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, A. and El Yacoubi, S. (1993). On the number of actuators in parabolic systems, International Journal of Applied Mathematics and Computer Science 3(4): 673-686. El Jai, A. and Hamzaoui, H. (2008). On actuators number in distributed systems, Sensors and Actuators (SNA6267) (A 147): 273-278. El Jai, A. and Najem, A. (1984). Optimal actuator location in a diffusion process, Lectures Notes in Control and Information Science 62, Springer-Verlag, Berlin. El Jai, A. and Pritchard, A.J. (1988). Sensors and actuators in distributed systems analysis, Ellis Horwood

References [1] Hajach, P., Harťanský, R. (2000). Solution of resistive loaded dipoles by Hallen method and by moment method. In Radioelektronika 2000 : 10th International Scientific Conference, 12-13 September 2000. Bratislava: FEI STU, IV62-IV64. [2] Harťanský, R., Bittera, M. (2001) Assurance of nondirective pattern of electromagnetic field sensor. In 4th International Symposium on Mechatronics, June 2001.Trenčín: TnUAD, 164-168. [3] Harťanský, R., Slížik, J., Maršálka, L. (2013) Dipole near field analysis - a closed form calculation in cartesian coordinates

and elections . Springer, 1958. [12] Hristo Bojinov, Yan Michalevsky, Gabi Nakibly, and Dan Boneh. Mobile Device Identification via Sensor Fingerprinting. CoRR , abs/1408.1416, 2014. url http://arxiv.org/abs/1408.1416 . [13] G. Brown, A. Pocock, M.-J. Zhao, and M. Luján. Conditional likelihood maximisation: A unifying framework for information theoretic feature selection. The Journal of Machine Learning Research , 13:27–66, 2012. [14] Anupam Das, Nikita Borisov, and Matthew Caesar. Do You Hear What I Hear?: Fingerprinting Smart Devices Through Embedded Acoustic

[1] Özgür Ü. Alivov Ya.i., Liu C., Teke A., Reshchikov M.A., Doğan S., Avrutin V., Cho S.-J., Morkoç H., J. Appl. Phys., 98 (2005), 041301. http://dx.doi.org/10.1063/1.1992666 [2] Wei A. et al., Mater. Sci. Eng. B-Adv., 176 (2011), 1409. http://dx.doi.org/10.1016/j.mseb.2011.09.005 [3] Shouli B., Liangyuan Ch. et al., Sensor. Actuat. BChem., 146 (2010), 129. http://dx.doi.org/10.1016/j.snb.2010.02.011 [4] Huang J., Wan Q., Sensors-Basel., 9 (2009), 9903. http://dx.doi.org/10.3390/s91209903 [5] Maziarz W., Rydosz A., Pisarkiewicz T., Domański K., Grabiec P

zarejestrowany w Urzędzie Patentowym RP 07.12.2017. DIN31652. Hydrodynamische Radial-Gleitlager im stationären Bereich. Hiller, B. (2003). Ferraris Acceleration Sensor – Principle and Field of Application in Servo Drives. [online] Available at: https://pl.scribd.com/document/81194247/Ferraris-Acceleration-Sensor [Accessed 25 Nov. 2018]. Patent Office (1955). Sposób stałego badania stanu wyrobienia pochwy przyśrubowej i związanego z tym opadu wału śruby statku oraz przyrząd do stosowania tego sposobu. Urząd Patentowy PRL, opis patentowy nr 37961 z dnia 25.08.1955. PN-ISO 7919

References [1] N. S. Ramgir, Y. Yang and M. Zacharias, ”Nanowire-Based Sensors”, Small, vol. 6, pp. 1705-1722, 2010. [2] D. R. Miller, S. A. Akbar and P. A. Morris, ”Nanoscale metal oxide-based heterojunctions for gas sensing: A review”, Sensors & Actuators: B. Chemical, vol. 204, pp. 250-272, 2014. [3] A. Gurlo, ”Nanosensors: towards morphological control of gas sensing activity”, SnO2, In2O3, ZnO and WO3 case studies.Nanoscale, vol. 3, pp. 154-165, 2011. [4] H. Huang, B. Liang, Z. Liu, X. Wang, D. Chen and G. Shen, ”Metal oxide nanowire transistors”, Journal of

References [1] SZABADOS, L.-LÍŠKA , O.: Smart senzorov´e siete a pr´ıklady ich vyuˇzitia (Smart Sensor Nets and Examples of their Applica- tion), In: http://www.sjf.tuke.sk/transferinovacii/pages/archiv/transfer/7-2004/pdf/157-160.pdf (Accessed 2014-04-02).. (in Slovak) [2] PRESS, W.-TEUKOLSKY, S.-VETTERLINK, W.-FLAN- NERY, B. : Numerical Recipes: The Art of Scientific Com- puting, 3rd ed., Cambridge Univ. Press, New York, 2007, pp. 733-836. [3] CARUANA, R.-SEARLE, R.-HELLER, T.-SHUPACK, S. : Fast Algorithm for the Resolution of Spectra, Anal. Chem. 58 No. 6 (May

References [1] A. Perrig, R. Szewczyk, V. Wen, D. Culler, J. Tygar, Spins: Security protocols for sensor networks, Wireless Networks Journal (WINET), 8 (5), 2002, 521–534. [2] Asha Rani Mishra and Mahesh Singh, Elliptic Curve Cryptography (ECC) for Security in wireless Sensor Network, International Journal of Engineering Research & Technology (IJERT) , Vol. 1 Issue 3, May 2012. [3] B. Lai, S. Kim, I. Verbauwhede, Scalable session key construction protocol for wireless sensor networks, IEEE Workshop on Large Scale Real-Time and Embedded Systems (LARTES), IEEE

References [1] FLUERASU, A.—JARDAK, N.—VERVISCH-PICOIS, A.— SAMAMA, N.: Gnss Repeater based Approach for Indoor Positioning: Current Status, in European Navigation Conference, Global Navigation Satellite Systems, 2009. [2] KEUNHO, Y.—DAIJIN, K.: Robust Location Tracking using a Dual Layer Particle Filter, Pervasive and Mobile Computing 3 (03 2007), 209–232. [3] SAVARESE, C.—RABAEY, J. M.—BEUTEL, J.: Location in Distributed ad-hoc Wireless Sensor Networks, in Proc. IEEE ICASSP ‘01, vol. 4, 2001, pp. 2037–2040. [4] PATWARI, N.—HERO, A. O.—PERKINS, M.—CORREAL, N

References [1] BURCHFIELD, T. R.-VENKATESAN, S. : Accelerometer- based Human Abnormal Movement Detection in Wireless Sensor Networks, Proceedings of ACM SIGMOBILE Workshop (2007), 67-69. [2] HAYES, J.-BEIRNE, S.-LAU, K. T.-DIAMOND, D. : Evaluation of a Low Cost Wireless Chemical Sensor Network for Environmental Monitoring, IEEE Sensors Journal 64 No. 06 (2008), 530-533. [3] GOGOLÁK, L.-PLETL, SZ.-KUKOLJ, D. : Neural Network- based Indoor Localization in WSN Environments, Acta Polytechnica Hungarica 10 No. 06 (2013), 221-235. [4] GOGOLÁK, L.-KUKOLJ, D.-FÜRSTNER, I