Design of Bluetooth Low Energy Based Indoor Positioning System

Taşkın, Deniz

doi:10.17694/bajece.334388

Cited by 5 publications

(3 citation statements)

References 13 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…Many studies utilize the transmission signal strength, RSSI, emitted by a beacon or BLE device placed at several locations or points in the monitoring area, and the signal from the beacon is received by a mobile device (smartphone) to indicate the position of the mobile device. Several algorithms are used to determine the position, such as fingerprint [15]- [18], triangulation [19]- [21], pedestrian dead reckoning (PDR) [22]- [24], trilateration or multi-lateration [25]- [35], and artificial intelligence (AI) [36]- [38], as well as by combining AI with fingerprint [39]- [42], trilateration and fingerprint [43], [44], and fingerprint and PDR [45].…”

Section: Devices Developmentmentioning

confidence: 99%

Development of Proximity-Based COVID-19 Contact Tracing System Devices for Locally Virus Spread Prevention

Lubis¹,

Basari

2022

Jurnal Ilmiah Teknik Elektro Komputer Dan Informatika

View full text Add to dashboard Cite

COVID-19 contact tracing is a preventive solution to slow the spread of the virus. Several countries have implemented manual contact tracing as well as digital tracking using smartphone applications. A proximity-based COVID-19 contact tracing system device using BLE (Bluetooth Low Energy) technology focuses on tracking and controlling the spread of the virus in local communities. The devices consist of a signal sending device (tag) and a signal receiving device (scanner). Suppose a system device is implemented in a factory. The tag will be used by employees by placing it in the front pocket of the factory employee's clothes or hooked on the shirt. The tag will continuously send a signal that will be read by the scanner. This received signal with the received signal strength indicator (RSSI) format will be used to calculate the distance between the scanner and the tag. Then the distance will be used to determine the coordinate point of the tag, with calculations using the trilateration algorithm. Therefore, the distance between tags can be obtained, while with signal fluctuation, the actual coordinate point cannot be obtained, yet proximity information can still be obtained by filtering distance data at a specified time interval that is less than the threshold value of the distance, 2 meters, then comparing the data with the overall data, resulting in a percentage value. A high percentage, above 80%, indicates the closeness between tags.

show abstract

Section: Devices Developmentmentioning

confidence: 99%

Development of Proximity-Based COVID-19 Contact Tracing System Devices for Locally Virus Spread Prevention

Lubis¹,

Basari

2022

Jurnal Ilmiah Teknik Elektro Komputer Dan Informatika

View full text Add to dashboard Cite

show abstract

“…A variety of survey papers on indoor localization are available in the literature and monitoring system with the discussing some kind of the latest indoor localization technologies and innovations in the area of monitoring user and user devices (Maghdid et al, 2016;Ferreira et al, 2017;Vasisht et al, 2016;Kotaru et al, 2015). Several systems were developed over the last decade based on Wi-Fi, optical, electromagnetic, Bluetooth, radiofrequency, and sound waves (Xiang et al, 2004;Kim et al, 2010;Saab & Nakad, 2011;Taskin, 2017). Many studies and developments are carried out dealing with BLE (Yu et al, 2012;Ali et al, 2011), and in the last few years, many low-energy Bluetooth systems have arisen.…”

Section: Literature Review and Related Workmentioning

confidence: 99%

A INDOOR POSITION ROUTING (IPR) AND DATA MONITOR USING BLUETOOTH LOW ENERGY TECHNOLOGY (iBEACON-BLE): AN IMPLEMENTATION STUDY

