Accurately classifying regions based on Wi-Fi signals can be a difficult task, especially when considering different frequency values. In this study, we aimed to improve the accuracy of indoor localization by developing a novel approach that does not rely on pre-trained models. To achieve this, fingerprints from the IEEE 802.11az standard were randomly selected, and the data samples were trained using parameterized station characteristics and neural network hyperparameters. The impact of each parameter on the localization accuracy was measured, and performance monitoring metrics such as F1-Measure and confusion matrix-based metrics were evaluated. Furthermore, the Thompson sampling (TS) algorithm was employed to determine the optimal parame...
Different technologies have been proposed to provide indoor localisation: magnetic field, Bluetooth,...
Indoor localization has been a particularly active area of research in the last few years. Many solu...
In this paper we present indoor localization aspects in IEEE 802.11 wireless networks. We analyze t...
The performance of Wi-Fi fingerprinting indoor localization systems (ILS) in indoor environments dep...
In the Internet of Things (IoT) era, indoor localization plays a vital role in academia and industry...
In recent years, the demands for a better system that enables indoor localization have risen exponen...
Global positioning systems have difficulties in finding positions inside buildings, since indoor pos...
Ubiquitous positioning provides continuous positional information in both indoor and outdoor environ...
In recent years, the prevalence of mobile devices and the popularity of social networks have spurred...
In indoor environments, WiFi (RSS) based localization is sensitive to various indoor fading effects ...
This research focuses on improving indoor localization using wireless network and artificial neural ...
Indoor localization has continued to garner interest over the last decade or so, due to the fact tha...
Indoor localization has been a challenging problem for over a decennium. Wi-Fi Fingerprinting based ...
Navigating in an unfamiliar environment has been made easy through the advancement in smartphone tec...
In this study, the indoor localization was performed on indoor networks. WiFi technology is located ...
Different technologies have been proposed to provide indoor localisation: magnetic field, Bluetooth,...
Indoor localization has been a particularly active area of research in the last few years. Many solu...
In this paper we present indoor localization aspects in IEEE 802.11 wireless networks. We analyze t...
The performance of Wi-Fi fingerprinting indoor localization systems (ILS) in indoor environments dep...
In the Internet of Things (IoT) era, indoor localization plays a vital role in academia and industry...
In recent years, the demands for a better system that enables indoor localization have risen exponen...
Global positioning systems have difficulties in finding positions inside buildings, since indoor pos...
Ubiquitous positioning provides continuous positional information in both indoor and outdoor environ...
In recent years, the prevalence of mobile devices and the popularity of social networks have spurred...
In indoor environments, WiFi (RSS) based localization is sensitive to various indoor fading effects ...
This research focuses on improving indoor localization using wireless network and artificial neural ...
Indoor localization has continued to garner interest over the last decade or so, due to the fact tha...
Indoor localization has been a challenging problem for over a decennium. Wi-Fi Fingerprinting based ...
Navigating in an unfamiliar environment has been made easy through the advancement in smartphone tec...
In this study, the indoor localization was performed on indoor networks. WiFi technology is located ...
Different technologies have been proposed to provide indoor localisation: magnetic field, Bluetooth,...
Indoor localization has been a particularly active area of research in the last few years. Many solu...
In this paper we present indoor localization aspects in IEEE 802.11 wireless networks. We analyze t...