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Wykorzystanie techniki mini lokalizatorów GPS do lokalizacji osób, zwierząt i mienia

Identyfikatory
Warianty tytułu
EN
Using mini GPS tracker locators in localization of people, animals and assets
Języki publikacji
PL
Abstrakty
PL
Systemy umożliwiające lokalizację obiektów zyskują ostatnio coraz większą popularność. Taki trend może być wynikiem dążenia do zwiększenia bezpieczeństwa, m.in. osób starszych w związku z zauważalnym w wielu krajach starzeniem się społeczeństwa. W niniejszym artykule przedstawiono prace badawcze, które podejmowane są w tym zakresie przez Instytut Tele- i Radiotechniczny. Opisano założenia funkcjonalne projektowanego urządzenia, przeanalizowano dostępne układy elektroniczne GPS/GPRS, które mogą być zastosowane w tym urządzeniu oraz zaprezentowano jego zalety w porównaniu do jego odpowiedników, występujących obecnie na rynku.
EN
Recently, systems enabling localization of objects have gained on importance. This trend may be a result of pursuance to increase safety, among others of elderly people in connection with noticeable in many countries aging of population. In this paper, research work was presented which is carried out in Tele and Radio Research Institute in this field. Functional assumptions of the designed device were described, available GPS/GPRS electronic components were analyzed that can be used in this device, and its advantages compared to its current equivalents.
Rocznik
Strony
71--74
Opis fizyczny
Bibliogr. 28 poz., il., mapy, tab.
Twórcy
autor
  • Instytut Tele- i Radiotechniczny, ul. Ratuszowa 11, 03-450 Warszawa
autor
  • Instytut Tele- i Radiotechniczny, ul. Ratuszowa 11, 03-450 Warszawa
  • Instytut Tele- i Radiotechniczny, ul. Ratuszowa 11, 03-450 Warszawa
autor
  • Instytut Tele- i Radiotechniczny, ul. Ratuszowa 11, 03-450 Warszawa
autor
  • Instytut Tele- i Radiotechniczny, ul. Ratuszowa 11, 03-450 Warszawa
Bibliografia
  • [1] Kim Jong-Tak, Soh Jae-Yong, Kim Sung-Ho, Chung Kyung-Yong. 2013. “Emergency Situation Alarm System Motion Using Tracking of People like Elderly Live Alone”. International Conference on Information Science and Applications (ICISA): 1–4.
  • [2] Fridman Lex, Weber Steven, Greenstadt Rachel, Kam Moshe. 2016. “Active Authentication on Mobile Devices via Stylometry, Application Usage, Web Browsing, and GPS Location”. IEEE Systems Journal 11 (2): 513–521.
  • [3] Patel Amir, Stocks Bradley, Fisher Callen, Nicolls Fred, Boje Edward. 2017. “Tracking the Cheetah Tail Using Animal-Borne Cameras, GPS, and an IMU”. IEEE Sensors Letters 1 (4) 6000504.
  • [4] Fablet Ronan, Chaigneau Alexis, Bertrand Sophie. 2014. “Multiscale Analysis of Geometric Planar Deformations: Application to Wild Animal Electronic Tracking and Satellite Ocean Observation Data”. IEEE Transactions on Geoscience and Remote Sensing 52 (6): 3627–3636.
  • [5] Song Dan, Tharmarasa Ratnasingham, Kirubarajan Thiagalingam, Fernando Xavier. 2017. “Multi-Vehicle Tracking With Road Maps and Car-Following Models”. IEEE Transactions on Intelligent Transportation Systems PP (99): 1–12.
  • [6] Bisio Igor, Sciarrone Andrea, Zappatore Sandro. 2015. “Asset tracking architecture with Bluetooth Low Energy tags and ad hoc smartphone applications”. European Conference on Networks and Communications (EuCNC): 460–464.
  • [7] Paolini Giacomo, Del Prete Massimo, Berra Francesco, Masotti Diego, Costanzo Alessandra. 2016. “An agile and accurate microwave system for tracking elderly people occupancy at home”. IEEE MTT-S Latin America Microwave Conference (LAMC): 1–3.
  • [8] Rougier Caroline, Meunier Jean, St-Arnaud Alain, RousseauJacqueline. 2006. “Monocular 3D Head Tracking to Detect Falls of Elderly People”. International Conference of the IEEE Engineering in Medicine and Biology Society: 6384–6387.
  • [9] Dhaky Keyur, Bulsara Mehernosh. 2012. “Software for Tracking Vulnerable Children”. IEEE Global Humanitarian Technology Conference: 89–92.
  • [10] Gupta Aditi, Harit Vibhor. 2016. “Child Safety & Tracking Management System by Using GPS, Geo-Fencing & Android Application: An Analysis”. Second International Conference on Computational Intelligence & Communication Technology (CICT): 683–686.
  • [11] Miah Shahjahan, Kaparias Ioannis, Liatsis Panos. 2015. “Evaluation of MEMS sensors accuracy for bicycle tracking and positioning”. International Conference on Systems, Signals and Image Processing (IWSSIP): 299–303.
  • [12] Yang Jie, Jia Limin, Fu Yunxiao, Lu Shaofeng. 2017. “Speed Tracking Based Energy-Efficient Freight Train Control Through Multi-Algorithms Combination”. IEEE Intelligent Transportation Systems Magazine 9 (2): 76-90.
  • [13] Doiphode Siddhesh, Bakal J. W., Gedam Madhuri. 2016, “A hybrid indoor positioning system based on Wi-Fi hotspot and Wi-Fi fixed nodes”. IEEE International Conference on Engineering and Technology (ICETECH): 56–60.
  • [14] Katulski Ryszard, Magiera Jarosław, Sadowski Jarosław, Siwicki Wojciech, Stefański Jacek, Studańska Agnieszka. 2012. „System automatycznej lokalizacji osób do zastosowań specjalnych”. Zeszyty Naukowe Akademii Marynarki Wojennej 4 (191): 51–62.
  • [15] Jardak Nabil, Samama Nel. 2009. „Indoor Positioning Based on GPS-Repeaters: Performance Enhancement using an Open Code Loop Architecture”. IEEE Transactions on Aerospace and Electronic Systems 45 (1): 34 –359.
  • [16] Plohmann Daniel, Imhoff Paul. 2007. “Localization (GPS, GSM, WLAN)”. XP Course 07, Know-How Meeting.
  • [17] Lo Piccolo Francesca, Blefari Melazzi Nicola, Giustiniano Domenico. 2007. „Power-measurement-based relative localization in GSM cellular networks”. International Workshop on Satellite and Space Communications: 294–298.
  • [18] Ibrahim Mohamed, Youssef Moustafa. 2013. “Enabling wide deployment of GSM localization over heterogeneous phones”. IEEE International Conference on Communications (ICC): 6396–6400.
  • [19] Wielgo Maciej, Krysik Piotr, Klincewicz Karol, Maslikowski Lukasz, Rzewuski Stanislaw, Kulpa Krzysztof. 2014. „Doppler only localization in GSM-based passive radar”. International Radar Conference: 1–6.
  • [20] Bertanha Mauricio, Pazzi Richard. 2017. “JLPR: Joint rangebased localization using trilateration and packet routing in Wireless Sensor Networks with mobile sinks”. IEEE Symposium on Computers and Communications (ISCC): 645–650.
  • [21] De Blas Aitor, López-de-Ipiña Diego. 2017. “Improving trilateration for indoors localization using BLE beacons”. 2nd International Multidisciplinary Conference on Computer and Energy Science (SpliTech): 1–6.
  • [22] Khorbotly Sami, El-Howayek Georges, Morrison Adam, Roggow Aaron. 2017, “An RSS-based triangulation method for robot tracking in robotic swarms”. International Conference on Manipulation, Automation and Robotics at Small Scales (MARSS): 1–5.
  • [23] Curran Kevin, Furey Eoghan, Lunney Tom, Santos Jose, Woods Derek, McCaughey Aiden. 2009. “An evaluation of indoor location determination technologies”. Journal of Location Based Services 5 (2): 61–78.
  • [24] Crespo Gonzalo, Teniente Jorge, Ederra Iñigo, Gonzalo Ramon. 2012. “Experimental study of the antenna influence in RTLS based-on RFID”. 6th European Conference on Antennas and Propagation (EUCAP): 2500–2504.
  • [25] Zhang Daqiang, Tianruo Yang Laurence, Chen Min, Zhao Shengjie, Guo Minyi, Zhang Yin. 2016. “Real-Time Locating Systems Using Active RFID for Internet of Things”. IEEE Systems Journal 10 (3): 1226–1235.
  • [26] Wei Dacheng, Hung Winghung, Wu Ke-Li. 2016. “A real time RFID locationing system using phased array antennas for warehouse management”. IEEE International Symposium on Antennas and Propagation (APSURSI): 1153–1154.
  • [27] Nota katalogowa anteny GPS – ANT1590-1340A, SR PASSIVES.
  • [28] Nota katalogowa anteny GSM – AMMAP003, Amotech.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-08b1bc2c-00d5-4c41-8d69-fb70d0f300fe
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