References
- [1] Nie, B., Yao, T., Zhang, Y., Liu, J., Chen, X. (2018). A droplet-based passive force sensor for remote tactile sensing applications. Applied Physics Letters, 112, 031904. https://doi.org/10.1063/1.5005873.
- [2] Nakazato, Y., Kawanaka, K., Takita, K., Higuchi, M. (2017). Development of peristaltically propelled active catheter used in radial artery. In Microactuators and Micromechanisms: Proceedings of MAMM-2016, Ilmenau, Germany, October 5-7, 2016. Springer, 79-90. https://doi.org/10.1007/978-3-319-45387-3_8.
- [3] Howell, L.L., Magleby, S.P., Olsen, B.M. (eds.) (2013). Handbook of Compliant Mechanisms. John Wiley & Sons. https://doi.org/10.1002/9781118516485.ch1.
- [4] Wei, J., Fatikow, S., Zhang, X., Haenssler, O.C. (2018). Design and experimental evaluation of a compliant mechanism-based stepping-motion actuator with multi-mode. Smart Materials and Structures, 27, 105014. https://doi.org/10.1088/1361-665X/aad79e.
- [5] Kumar, K., Zindani, D., Kumari, N., Davim, J.P. (eds.) (2019). Micro and Nano Machining of Engineering Materials. Springer International Publishing. https://doi.org/10.1007/978-3-319-99900-5.
- [6] Lu, H., Wang, P., Tan, R., Yang, X., Shen, Y. (2018). Nanorobotic system for precise in situ three-dimensional manufacture of helical microstructures. IEEE Robotics and Automation Letters, 3 (4), 2846-2853. https://doi.org/10.1109/LRA.2018.2846051.
- [7] Plander, I., Stepanovsky, M. (2018). Interdisciplinary considerations on the design of MEMS actuators from a perspective of their optimality. Sensors and Actuators A: Physical, 269, 203-211. https://doi.org/10.1016/j.sna.2017.11.007.
- [8] Hricko, J., Havlik, S. (2017). Flexural body for a wireless force/displacement sensor. Microactuators and Micromechanisms: Proceedings of MAMM-2016, Ilmenau, Germany, October 5-7, 2016. Springer, 59-66. https://doi.org/10.1007/978-3-319-45387-3_6.
- [9] Hartansky, R., Hallon, J. (2016). Sensors for Measure Electromagnetic Field [Senzory pre meranie elektromagnetickeho pola]. Bratislava: Slovenska technicka univerzita v Bratislave, ISBN 978-80-227-4565-9. (in Slovak)
- [10] Hartansky, R., Marsalka, L. (2012). Wire structures mutual impedance change in electromagnetic field. Journal of Electrical Engineering, 63 (7s), 152-155.
- [11] Marsalka, L., Hartansky, R. (2011). Electromagnetic method for distance measurement on MEMS structures. In MM Science Journal: Proceedings of the RAAD 2011, 20th International Workshop on Robotics in Alpe-Adria-Danube Region (RAAD), 5-7 October 2011, Brno, Czech Republic, Special Edition, 48-53.
- [12] Hartansky, R., Halgos, J., Hricko, J., Rafaj, M. (2019). Method and device for contactless sensing of mechanical quantities [Sposob a zariadenie na bezkontaktne snimanie mechanickych velicin]. Slovak Utility Model SK 8653 Y1. (in Slovak)
- [13] Muller, I., de Brito, R.M., Pereira, C.E., Brusamarello, V. (2010). Load cells in force sensing analysis --theory and a novel application. IEEE Instrumentation & Measurement Magazine, 13 (1), 15-19. https://doi.org/10.1109/MIM.2010.5399212.
- [14] Liang, Q., Wu, W., Zhang, D., Wei, B., Sun, W., Wang, Y., Ge, Y. (2015). Design and analysis of a micromechanical three-component force sensor for characterizing and quantifying surface roughness. Measurement Science Review, 15 (5), 248-255. https://doi.org/10.1515/msr-2015-0034.
- [15] Allan, H.R., Curling, C.D. (1948). The design and use of resonant cavity wavemeters for spectrum measurements of pulsed transmitters at wavelengths near 10 cm. Journal of the Institution of Electrical Engineers - Part III: Radio and Communication Engineering, 95 (38), 473-484. https://doi.org/10.1049/ji-3-2.1948.0117.
- [16] Books, M., Turner, H.M. (1912). Inductance of coil. University of Illinois Bulletin, 9 (10), 53.
- [17] Mierka, M. (2019). Realization of a TEM cell. In Measurement 2019: 12th International Conference on Measurement. Bratislava: Slovak Academy of Sciences, 162-166. https://doi.org/10.23919/MEASUREMENT47340.2019.8779907.