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Title	WiFiPoz -- an accurate indoor positioning system
Subject	Location-based services; Mobile geographic information systems; Global Positioning System
Creator	Ye, Xiaoyi.
Publisher	Published by: Eastern Washington University Libraries. 816 F St. Cheney, WA 99004-2453. http://www.ewu.edu/library.xml
Date	2012
Type	text
Format	application/pdf
Source	Original format: MS Word.docx
Language	eng
Rights	The author retains all ownership rights to the copyright to this Master's Thesis. Copying of this document in whole or in part is allowable only for scholarly purposes, and with proper attribution given to the author. The content of this thesis shall not be used for commercial purposes, or for financial gain, without the permission of the author.
Provenance	Received from the EWU Graduate Studies Office.
Description-Table Of Contents	Abstract -- Acknowledgement -- Table of Figures -- Table of Tables -- List of abbreviations -- Chapter 1. Introduction -- Chapter 2. Literature Review -- Chapter 3. Positioning System Design and Implementation -- Chapter 4. Experiment and results -- Chapter 5. Conclusion and Future Work -- References -- Appendix A: Table of zone boundary (cm) -- Appendix B: The Coordinate Measurement of 35 Training Points (cm) -- Appendix C: zone parameters for 35 Training Points Setting -- Vita.
Description-Abstract	"Location based services are becoming an important part of life. Wide adoption of GPS in mobile devices combined with cellular networks has practically solved the problem of outdoor localization needs. The problem of locating an indoor user has being studied only recently. Much research contributed to the innovative concept of an indoor positioning system. By analyzing different technologies and algorithms, this thesis concluded that, considering a trade-off between accuracy and cost, a Wi-Fi based Fingerprint method is proved to be the most promising approach to determine the location of a mobile device. However, the Fingerprint method works in two phases-an offline training phase (collection of Received Signal Strength signatures) and an online phase in which data from the first phase is used to determine the current position of a mobile user. The number of training points in a certain area has a direct impact on the accuracy of the system. As a result, the offline phase is a tedious and cumbersome process and the positioning systems are only as accurate as the offline training phase has been detailed. Moreover, the offline phase must be repeated every time a change in the environment occurs. To avoid these limitations, we focus on improving the accuracy of the indoor positioning system, without increasing the number of training points. This thesis presents a Wi-Fi based system for locating a user inside a building. The system is named WiFiPoz, which means Wi-Fi positioning system based on the zoning method. WiFiPoz has a novel approach to Fingerprint method that incorporates Propagation and zoning methods. Experimental results show that WiFiPoz is highly efficient both in accuracy and costs. Compared to traditional Fingerprint methods, with the optimization of the accuracy of the location estimation, WiFiPoz reduces the number of training points. This feature makes it possible to quickly adapt to changes in the environment. In order to explore another possible solution, this thesis also developed, implemented and tested an indoor positioning system named GIS (Geometric Information based positioning System), which is based on a model proposed by another researcher. Several experiments were run in the offline phase and results were compared between the traditional Fingerprint method, GIS and proposed WiFiPoz. We concluded that WiFiPoz is a more efficient and simple way to increase the accuracy of the location determination with fewer training points"--Document.
Date-Created	2012
Format-Extent	3,809,280 bytes
Relation-Requires	Adobe Acrobat Reader
Relation-Is Part Of	EWU Theses Collection
Relation-Is Format Of	PDF of MS Word.docx. [2] pages before title page were not part of the original document; they were added when converted to PDF. Original signatures on pages ii-iii were redacted.
Rights-Access Rights	This thesis is embargoed for 2 years. To access the electronic copy, you must have a valid EWU Network ID and Password.
Rights-Rights Holder	Ye, Xiaoyi.

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