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Emilia Fridman's List of Publications

Monographs and Edited Books

Selected Papers

  1. Fridman E. and Strygin V. Asymptotics of integral manifolds of singularly perturbed differential equations with retarded argument. Math. Nachr.1984, 117. P.83-109.

  2. Fridman E. Stable, center stable, center, center unstable, unstable manifolds of singularly perturbed systems of neutral type. Approximate methods of differential equations research and applications. Kuibyshev State University Press. 1984. pp. 119-137, (in Russian).

  3. Strygin V., Sobolev V., Fridman E. and Gorelova E. Integral manifolds of singularly perturbed systems and some of their applications.Differential equations1985, 21, P. 1159-1161.

  4. Micheev Yu., Sobolev V. and E. Fridman. Asymptotic analysis of digital control systems. Automation and remote control 1988, vol. 49, p. 1175-1180 .

  5. Fridman E. Asymptotics of integral manifolds and decomposition of singularly perturbed systems of neutral type. Differential equations. 1990. 26, P. 457-467.

  6. Fridman E. Decomposition of linear optimal singularly perturbed systems with time delay. Automation and remote control. vol. 51, 1518-1527, 1990.

  7. Fridman E. Decomposition of boundary problems for singularly perturbed systems of neutral type in conditionally stable case. Differential equations. 1992, 28, no. 6, p. 800-810.

  8. Fridman E. Use of models with aftereffect in the problem of design of optimal digital control. Automation and remote control. 1992, vol. 53, No 10, pp. 1523-1528.

  9. Fridman E., Fridman L. and Shustin E. Steady modes in an autonomous system with break and delay. Differential Equations. 29 (1993), no. 8, 1161-1166.

  10. Fridman E., Fridman L. and Shustin E. Steady modes in a discontinuous control system with time delay. Pure Mathematics and Applications. 1993, 4 , no. 1, 59-73.

  11. Fridman E. $H^\infty$ control of nonlinear singularly perturbed systems and invariant manifolds. New Trends in Dynamic Games and ApplicationsG.J. Olsder (editor), series: Annals of International Society on Dynamic Games, Birkhauser, Boston, 1995, 25-45.

  12. Fridman E. Exact decomposition of linear singularly perturbed $H^\infty$-optimal control problem. Kybernetika 31, No 6, 589-597, Prague, 1995.

  13. Fridman E. Near-optimal $H^\infty$ control of linear singularly perturbed systems. IEEE Transactions on Automatic Control , 41, No 2, 236-240, 1996.

  14. Fridman E. Decoupling transformation of singularly perturbed systems with small delays and its applications. Z. Angew. Math. Mech. Berlin, vol {\bf 76}, No 2, 201-204, 1996.

  15. Fridman E. and Shaked U. On regional nonlinear $H^\infty$ filtering. Systems and Control Letters 29, No 4, pp. 233-240, 1997.

  16. Fridman E., Fridman L., Shustin E. Stable oscillations in a discontinuous delay system of the second order. In: Dynamical Systems and Differential equations, W. Chen and S. Hu, eds., An added volume to Discrete and Continuous Dynamical Systems , 209-233, 1998.

  17. Fridman E. and Shaked U. State-feedback $H^\infty$ control of linear systems with small state-delay. Systems and Control Letters 33, 3, 141-150, 1998.

  18. Fridman E. and Shaked U. $H^\infty$ norm and invariant manifolds of systems with state delays. Systems and Control Letters 36, 2, 157-165, 1999.

  19. Fridman E. Exact slow-fast decomposition of a class of nonlinear singularly perturbed optimal control problems via invariant manifolds. International Journal of Control 72, 17, 1609-1618, 1999.

  20. Fridman E. and Shaked U. Robust $H^\infty$ minimum entropy static output-feedback control of singularly perturbed systems. Automatica 36, 8, 1181-1188, 2000.

  21. Fridman E. and Shaked U. Sampled-data $H_{\infty}$ state-feedback control of systems with state delays. International Journal of Control 73, 12, 1115-1128, 2000.

  22. Fridman E. Exact slow-fast decomposition of nonlinear singularly perturbed optimal control problem. Systems and Control Letters 40, 2, 121-132, 2000.

  23. Glizer V. and Fridman E. $H_{\infty}$ control of linear singularly perturbed systems with small state delay. Journal of Mathematical Analysis and Applications} 250, 49-85, 2000.

  24. