@incollection{, C81CFB111335E1408016363876BAB205 10.3103/S1068798X18120328 , author={{SMAfonin} and {National Research University of Electronic Technology (MIET)}}, journal={{Global Journal of Researches in Engineering}}, journal={{GJRE}}2249-45960975-586110.34257/gjre, address={Cambridge, United States}, publisher={Global Journals Organisation}1921923 } @book{b0, , title={{}} , author={{ JSchultz } and { JUeda } and { HAsada }} , year={2017} 382 , address={Oxford} , note={Cellular Actuators. Butterworth-Heinemann Publisher} } @book{b1, , title={{Springer Handbook of Nanotechnology}} 10.1016/j.engstruct.2014.11.025 , editor={Bhushan B} , year={2004} , publisher={Springer} 1222 , address={Berlin, New York} } @book{b2, , title={{Static and dynamic analysis of a flextensional transducer with an axial piezoelectric actuation, Engineering structures}} , author={{ JPrzybylski }} 10.1016/j.engstruct.2014.11.025 , year={2015} 84 } @book{b3, , title={{Large effectivestrain piezoelectric actuators using nested cellular architecture with exponential strain amplification mechanisms}} , author={{ JUeda } and { TSecord } and { HHAsada }} 10.1109/TMECH.2009.2034973 , year={2010} } @incollection{b4, , title={{}} 1109/TMCH.20 , journal={{IEEE/ASME Transactions on Mechatronics}} 15 5 770 } @book{b5, , title={{}} , author={{ /Tmech }} , year={2009.2034973} } @incollection{b6, , title={{Driving high voltage piezoelectric actuators in microrobotic applications}} , author={{ MKarpelson } and { G-YWei } and { RJWood }} 10.1016/j.sna.2011.11.035 , journal={{Sensors and Actuators A: Physical}} 176 , year={2012} } @incollection{b7, , title={{Solution of the wave equation for the control of an elecromagnetoelastic transduser}} , author={{ SMAfonin }} 10.1134/S1064562406020402 , journal={{Doklady mathematics}} 73 2 , year={2006} } @incollection{b8, , title={{Structural parametric model of a piezoelectric nanodisplacement transduser}} , author={{ SMAfonin }} doi:10 , journal={{Doklady physics}} 53 3 , year={2008} } @book{b9, , title={{}} , author={{ /S1028335808030063 }} } @incollection{b10, , title={{Multilayer electromagnetoelastic actuator for robotics systems of nanotechnology}} , author={{ SMAfonin }} 10.1109/EIConRus.2018.8317432 , booktitle={{Proceedings of the 2018 IEEE Conference of Russian Young Researchers in Electrical and Electronic Engineering (EIConRus)}} the 2018 IEEE Conference of Russian Young Researchers in Electrical and Electronic Engineering (EIConRus) , year={2018} } @incollection{b11, , title={{Equivalent circuit modeling of piezoelectric energy harvesters}} , author={{ YYang } and { Tan }} , journal={{Journal of intelligent material systems and structures}} 20 18 , year={2009} } @book{b12, , title={{Piezoelectricity: An introduction to the theory and applications of electromechancial phenomena in crystals}} , author={{ WGCady }} , year={1946} , publisher={McGraw-Hill Book Company} 806 , address={New York, London} } @incollection{b13, , booktitle={{Part A. Methods and Devices}} New York , publisher={Academic Press} , year={1964} 1 } @book{b14, , title={{Handbook of Differential Equations}} , author={{ DZwillinger }} , year={1989} , publisher={Academic Press} 673 , address={Boston} } @incollection{b15, , title={{Structural-parametric model and transfer functions of electroelastic actuator for nanoand microdisplacement}} , author={{ SMAfonin }} , booktitle={{Piezoelectrics and Nanomaterials: Fundamentals, Developments and Applications. Ed. Parinov IA. Nova Science}} New York , year={2015} } @incollection{b16, , title={{Structural-parametric model electromagnetoelastic actuator nanoand microdisplacement for precision engineering}} , author={{ SMAfonin }} , journal={{Precision Engineering. Engineering and Technology}} 3 6 , year={2016} } @incollection{b17, , title={{Structural-parametric models and