Litcius/Paper detail

Exploiting Radio Frequency Characteristics With a Support Unmanned Aerial Vehicle to Improve Wireless Sensor Location Estimation Accuracy

Mina Kato, Tiago Koketsu Rodrigues, Toru Abe, Takuo Suganuma

2024IEEE Internet of Things Journal80 citationsDOI

Abstract

A lot of the devices in the Internet of Things are sensors responsible for capturing environmental information and relaying it to a system or network. Oftentimes, it is important to know the location of these sensors to better contextualize the information received from them. However, the sensors are purposely simple and cheap, meaning that conventional localization techniques, such as global navigation satellite systems are not feasible. Research has been done on using unmanned aerial vehicles to estimate the location of the sensors, but issues with signal strength fluctuation and location approximation because of it are still prevalent. In this work, we propose a new method for estimating the location of sensors by exploiting the characteristics of radio wave signal propagation and creating a new flight path design, a solution to minimize the impact of variation in measurements, a novel candidate point generation through signal strength analysis, and a method to find the location based on the candidates. Through a thought-out experiment, we show that the proposed algorithm is overall significantly better than the existing solution when it comes to identifying the location of outdoor sensors.

Topics & Concepts

Computer scienceWireless sensor networkReal-time computingSIGNAL (programming language)WirelessSignal strengthRadio propagationRadio frequencyPoint (geometry)Path (computing)TelecommunicationsComputer networkMathematicsProgramming languageGeometryIndoor and Outdoor Localization TechnologiesRadio Wave Propagation StudiesUAV Applications and Optimization