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QA-kNN: Indoor Localization Based on Quartile Analysis and the kNN Classifier for Wireless Networks
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Considering the variation of the received signal strength indicator (RSSI) in wireless networks, the objective of this study is to investigate and propose a method of indoor localization in order to improve the accuracy of localization that is compromised by RSSI variation. For this, quartile analysis is used for data pre-processing and the k-nearest neighbors (kNN) classifier is used for localization. In addition to the tests in a real environment, simulations were performed, varying many parameters related to the proposed method and the environment. In the real environment with reference points of 1.284 density per unit area (RPs/m2), the method presents zero-mean error in the localization in test points (TPs) coinciding with the RPs. In the simulated environment with a density of 0.327 RPs/m2, a mean error of 0.490 m for the localization of random TPs was achieved. These results are important contributions and allow us to conclude that the method is promising for locating objects in indoor environments.
Title: QA-kNN: Indoor Localization Based on Quartile Analysis and the kNN Classifier for Wireless Networks
Description:
Considering the variation of the received signal strength indicator (RSSI) in wireless networks, the objective of this study is to investigate and propose a method of indoor localization in order to improve the accuracy of localization that is compromised by RSSI variation.
For this, quartile analysis is used for data pre-processing and the k-nearest neighbors (kNN) classifier is used for localization.
In addition to the tests in a real environment, simulations were performed, varying many parameters related to the proposed method and the environment.
In the real environment with reference points of 1.
284 density per unit area (RPs/m2), the method presents zero-mean error in the localization in test points (TPs) coinciding with the RPs.
In the simulated environment with a density of 0.
327 RPs/m2, a mean error of 0.
490 m for the localization of random TPs was achieved.
These results are important contributions and allow us to conclude that the method is promising for locating objects in indoor environments.
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