+8)
    Abstract: 隨著智慧型行動裝置及導航定位科技的快速發展,導航定位已成為目前日常生活上不可或缺的工具,室外的導航定位可以利用全球導航衛星系統(Global Navigation Satellite System, GNSS)導航訊號進行,但是室內定位部分由於訊號遮蔽,導致無法接收GNSS訊號進行導航定位,因此室內定位的各類方式應運而生,如Wireless、藍芽、無線射頻技術(Radio Frequency IDentification,RFID)、iBeacon等。每種不同的室內定位方式有不同的使用成本,使用成本直接影響室內定位方法的使用門檻。因此本研究透過使用行動裝置之微機電系統(Micro Electro Mechanical Systems,MEMS)獲取陀螺儀與加速度儀資訊,並且經由濾波器平滑訊號後偵測行走步伐,再透過最小二乘擬合方式進行步距估計,以行人航位推算(Pedestrian Dead Reckoning,PDR)方式求得位置坐標,另外亦透過場景建置地圖,依計算所得坐標與參考點之方位角與轉彎特徵尋找來判斷坐標校正時機,並將坐標校正為該時間坐標之相對正確位置。本研究結果顯示使用Savitzky-Golay Filter有助於提升步伐偵測準確性,且透過方位角計算的判斷依據與轉彎特徵判斷可以有效提升定位精度,於先期驗證中閉合差約為2.352公尺,後期驗證閉合差可達0.99公尺。
    The widespread adoption of mobile device has improved the accuracy of navigation and location. Since nowadays Global Navigation Satellite System (GNSS) is easier to be installed in the mobile device to locate and navigate in the outdoors. Signals of GNSS are obstructed so navigation and positioning would be hard task to be executed indoors. Hence, methods of indoor positioning appear as the instruments of Bluetooth, RFID, IBeacon etc.
    Every method of indoor positioning has its respective cost to affect the selection of indoor positioning technique. In this study, uses data of gyroscope and accelerometer from Micro Electro Mechanical Systems (MEMS) and detects footsteps by using filter to smooth the signal, and then estimate the step length by the ordinary least square. Finally, use Pedestrian Dead Reckoning (PDR) to compute coordinates and use azimuth and the feature of turning to decide time of adjusting position.
    The results of this study show using the Savitzky-Golay Filter detecting footsteps and applying azimuths and turning feature adjusting coordinate can get the closure of the early test trial for 2.352m and in the post-test scene, the closure can be improved to 0.99m.
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    Description: 碩士
    國立政治大學
    地政學系
    103257027
    Source URI: http://thesis.lib.nccu.edu.tw/record/#G0103257027
    Data Type: thesis
    Appears in Collections:[地政學系] 學位論文

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