臺灣博碩士論文加值系統

藍芽散網是由兩個以上的藍芽微網相互連結而形成的，通常由用戶的手提式的電子裝置，如筆記型電腦、個人數位助理、智慧型手機等組成典型的藍芽網路。因此，藍芽散網適合用來形成個人區域網路。
用來連接微網的藍芽裝置我們稱之為橋接器，因為橋接器遊走於各個所連接的微網之間，需要以分時多工的方式在所屬的微網中進行服務，因此需要一個IPS (Inter-Piconet Scheduling) 演算法。IPS演算法關係著整個散網的表現效能，本文將就IPS演算法做探討並提出以佇列滿溢程度調整Master與橋接器服務時間的演算法來觀察其對散網效能的表現。

Bluetooth scatternets are formed by interconnecting Bluetooth piconets. The typical bluetooth network is formed with user''s handheld electronic devices such as notebooks、PCs、PDAs and smartphones, etc. Therefore, Bluetooth scatternets can be good candidates for personal area networks(PANs).
Bluetooth devices used for connecting piconets are called gateways. This requires an inter-piconet scheduling (IPS) algorithm for gateways which switch between each piconet connected by polling. IPS algorithms performance determines the efficiency of Scatternet. This paper will probe algorithms of IPS and support the algorithms to adjust service time between master nodes and gateway depend on degree of fullness in the packed buffer.

摘要
Abstract
目錄
圖目錄
表目錄
第一章 緒論
1.1 研究背景
1.2 研究動機
1.3 各章介紹
第二章 藍芽系統
2.1 資料傳輸型態
2.2 核心架構(Core Architectural)
2.3 封包格式(Packet Format)
2.4 連接狀態(Connection State)
第三章 相關研究
3.1 ERR介紹
3.2 MDRP介紹
3.3 GOSS介紹
第四章 研究方法與結果
4.1 方法說明
4.2 演算法
4.3 研究結果
4.3.1 均勻封包產生率-架構一
4.3.2 非均勻封包產生率-架構一
4.3.3架構二
第五章 總結與未來方向
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