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研究生:邵致翔
研究生(外文):Chih-HsiangShao
論文名稱:使用在社群物聯網機制之鄰近分享資料的群體換手策略
論文名稱(外文):A Group Handoff Scheme for Proximate Data Sharing Using the Social Internet of Thing (S-IOT) Mechanism
指導教授:黃崇明黃崇明引用關係
指導教授(外文):Chung-Ming Huang
學位類別:碩士
校院名稱:國立成功大學
系所名稱:資訊工程學系
學門:工程學門
學類:電資工程學類
論文種類:學術論文
論文出版年:2016
畢業學年度:105
語文別:英文
論文頁數:57
中文關鍵詞:社群物聯網群組旅遊鄰近服務適地性服務群體換手
外文關鍵詞:Social Internet of Things (S-IOT)Group TouringProximity ServiceLocation-Based Service (LBS)Group Handoff
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我們周遭環繞著大量的物聯網設備,而且與我們的生活如影隨形。這些設備不僅不需要人們的介入就可以彼此溝通,他們彼此還有關聯,這些關聯如同人類的社交關係,而這樣的形式又被稱為社群物聯網。在這篇論文中,使用社群物聯網機制之群體換手的架構和策略來讓這個群體能夠下載並分享當地旅遊資訊,像是興趣景點。在這個機制下,旅遊群體中的所有手持裝置可以使得彼此的溝通自動化和透明化,並且讓群體在無線接入點和固定接入點之間切換,然後有效提供所需的興趣景點資訊。這篇論文(1) 定義社群物聯網架構以及兩個群體旅遊的功能性情境為無線接入點模式和固定接入點模式、(2) 提出兩個操作策略來處理無線接入點模式和固定接入點模式之間的切換,此兩個策略是保守模式和積極模式、(3) 提供無線接入點模式和固定接入點模式之間切換的演算法。我們用安卓系統來開發出一個實體系統,而且透過耗電量和服務時間來評估效能的分析。
Internet of Things (IOT) emerge in large numbers surrounding us and it has already been along with us everywhere. The things not only communicate with each other without human intervention but also own some relationships called Social IOT (S-IOT), which is the same as social relationships of human beings. In this work, architecture and scheme for a group handoff from a mobile AP to a fixed AP and vice versa, for which the group is for downloading and sharing of geo touring information, e.g., Point Of Interest’s (POI’s), using the proposed S-IOT mechanism. Using the proposed mechanism, all handheld devices in a touring group can communicate with each other and then have the group handoff from a mobile AP to a fixed AP and vice versa automatically and transparently to provide the required POI’s content in a more efficient way. This work (1) defines an S-IOT architecture and two functional scenarios called m-AP mode and f-AP mode for group touring, (2) proposes two control schemes called conservative mode and aggressive mode to handle the handoff from m-AP mode to f-AP mode, and (3) provides control schemes for handoff from m-AP mode to f-AP mode and vice versa. A real system is developed using the Android system and the performance analysis is evaluated from the perspective of power consuming, service time, etc.
Contents VII
List of Figures VIII
Chapter 1 Introduction 1
Chapter 2 Related Works 6
Chapter 3 The Proposed Architecture for Social Internet of Things (S-IOT) 11
Chapter 4 The Proposed Scheme 21
Chapter 5 Performance Analysis 36
Chapter 6 Conclusion and Future Work 51
Bibliography 53
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