Voronoi Diagram and Crowdsourcing-Based Radio Map Interpolation for GRNN Fingerprinting Localization Using WLAN

Sun, Yongliang; He, Yu; Meng, Weixiao; Zhang, Xinggan

doi:10.3390/s18103579

Cited by 9 publications

(10 citation statements)

References 45 publications

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“…Whatever application is intended to be used for, if RSSI is the parameter that is to be monitored to estimate distance, and to further calculate position of a mobile station with regard to a specific monitoring (fixed) station, a proper model for signal propagation would be always useful. Some authors [19] recommend certain models, based on experiments performed to determine the best suitable behavior for signal attenuation. One of these is denoted by:…”

Section: Frameworkmentioning

confidence: 99%

“…Other research involves different procedures for improving the localization results [ 14 , 15 , 16 , 17 , 18 ]. The authors of [ 19 ] propose an optimized propagation model parameter for each Voronoi cell using the RSS and location coordinates of crowdsourcing points and estimate the RSS samples of interpolation points with the optimized propagation model parameters to establish a radio map—and reducing processing time. In [ 20 ] the authors present an algorithm named Dynamic Topology Detector (DTD) for extracting a GVD with topological information from a grid map.…”

Section: Related Workmentioning

confidence: 99%

“…Whatever application is intended to be used for, if RSSI is the parameter that is to be monitored to estimate distance, and to further calculate position of a mobile station with regard to a specific monitoring (fixed) station, a proper model for signal propagation would be always useful. Some authors [ 19 ] recommend certain models, based on experiments performed to determine the best suitable behavior for signal attenuation. One of these is denoted by:

where d is the distance between the communicating devices, n represents the signal transmission constant, AE is defined as the absolute energy—A comparison factor in terms of energy, taken at 1 m distance from the measuring point.…”

Section: Problem Definitionmentioning

confidence: 99%

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Developing a Solution for Mobility and Distribution Analysis Based on Bluetooth and Artificial Intelligence

Minea

Dumitrescu

Costea

et al. 2020

Sensors

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The purpose of this research was to develop a simple, cost-effective, but enough efficient solution for locating, tracking and distribution analysis of people and/or vehicle flowing, based on non-intrusive Bluetooth sensing and selective filtering algorithms employing artificial intelligence components. The solution provides a tool for analyzing density of targets in a specific area, useful when checking contact proximities of a target along a route. The principle consists of the detection of mobile devices that use active Bluetooth connections, such as personal notebooks, smartphones, smartwatches, Bluetooth headphones, etc. to locate and track their movement in the dedicated area. For this purpose, a specific configuration of three BT sensors is used and RSSI levels compared, based on a combination of differential location estimates. The solution may also be suited for indoor localization where GPS signals are usually weak or missing; for example, in public places such as subway stations or trains, hospitals, airport terminals and so on. The applicability of this solution is estimated to be vast, ranging from travel and transport information services, route guidance, passenger flows tracking, and path recovery for persons suspected to have SARS-COV2 or other contagious viruses, serving epidemiologic enquiries. The specific configuration of Bluetooth detectors may be installed either in a fixed location, or in a public transport vehicle. A set of filters and algorithms for triangulation-based location of detected targets and movement tracking, based on artificial intelligence is employed. When applied in the public transport field, this setup can be also developed to extract additional information on traffic, such as private traffic flowing, or passenger movement patterns along the vehicle route, improved location in absence of GPS signals, etc. Field tests have been carried out for determining different aspects concerning indoor location accuracy, reliability, selection of targets and filtering. Results and possible applications are also presented in the final section of the paper.

show abstract

Section: Frameworkmentioning

confidence: 99%

Section: Related Workmentioning

confidence: 99%

“…Whatever application is intended to be used for, if RSSI is the parameter that is to be monitored to estimate distance, and to further calculate position of a mobile station with regard to a specific monitoring (fixed) station, a proper model for signal propagation would be always useful. Some authors [ 19 ] recommend certain models, based on experiments performed to determine the best suitable behavior for signal attenuation. One of these is denoted by:

Section: Problem Definitionmentioning

confidence: 99%

See 1 more Smart Citation

Developing a Solution for Mobility and Distribution Analysis Based on Bluetooth and Artificial Intelligence

Minea

Dumitrescu

Costea

et al. 2020

Sensors

View full text Add to dashboard Cite

show abstract

“…In contrast to the above, [15,16] used differential barometric altimetry to assist with floor identification and achieved a judgement rate of 98%. In addition, in order to improve the matching efficiency of online positioning, different clustering algorithms were introduced [17,18,19,20,21,22,23], such as interior geometric clustering algorithm. Some researchers considered APs (access points) as Voronoi diagram’s generators to create Voronoi cells and used these cells to cluster fingerprints of database [22,23].…”

Section: Introductionmentioning

confidence: 99%

“…In addition, in order to improve the matching efficiency of online positioning, different clustering algorithms were introduced [17,18,19,20,21,22,23], such as interior geometric clustering algorithm. Some researchers considered APs (access points) as Voronoi diagram’s generators to create Voronoi cells and used these cells to cluster fingerprints of database [22,23]. After that, the location area of mobile nodes was determined by using the strongest access point, and finally used the dynamic KNN (K-nearest neighbor) algorithm to implement the fingerprint clustering algorithm.…”

Section: Introductionmentioning

confidence: 99%

Indoor Localization within Multi-Story Buildings Using MAC and RSSI Fingerprint Vectors

Han

Jiang

Kong

et al. 2019

Sensors

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For existing wireless network devices and smart phones to achieve available positioning accuracy easily, fingerprint localization is widely used in indoor positioning, which depends on the differences of the Received Signal Strength Indicator (RSSI) from the Wireless Local Area Network (WLAN) in different places. Currently, most researchers pay more attention to the improvement of online positioning algorithms using RSSI values, while few focus on the MAC (media access control) addresses received from the WLAN. Accordingly, we attempt to integrate MAC addresses and RSSI values simultaneously in order to realize indoor localization within multi-story buildings. A novel approach to indoor positioning within multi-story buildings is presented in this article, which includes two steps: firstly, to identify the floor using the difference of received MAC addresses in different floors; secondly, to implement further localization on the same floor. Meanwhile, clustering operation using MAC addresses as the clustering index is introduced in the online positioning phase to improve the efficiency and accuracy of indoor positioning. Experimental results show that the proposed approach can achieve not only the precise location with the horizontal accuracy of 1.8 meters, but also the floor where the receiver is located within multi-story buildings.

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Reconfiguration of garbage collection system based on Voronoi graph theory: a simulation case of Beijing region

Xin

Liang

Feng-wu³

2020

J Comb Optim

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Voronoi Diagram and Crowdsourcing-Based Radio Map Interpolation for GRNN Fingerprinting Localization Using WLAN

Cited by 9 publications

References 45 publications

Developing a Solution for Mobility and Distribution Analysis Based on Bluetooth and Artificial Intelligence

Developing a Solution for Mobility and Distribution Analysis Based on Bluetooth and Artificial Intelligence

Indoor Localization within Multi-Story Buildings Using MAC and RSSI Fingerprint Vectors

Reconfiguration of garbage collection system based on Voronoi graph theory: a simulation case of Beijing region

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