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    政大機構典藏 > 資訊學院 > 資訊科學系 > 學位論文 >  Item 140.119/122396
    Please use this identifier to cite or link to this item: https://nccur.lib.nccu.edu.tw/handle/140.119/122396


    Title: 行動群眾感知與計算的訊息蒐集與散播機制
    Message Collection and Dissemination Approach Using Mobile Crowd Sensing and Computing
    Authors: 鄧皓
    Teng, Hao
    Contributors: 蔡子傑
    Tsai, Tzu-Chieh
    鄧皓
    Teng, Hao
    Keywords: 耐延遲網路
    行動群眾感知與計算
    機會性行動網路
    個人興趣
    追蹤數據
    Delay Tolerant Network
    Mobile crowd sensing and computing
    Opportunistic mobile networks
    Personal interests
    Trace data
    Date: 2019
    Issue Date: 2019-03-04 21:34:26 (UTC+8)
    Abstract: 隨著行動裝置的普及,行動群眾感知與計算MCSC (mobile crowd sensing and computing)是一門新興的技術。強調利用群眾節點獨立的計算能力彼此交換訊息。我們希望能將MCSC的技術利用到DTN網路情境中,並結合霧運算的概念將資料做更進一步的處理。而其中最重要和最大的困難點就是如何設計routing方法並找出最有效的傳輸路徑。
    我們設計一個以機會性行動網路為主體DTN平台,並結合以校園學生歷史紀錄的NCCU trace data,設計以相遇機率為基礎的演算法,上傳節點攜帶的資料到邊緣,再利用餘弦相似性將有興趣組成的特定訊息,傳給對訊息有足夠興趣的使用者。最後我們會針對演算法進行模擬,並和其他傳統DTN路由協議演算法做比較,評估效能的提升與節點浪費的下降。
    Mobile crowd sensing and computing (MCSC) is an emerging technology along with the popularity of mobile devices. We utilize the concept of Delay Tolerant Networks (DTNs) and fog computing to support the message collection and dissemination for the MCSC. We emphasize the use of the independent computing power of the mobile crowd nodes to exchange messages with each other. The most challenge here is to design an efficient routing method to deliver messages for both “upload” (data collection to edge nodes) and “download” (data dissemination to nodes that interest) paths.
    We assume that the mobile crowd nodes will like to exchange data in a delay tolerant network (DTN) manner based on opportunistic transmission in order to save energy and data transmission cost. We design a probability-based algorithm to upload data which carried by normal mobile nodes to the edge nodes. And then, we use cosine similarity to relay specific message of attributes to users who have high interest to receive the message. We simulate the algorithm with the NCCU real trace data of campus students, and compare it with other traditional DTN routing algorithms. The performance evaluations show the improvement of message delivery ratio and decreasing latency and transmission overhead.
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    [3] M. Han, M. Yan, Z. Cai, and Y. Li, An exploration of broader influence maximization in timeliness networks with opportunistic selection. Journal of Network and Computer Applications, 2016.
    [4] T.Shi, J.Wan, S.Cheng, Z.Cai, Y.Li, and J.Li,“ Time-bounded positive influence in social networks,” in IIKI, 2015.
    [5] GUO, Bin, et al. Mobile crowd sensing and computing: The review of an emerging human-powered sensing paradigm. ACM Computing Surveys (CSUR), 2015, 48.1: 7
    [6] Huadong Ma, Dong Zhao, Peiyan Yuan, et al. Opportunities in mobile crowd sensing. IEEE Communications Magazine, August, 2014.
    [7] HIGUCHI, Tatsuro, et al. A neighbor collaboration mechanism for mobile crowd sensing in opportunistic networks. Communications (ICC), 2014 IEEE International Conference on. IEEE, 2014. p.42-47.
    [8] MUN, Min, et al. PEIR, the personal environmental impact report, as a platform for participatory sensing systems research. Proceedings of the 7th international conference on Mobile systems, applications, and services. ACM, 2009. p.55-68.
    [9] XIANG, Chaocan, et al. Passfit: Participatory sensing and filtering for identifying truthful urban pollution sources. Sensors Journal, IEEE, 2013.
    [10] GAONKAR, Shravan, et al. Micro-blog: sharing and querying content through mobile phones and social participation. In: Proceedings of the 6th international conference on Mobile systems, applications, and services. ACM, 2008. p. 174-186.
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    [15] CAI, Ji Li Zhipeng; YAN, Mingyuan; LI, Yingshu. Using crowdsourced data in location-based social networks to explore influence maximization. The 35th Annual IEEE International Conference on Computer Communications (INFOCOM 2016). 2016.
    [16] QIN, Jun, et al. Post: Exploiting dynamic sociality for mobile advertising in vehicular networks. IEEE Transactions on Parallel and Distributed Systems, 2016.
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    [18] Koustabh Dolui, Soumya Kanti Datta, et al. Comparison of edge computing implementations: Fog computing, cloudlet and mobile edge computing. IEEE Global Internet of Things Summit (GIoTS), 2017.
    [19] TSAI, Tzu-Chieh; CHAN, Ho-Hsiang. NCCU Trace: social-network-aware mobility trace. Communications Magazine, IEEE, 2015.
    [20] TSAI, Tzu-Chieh, et al. A Social Behavior Based Interest-Message Dissemination Approach in Delay Tolerant Networks. In: International Conference on Future Network Systems and Security. Springer International Publishing, 2016. p. 62-80.
    [21] Bin Guo, Zhu Wang, Zhiwen Yu, Yu Wang, Neil Y. Yen, RUNHE HUANG, XINGSHE ZHOU. Mobile Crowd Sensing and Computing: The Review of an Emerging Human-Powered Sensing Paradigm. Journal ACM Computing Surveys (CSUR), Volume 48 Issue 1, September 2015 Article No. 7.
    [22] Rafael Laufer, Henri Dubois-Ferri"ere, Leonard Kleinrock. Multirate Anypath Routing in Wireless Mesh Networks. IEEE INFOCOM, 2009.
    [23] H. Li, T. Li, W. Wang and Y. Wang, "Dynamic Participant Selection for Large-Scale Mobile Crowd Sensing," in IEEE Transactions on Mobile Computing.
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    Description: 碩士
    國立政治大學
    資訊科學系
    105753019
    Source URI: http://thesis.lib.nccu.edu.tw/record/#G0105753019
    Data Type: thesis
    DOI: 10.6814/THE.NCCU.CS.007.2019.B02
    Appears in Collections:[資訊科學系] 學位論文

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