transfer functions of electromagnetoelastic actuators nano-and microdisplacement for mechatronic systems}} , author={{ SMAfonin }} 10.11648/j.ijtam.20160202.15 , journal={{International Journal of Theoretical and Applied Mathematics}} 2 2 , year={2016} } @incollection{b18, , title={{Parametric structural diagram of a piezoelectric converter}} , author={{ SMAfonin }} , journal={{Mechanics of solids}} 37 6 , year={2002} } @incollection{b19, , title={{Deformation, fracture, and mechanical characteristics of a compound piezoelectric transducer}} , author={{ SMAfonin }} , journal={{Mechanics of solids}} 38 6 , year={2003} } @incollection{b20, , title={{Parametric block diagram and transfer functions of a composite piezoelectric transducer}} , author={{ SMAfonin }} , journal={{Mechanics of solids}} 39 4 , year={2004} } @incollection{b21, , title={{Generalized parametric structural model of a compound elecromagnetoelastic transduser}} , author={{ SMAfonin }} 10.1134/1.1881716 , journal={{Doklady physics}} 50 2 , year={2005} } @incollection{b22, , title={{Design static and dynamic characteristics of a piezoelectric nanomicrotransducers}} , author={{ SMAfonin }} 10.3103/S0025654410010152 , journal={{Mechanics of solids}} 45 1 , year={2010} } @incollection{b23, , title={{Electromechanical deformation and transformation of the energy of a nano-scale piezomotor}} , author={{ SMAfonin }} 10.3103/S1068798X11070033 , journal={{Russian engineering research}} 31 7 , year={2011} } @incollection{b24, , title={{Electroelasticity problems for multilayer nano-and micromotors}} , author={{ SMAfonin }} doi:10 , journal={{Russian engineering research}} 31 9 , year={2011} } @book{b25, , title={{}} , author={{ /S1068798x11090036 }} } @incollection{b26, , title={{Nano-and micro-scale piezomotors}} , author={{ SMAfonin }} 10.3103/S1068798X12060032 , journal={{Russian engineering research}} 32 7-8 , year={2012} } @incollection{b27, , title={{Optimal control of a multilayer submicromanipulator with a longitudinal piezo effect}} , author={{ SMAfonin }} 10.3103/S1068798X15120035 , journal={{Russian engineering research}} 35 12 , year={2015} } @incollection{b28, , title={{Block diagrams of a multilayer piezoelectric motor for nanoand microdisplacements based on the transverse piezoeffect}} , author={{ SMAfonin }} 10.1134/S1064230715020021 , journal={{Journal of computer and systems sciences international}} 54 3 , year={2015} } @incollection{b29, , title={{Absolute stability conditions for a system controlling the deformation of an elecromagnetoelastic transduser}} , author={{ SMAfonin }} 10.1134/S1064562406060391 , journal={{Doklady mathematics}} 74 3 , year={2006} } @incollection{b30, , title={{Elastic compliances and mechanical and adjusting characteristics of composite piezoelectric transducers}} , author={{ SMAfonin }} 10.3103/S0025654407010062 , journal={{Mechanics}} 42 1 , year={2007} } @incollection{b31, , title={{Static and dynamic characteristics of a multy-layer electroelastic solid}} , author={{ SMAfonin }} 10.3103/S0025654409060119 , journal={{Mechanics}} 44 6 , year={2009} } @incollection{b32, , title={{Structural-parametric model electromagnetoelastic actuator nanodisplacement for mechatronics}} , author={{ SMAfonin }} 10.12691/ijp-5-1-27 , journal={{International Journal of Physics}} 5 1 , year={2017} } @incollection{b33, , title={{A structural-parametric model of electroelastic actuator for nanoand microdisplacement of mechatronic system}} , author={{ SMAfonin }} , booktitle={{Advances in nanotechnology}} , year={2017} 19 } @book{b34, , title={{}} , author={{ ZBartul } and { JTrenor } and { NovaScience }} , address={New York} } @incollection{b35, , title={{Electromagnetoelastic nano-and microactuators for mechatronic systems}} , author={{ SMAfonin }} , journal={{Russian Engineering Research}} 38 12 , year={2018} }