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研究生:楊皓迪
研究生(外文):Hao-ti Yang
論文名稱:應用以規則為基礎之重組器簡化家電整合之研究
論文名稱(外文):On Applying the Rule-Based Reconfigurator to Simplify the Integration of Home Appliances
指導教授:張嘉銘張嘉銘引用關係
指導教授(外文):Chia-ming Chang
學位類別:碩士
校院名稱:大同大學
系所名稱:資訊工程學系(所)
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:2005
畢業學年度:93
語文別:英文
論文頁數:50
中文關鍵詞:功能重組重組器家庭網路
外文關鍵詞:functionality reconfigurationhome networkreconfigurator
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在本篇論文中,提出了一個以規則為基礎的重組器,來簡化家庭網路重新組態過程中的複雜度。藉由應用此系統,一般使用者可以輕易地變更設備間的連線,並且加入新的邏輯關聯運算。
隨著科技的進步發展,家庭網路的標準與技術也不斷地推陳出新,也有越來越多的研究與家電設備的遠端控制相關。有許多種家庭網路技術正在發展中,藉由使用這些家庭網路技術(如OSGi或UPnP),使用者可以針對其家電設備來設計客製化家庭網路系統,以達到不同的需求。
然而,若使用者想要去變更家電設備間的連線與邏輯關聯運算,則必須要重新改寫整合系統的程式或家電設備的設定。對於未具有相關技術背景的一般使用者而言,要完成這些複雜的工作是相當困難的。為了要解決這個問題,我們提出了一個可重組系統。透過這個系統的使用介面,使用者可以輕易地完成家電設備之間繁瑣的組態連線設定過程。
本可重組系統是以規則為基礎。藉由此系統,使用者可使用手持式裝置連結到重組器,可直接控制家電設備或調整設備間的連線關係,而不用重新撰寫程式或改變裝置的設定。使用者也可以透過設定設備間的邏輯關聯運算規則,使重組器能夠執行新的邏輯關聯運算。在此系統中,我們提供了設定規則的基本方式,使用者可藉由組合這些設定方式來設計出許多規則,以符合不同情況並達成各種使用目的。
In this thesis, a system with the rule-based reconfigurator to accomplish the complicated tasks of home network reconfiguration is proposed. Applying the system, the end users would be easy to modify the connections and add new operating dependency among devices.
With the development of technology, more and more new home network standards and technologies have been introduced. There are a lot of researches related to home network appliances remote controlling. There are many developing home network technologies. Using these home network technologies, such as OSGi and UPnP, the home network could be designed for users’ appliances to meet their demands.
However, if the user would like to modify the connection of appliances or the operating dependency of appliances, it is needed to rewrite the system integration programs, change the network configuration or the setting of appliances. It may be difficult for who doesn’t have the related technical background to accomplish the complicated tasks. In order to solve the problem, we propose a reconfiguration system with friendly user interface to easily accomplish the complicated configuration phases of home appliance.
The reconfiguration system is based on rules. By the system, users could use handheld devices to connect with the reconfigurator and control the appliances directly or modify the relationship of home appliances and devices without rewriting the program and changing devices setting. Users could set rules among devices for the reconfigurator to perform new logic operations. In the proposed system, we provide basic ruling methods, and users could combine these ruling methods and make up various rules to meet numerous situations for different purposes.
CHAPTER 1 INTRODUCTION
1.1 Introduction
1.2 Motivation
1.3 Thesis Organization
CHAPTER 2 HOME NETWORK TECHNOLOGIES
2.1 Home Network Structure
2.1 Classification of Home Network Technologies
2.2 Wired Network Technologies
2.2.1 Ethernet
2.2.2 HomePNA
2.2.3 HomePlug
2.2.4 IEEE 1394
2.3 Wireless Network Technologies
2.3.1 HomeRF
2.3.2 IEEE 802.11
2.4 Middleware Technologies
2.4.1 UPnP
2.4.2 Jini
2.4.3 OSGi
2.5 LonWorks
2.6 Bluetooth
2.7 Comparison of Home Network Technologies
CHAPTER 3 SYSTEM ORGANIZATION
3.1 System Architecture
3.2 System Architecture
3.2.1 Handheld Controller
3.2.2 Reconfigurator
3.2.3 Home Appliances and Devices
3.3 Operation Rules
3.3.1 Rule Format
3.3.2 Time-lapse of Rule Result Output
3.4 Message Types
3.5 Scenario of Messages
CHAPTER 4 THE IMPLEMENTATION
4.1 Platform and Development Tools
4.1.1 LonMaker Integration Tool
4.1.2 NodeBuilder Development Tool
4.1.3 CodeWarrior Dev Studio for Palm OS Platform
4.2 User Interface
4.3 Scenarios
CHPATER 5 CONCLUSION, DISCUSSION AND FUTURE WORK
5.1 Conclusion
5.2 Discussion
5.3 Future Work
[1] Keller, T.; Paczkowski, R.; and Modelski J. “Using Bluetooth in a System for Integrated Control of Home Digital Network Devices,” Microwaves, Radar and Wireless Communications, 2002.
[2] Nikolova, M.; Mejis, F.; and Voorwinden P. “Remote Mobile Control of Home Appliances,” Consumer Electronics, 2003.
[3] Hamid Shahnasser and Quan Wang, “Controlling Industrial Devices over TCP/IP by Using LonWorks,” San Francisco State University, 1998.
[4] LonWorks Overview & LonTalk Protocol
http://www.echelon.com/products/lonworks/default.htm
[5] IEEE 802.3
http://grouper.ieee.org/groups/802/3
[6] The Cisco Ethernet Documents
http://www.cisco.com/univercd/cc/td/doc/cisintwk/ito_doc/ethernet.htm
[7] Home Phoneline Networking Alliance
http://www.homepna.org
[8] HomePlug Powerline Alliance
http://www.homeplug.org
[9] IEEE 832.11
http://grouper.ieee.org/groups/802/11
[10] UPnP Forum
http://www.upnp.org
[11] Jini.org - The Community Resource for Jini Technology
http://www.jini.org
[12] OSGi Alliance
http://www.osgi.org
[13] Introduction to the LonWorks System
http://www.echelon.com/support/documentation/manuals/078-0183-01A.pdf
[14] The Official Bluetooth Wireless Info Site
http://www.bluetooth.com
[15] LonMarker Integration Tool
http://www.echelon.com/products/integration/lonmaker
[16] NodeBuilder 3 Development Tool
http://www.echelon.com/products/development/nodebuilder/default.htm
[17] CodeWarrior for Palm OS Platform
http://www.metrowerks.com/MW/Develop/Wireless/PalmOS/Professional
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