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The Key Technology Design Of Tour Navigation And Safety Monitoring System In Earthquake Ruins

Posted on:2013-04-05Degree:MasterType:Thesis
Country:ChinaCandidate:C H LuFull Text:PDF
GTID:2248330374999940Subject:Signal and Information Processing
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Nowadays, the rise of “The Internet of Things” providesimmeasurable power to the global economic recovery, which also makesthe widespread application of RFIDtechnology have been a strong expansion, and the traditional developmentmodels extend to the intelligence applications to give full play to itsconvenience and the degree of automation. In this paper, in view of thevisit particularity for the Earthquake Ruins Museum, it is the synthesis ofthe key technology of RFID technology to automatically identifypositioning, PDA, GPRS, GIS, and these multiple techniques areefficiently used to track and position the subjects in the field guide of sitevisitors browse and security monitoring systems for Earthquake RuinsMuseum. It achieves the core functionality of the act of navigation, security monitoring, as well as a wider range of RFID applications toensure that the management of the earthquake ruins museum is humanity,information, intelligence.This article is legislated from the863Program “RFID technologybased on the temporal and spatial the shunt navigation management modeused in the conservation area and the earthquake ruins”. In this paper, inview of the characteristic environment for the earthquake such as the sitemuseum visit places, it mainly studies the positioning of the RFIDtechnology-based navigation and the feasibility of the safety monitoringsystem, the specific program and its key technologies, and proposes theidea to create a system simulation for the PDA mobile device-sideplatform. It completes the core modules of the system design. In thispaper, its main research content and innovation as follows.First, it analyses the significance of this topic, as well as the currentdomestic and foreign research on the subject and the status quo of itsrelated fields, and then puts forward the overall framework and design ofthe earthquake site navigation and safety monitoring system.Second, it studies deep the architecture and design of the coremodules of the earthquake site navigation and safety monitoring system,draws the corresponding module ideas, and makes the correspondingarchitecture block diagrams.Third, it focuses on the design of the core module in the system, and the research of key technologies to achieve functions.1).The key technology research of the system based on RFIDtechnology. RFID technology as an information carrier, networktechnology as a bridge, it plans to the establishment of a modern museumintelligent management system. Based on RFID technology, it analyzessystem site visitors tracking and positioning, the act of navigation,security monitoring, and other core functions. In addition, it analyzes howto program the data of the RFID tag information collection and coding,how to choice the RFID band, how to formulate normative principles tothe site and install choice of the RFID reader in the earthquake ruinsmuseum. Besides, in the paper, it researches the system based on RFIDin the simulation software program.2).The key technologies of PDA mobile terminal. The PDA mobileterminal platform is the integration of RFID, GPS, GIS, GPRStechnology, document management, and RFID data collection andmanagement of GIS map, GPS positioning and GPRS wirelesscommunication functions. PDA mobile terminal platform hardware andsoftware modules function to be designed to provide selection of the mainparameters of the PDA mobile terminal platform hardware, software,operating environment, and the PDA device side of the selectionrequirements. In this paper, it also designs the simulation softwareinterface program of the PDA mobile terminal platform to display its corresponding menu functions, the procedure processes, etc.3).The design of the system database. Database design is critical to thecore part of the background monitoring unit. This paper analyzes theselection of the system database and the way of data storage in detail, anddesigns the logical structure of the system database, and obtains thestructure of the database table of database entities.This paper studies the whole and key technologies of the system,which based on RFID technology earthquake site navigation and safetymonitoring. It realizes the positioning function of the particular objectmoving target in the museum (the tour guides and the visitors) and safetymonitoring hazardous areas of the museum. In addition, it researches corefunction module and simulation of the system.The chapters of this paper are organized as follows. The first chaptercontains the source and meaning, the current domestic, as well as foreignrelated fields study the status quo. The second chapter makes out thegeneral analysis about the earthquake site navigation and safetymonitoring system, and proposes the overall framework and designscheme, in-depth design study and system core modules. Respectively,the third,fourth chapter and fifth chapter, design the detailed and thedepth functional for the three key technologies of earthquakesite navigation and safety monitoringsystem, complete the corresponding modules of the system to achieve the ideas, and draw the corresponding architecture blockdiagram, flowchart, simulation map. Finally, the summary and outlookconclude this paper, and prospect the future research work.In summary, the research of the earthquakeruins museum site navigation and safety monitoringsystem, incorporates a number of key technologies, such as RFIDtechnology, PDA, database management system, etc., and the paper is inorder to achieve a user-friendly, site museum, informationtechnology, intelligent management model. This study will no doubt givefull play to the great practical role for the earthquake ruins museum as ahistorical education base, a geological hazards research base, a researchbase of the building seismic, and a science education base ofearthquake knowledge.
Keywords/Search Tags:RFID technology, PDA, tour navigation, safetymonitoring, background management
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