基于knn的博物馆导览系统访客定位

Eko Suripto Pasinggi, S. Sulistyo, B. Hantono
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摘要

本研究的重点是设计和实现定位系统(PS),该系统是定位感知博物馆导览系统(GMS)的一个组成部分。定位系统(PS)的准确度是决定访客接收到的信息是否合适的一个重要方面。系统的设计流程从确定实现位置开始。之后,选择构建系统的组件。本研究中使用的原则是利用现有的基础设施来降低系统开发的成本。最近在博物馆完成了一项研究,收集了有关博物馆环境的信息,以协助设计过程。采用无线局域网技术和基于rssi的指纹识别技术,提出了该系统的设计方案。这种指纹技术使用的算法是KNN。为了提高系统性能,还采用了增加接入点(AP)和AP滤波方法。试验结果表明,三次试验的PS精度水平与1.2 m精度水平的期望有显著差异。第一次试验是在没有额外支持的情况下,博物馆现有的基础设施无法提供准确的估计位置。它只有3.75米。二是在6 ~ 11个ap中增加5个ap,精度达到2.55 m。最后是实现AP过滤。它可以提供1.83米的改进。
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KNN-Based Visitor Positioning For Museum Guide System
This study focuses on designing and implementing a Positioning System (PS) that is addressed as a component of the Location-aware Museum Guide System (GMS). The level of accuracy of the Positioning System (PS) is an important aspect in determining the suitability of the information received by the visitors. The design flow of the system begins by identifying the location of implementation. After that, choose the components to build the system. The principle used in this study is the use of existing infrastructure to reduce the cost of system development. A recent study was completed in the museum gathered information about the museum environment to assist with the design process. The system design is proposed by using WLAN technology with RSSI-based fingerprinting techniques. The algorithm used for this fingerprint technique is KNN. The addition of Access Point (AP) and AP filtering methods were also applied to improve the system performance. The test results showed that there were significant differences on accuracy level of PS among three times trial tested to the expectation of accuracy level at 1.2 meter. First trial was without additional support the existing infrastructure in the Museum is unable to provide an accurate estimating position. It was only 3.75 m. The second was by adding five APs from 6 to 11 APs, the accuracy level was 2.55 m. The last was to implement the AP filtering. It can provide improvement to 1.83 m.
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