This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 License.
Andropov, S., Girik, A., Budko, M., and Budko, M. (2016). Unmanned air vehicle stabilization based on neural network regulator. Scientific and Technical Journal of Information Technologies, Mechanics and Optics 16(5):796–800, 10.17586/2226-1494-2016-16-5-796-800AndropovS.GirikA.BudkoM.BudkoM.2016Unmanned air vehicle stabilization based on neural network regulator16579680010.17586/2226-1494-2016-16-5-796-800Open DOISearch in Google Scholar
Dierks, T. and Jagannathan, S. (2010). Output feedback control of a quadrotor UAV using neural networks. IEEE transactions on neural networks 21(1):50–66, 10.1109/TNN.2009.2034145DierksT.JagannathanS.2010Output feedback control of a quadrotor UAV using neural networks211506610.1109/TNN.2009.203414519963698Open DOISearch in Google Scholar
Gen, K. and Chulin, N. (2015). Stabilization algorithms for automatic control of the trajectory movement of quadcopter. Science & Education of Bauman MSTU 5:218–235, 10.7463/0515.0771076GenK.ChulinN.2015Stabilization algorithms for automatic control of the trajectory movement of quadcopter521823510.7463/0515.0771076Open DOISearch in Google Scholar
Gong, X., Bai, Y., Peng, C., Zhao, C., and Tian, Y. (2012). Trajectory tracking control of a quad-rotor UAV based on command filtered backstepping. In 2012 Third International Conference on Intelligent Control and Information Processing pages 179–184. IEEE.GongX.BaiY.PengC.ZhaoC.TianY.2012Trajectory tracking control of a quad-rotor UAV based on command filtered backstepping179–184IEEE10.1109/ICICIP.2012.6391413Search in Google Scholar
Li, T., Zhang, Y., and Gordon, B. W. (2013). Passive and active nonlinear fault-tolerant control of a quadrotor unmanned aerial vehicle based on the sliding mode control technique. volume 227, pages 12–23. SAGE Publications Sage UK: London, England.LiT.ZhangY.GordonB. W.2013volume 22712–23SAGE Publications Sage UKLondon, England10.1177/0959651812455293Search in Google Scholar
Melnikov, D., Kirieev, ., and Smolych, D. (2012). Device based on accelerometer and gyroscope for determining the angular position of an aircraft in space. Science and Youth 11–12:61–64.MelnikovD.KirieevSmolychD.2012Device based on accelerometer and gyroscope for determining the angular position of an aircraft in space11–126164Search in Google Scholar
Roberts, A. and Tayebi, A. (2011). Adaptive position tracking of VTOL UAVs. IEEE Transactions on Robotics 27(1):129–142, doi:10.1109/TRO.2010.2092870RobertsA.TayebiA.2011Adaptive position tracking of VTOL UAVs27112914210.1109/TRO.2010.2092870Open DOISearch in Google Scholar
Santos, O., Romero, H., Salazar, S., and Lozano, R. (2013). Real-time stabilization of a quadrotor UAV: Nonlinear optimal and suboptimal control. Journal of intelligent&robotic systems 70(1-4):79–91, 10.1007/s10846-012-9711-8SantosO.RomeroH.SalazarS.LozanoR.2013Real-time stabilization of a quadrotor UAV: Nonlinear optimal and suboptimal control701-4799110.1007/s10846-012-9711-8Open DOISearch in Google Scholar
Varzanosov, P. and Solodkiy, E. (2016). Stabilization of the one-coordinate platform based on stepper motor in microstepping mode. Master’s journal 2:154–158.VarzanosovP.SolodkiyE.2016Stabilization of the one-coordinate platform based on stepper motor in microstepping mode2154158Search in Google Scholar
Xian, B., Diao, C., Zhao, B., and Zhang, Y. (2015). Nonlinear robust output feedback tracking control of a quadrotor UAV using quaternion representation. Nonlinear Dynamics 79(4):2735–2752, 10.1007/s11071-014-1843-xXianB.DiaoC.ZhaoB.ZhangY.2015Nonlinear robust output feedback tracking control of a quadrotor UAV using quaternion representation7942735275210.1007/s11071-014-1843-xOpen DOISearch in Google Scholar
Yi, Z., Xiuxia, Y., Hewei, Z., and Weiwei, Z. (2014). Tracking control for UAV trajectory. In Proceedings of 2014 IEEE Chinese Guidance, Navigation and Control Conference pages 1889–1894. IEEE.YiZ.XiuxiaY.HeweiZ.WeiweiZ.2014Tracking control for UAV trajectory1889–1894IEEE10.1109/CGNCC.2014.7007469Search in Google Scholar
Zazuliak, P., Gavrysh, V., Yevsieeva, E., and Iosypchuk, M. (2007). Fundamentals of Mathematical Processing of Geodetic MeasurementsZazuliakP.GavryshV.YevsieevaE.IosypchukM.2007Search in Google Scholar