Akgül

Haznedar

Yaşar

et al. 2021

iij

View full text Add to dashboard Cite

Rapid advancements in mobile industry have emerged new technological ideas and applications for researchers by allowing smart devices over the last decade. In recent years, the need for Indoor Position Routing (IPR) and Location-Based Advertisements (LBA) systems are increasingly common, IPR and LBA systems have been becoming very popular. Nowadays, it has become possible to create software and hardware applications for IPR and LBA in indoor environments, thanks to developments of different technologies. The development of the system should be based on low-cost technology, it should be suitable for integration and indoors operation. New options and possibilities for indoor locations are presented by the iBeacon-Bluetooth Low Energy (BLE) radio protocol. iBeacon-BLE supports portable battery-powered system that can be smoothly distributed at low cost giving it distinct advantages over Wi-Fi. Therefore, in this study, a technological infrastructure is created to solve the navigation problem in closed locations using iBeacon-BLE technology, a data monitoring information system is proposed for smart devices of currently available technology for IPR, LBA with using iBeacon-BLE. The localization of the objects based on iBeacon-BLE and their combination are determined using the measured data with the developed application. To build an IPR system for indoor environments, the available hardware, software, and network technologies are presented. The concept of the indoor monitoring system and the technologies can be used to develop the IPR system are presented. This system is made up of iBeacon-BLE sensor nodes, a smart device and a mobile application that provides IPR and LBA services by measuring the distance between Transmitter (TX) and Receiver (RX). The proposed model uses the trilateration method, it allows the mobile application to determine the exact location of the object at the micro-level size. The proposed model uses sensory data to identify and trilateration the object’s position.

show abstract

“…Üçgenleme yöntemi ile Bluetooth Low Energy (BLE) tabanlı konumlandırma sistemi tasarlayan Salas, 1~1,5 metre hata ile konumlandırma gerçekleştirmiştir (Corbacho Salas, 2014). Taşkın akıllı telefon ile haberleşen BLE tabanlı konumlandırma sistemi geliştirmiş ve kapalı bir alanda konumlandırma testleri gerçekleştirmiştir (Taşkın, 2017).…”

Section: Kapalı Alan Konumlandırma (Indoor Positioning)unclassified

Kapali Alan Konumlandirma Si̇stemleri̇ İçi̇n Düğüm Prototi̇pi̇ Geli̇şti̇rme

Kırbaş

Arslan

2020

Mühendislik Bilimleri Ve Tasarım Dergisi

View full text Add to dashboard Cite

Kablosuz haberleşme sistemleri günümüzün en çok kullanılan ve hızla gelişen teknolojileri arasında bulunmaktadır. Kablosuz sistemlerdeki ve donanımsal malzemelerdeki gelişmeler ile düşük maliyetli, düşük enerji tüketimli ve kurulumları kolay kablosuz ağlar tasarlanarak bir ortamdaki farklı fiziksel veriler elde edilebilmektedir. Nesnelerin bulundukları yerleri tespit etmek amacıyla kullanılan konumlandırma sistemleri, kablosuz teknolojileri kullanmaktadır. Günümüzde konumlandırma sistemlerinin kullanımı giderek artmakta ve yaygınlaşmaktadır. İlk olarak açık alanlarda konum belirlemek için kullanılan GPS uydu sistemleri geliştirilmiştir. Bu sistem dünya genelinde askeri ve sivil uygulamalarda yaygın olarak kullanılmaktadır. Açık alan konumlandırma da genellikle uydu sinyallerinden faydalanılır ve sinyallerin geliş süresi üzerinden konum tespiti gerçekleştirilir. Ancak kapalı alanlar söz konusu olduğunda farklı bir yaklaşım ve çözüm geliştirilmesi gerekmektedir. Çalışmamızda kapalı alanlarda konum belirlemek amacıyla Wi-Fi ve Bluetooth sinyallerinden yararlanan üç ayrı donanım geliştirilmiştir. Makine öğrenmesi yöntemleri kullanarak yapılan denemeler, kapalı alanda konum belirlemek için geliştirilen donanımların 1-1,5m aralığında bir hata ile konum tespiti yapabildiğini göstermektedir.

show abstract

Design of Bluetooth Low Energy Based Indoor Positioning System

Cited by 5 publications

References 13 publications

Development of Proximity-Based COVID-19 Contact Tracing System Devices for Locally Virus Spread Prevention

Development of Proximity-Based COVID-19 Contact Tracing System Devices for Locally Virus Spread Prevention

A INDOOR POSITION ROUTING (IPR) AND DATA MONITOR USING BLUETOOTH LOW ENERGY TECHNOLOGY (iBEACON-BLE): AN IMPLEMENTATION STUDY

Kapali Alan Konumlandirma Si̇stemleri̇ İçi̇n Düğüm Prototi̇pi̇ Geli̇şti̇rme

Contact Info

Product

Resources

About