References
- 1. Sahinoglu, Z., S. Gezici, I. Guvenc. Ultra-Wideband Positioning Systems: Theoretical Limits, Ranging Algorithms, and Protocols. New York, Cambridge University Press, 2008.
- 2. Jekabsons, G., V. Kairish, V. Zuravlovs. An Analysis of WiFi Based Indoor Positioning Accuracy. – Sci. J. Riga Tech. Univ. (RTU), Vol. 47, 2011, pp. 131-137.
- 3. Alhmiedat, T. A., S. H. Yang. A ZigBee-Based Mobile Tracking System through Wireless Sensor Networks. – Int. J. Adv. Mechatron. Syst., Vol. 1, 2008, pp. 63-70.
- 4. Kai, C., N. Pissinou, K. Makki. Cellular Network Location Estimation via RSS-Based Data Clean Enhanced Scheme. – In: Proc. of IEEE Symposium on the Computers and Communications (ISCC’11), Miami, FL, USA, 28 July 2011, pp. 924-930.
- 5. Jud, D., A. Michel. Motion Tracking Systems – An Overview of Motion Tracking Methods. Spring Term, 2011. students.asl.ethz.ch/upl_pdf/308-report.pdf.
- 6. Pelka, M. Position Calculation with Least Squares Based on Distance Measurements. Lübeck University of Applied Sciences: Technical Report 2015; 2. https://cosa.fh-luebeck.de/files/download/pub/TR-2-2015-least-sqaures-with-ToA.pdf.
- 7. Pelka, M., C. Bollmeyer, H. Hellbrück. Indoor Localization Based on Bi-Phase Measurements for Wireless Sensor Networks. – In: IEEE Wireless Communications and Networking Conference (WCNC’15). Track 3: Mobile and Wireless Networks (IEEE WCNC’15), New Orleans, USA, March 2015.
- 8. Laaraiedh, S., M. Yu, L. Avrillon, S. B. Uguen, Comparison of Hybrid Localization Schemes Using RSSI, TOA, and TDOA. – In: 11th European Wireless Conference 2011 – Sustainable Wireless Technologies (European Wireless), VDE, 2011, pp. 1-5.
- 9. Yi, S., H. Cha. An Active Tracking System Using IEEE 802.15.4-Based Ultrasonic Sensor Devices. Department of Computer Science, Yonsei University, Seodaemun-Gu, Shinchon-Dong 134, Seoul, Korea, pp. 120-749. https://pdfs.semanticscholar.org/6c13/5ac7fb687c3343f5f2829a082bf7760e15b0.pdf.
- 10. Medina, C., J. C. Segura, A. De la Torre. Ultrasound Indoor Positioning System Based on a Low-Power Wireless Sensor Network Providing Sub-Centimeter Accuracy. – Sensors, Vol. 13, 2013, pp. 3501-3526.
- 11. Hashizume, H., A. Y. Sugano, K. Yatani, M. Sugimoto. Fast and Accurate Positioning Technique Using Ultrasonic Phase Accordance Method. http://yatani.jp/paper/TenCon2005.pdf.
- 12. Eduardas, L. V., A. A. Bulbenkiene, P. Linas, A. Edgaras. An Ultrasonic Tracking Method for Augmented Reality. http://isd.ktu.lt/it2011/material/Proceedings/5_ITA_4.pdf.
- 13. Gonzalez, E., L. Prados, A. J. Rubio, J. C. Segura, A. de la Torre, J. M. Moya, P. Rodrıguez, J. L. Martín. ATLINTIDA: A Robust Indoor Ultrasound Location System: Design and Evaluation. – In: Proc. of 3rd Symposium of Ubiquitous Computing and Ambient Intelligence, Salamanca, Spain, 22-24 October 2008, Berlin-Heidelberg, Springer, Advances in Soft Computing Book Series (AINSC’09), Vol. 51, 2009, pp. 180-190.
- 14. Hazas, M., A. Hopper. Broadband Ultrasonic Location Systems for Improved Indoor Positioning. – IEEE Trans. Mobile Comput., Vol. 5, 2006, pp. 536-547.
- 15. Baek, S. H., Y. H. Kim. Design of Multi Position Tracking System Using Ultrasonic Sensor Module. – In Proc. of Symposium on Ultrasonic Electronics, Vol. 31, 6-8 December 2010, pp. 479-480. https://www.use-jp.org/proceedings/USE10/pdf/3P-12.pdf.
- 16. Yang, C.-H. A Person-Tracking Mobile Robot Using an Ultrasonic Positioning System. Department of Electrical and Computer Engineering, Naval Postgraduate School, December 2005.
- 17. McCarthy, M., H. Muller. Positioning with Independent Ultrasonic Beacons. Department of Computer Science, University of Bristol, U. K., Technical Report: CSTR-05-005. http://www.cs.bris.ac.uk/, www.cs.bris.ac.uk/Publications/Papers/2000430.pdf.
- 18. Lazik, P., A. Rowe. Indoor Pseudo-Ranging of Mobile Devices Using Ultrasonic Chirps. – SenSys’12, 6-9 November 2012, Toronto, ON, Canada.
- 19. Filonenko, V., C. Cullen, J. Carswell. Investigating Ultrasonic Positioning on Mobile Phones. – In: International Conference on Indoor Positioning and Indoor Navigation (IPIN’10), September 2010, pp. 1-8.
- 20. Stephen, P. T., P. A. Dinda, R. P. Dick, G. Memik. Indoor Localization without Infrastructure Using the Acoustic Background Spectrum. – In: Proc. of 9th International Conference on Mobile Systems, Applications, and Services (MobiSys’11), ACM, New York, NY, USA, 2011, pp. 155-168.
- 21. Arp, D., E. Quiring, C. Wressnegger, K. Rieck. A Study on Ultrasonic Device Tracking. Computer Science Report No 2016-02, Technische Universität Braunschweig, Institute of System Security. https://www.sec.cs.tu-bs.de/pubs/2016-batmobile.pdf.
- 22. Amundson, I., X. D. Koutsoukos. A Survey on Localization for Mobile Wireless Sensor Networks. – In: Proc. of 2nd International Conference on Mobile Entity Localization and Tracking in GPS-Less Environments (MELT’09), Berlin, Heidelberg, Springer-Verlag, 2009, pp. 235-254.
- 23. Sun, Z., R. Farley, T. Kaleas, J. Ellis, K. Chikkappa. Cortina: Collaborative Context-Aware Indoor Positioning Employing RSS and RTOF Techniques. – In: IEEE International Conference on Pervasive Computing and Communications Workshops (PERCOM’11 Workshops), March 2011, pp. 340-343.
- 24. Tarzia, S. P., P. A. Dinda, R. P. Dick, G. Memik. Indoor Localization without Infrastructure Using the Acoustic Background Spectrum. – In: Proc. of 9th International Conference on Mobile Systems, Applications, and Services (MobiSys’11), ACM, New York, NY, USA, 2011, pp. 155-168.
- 25. Chivarov, N., S. Shivarov, Ultrasonic Positioning System for Mobile Robots. – Problems of Engineering Cybernetics and Robotics, Vol. 62, 2010 pp. 43-51.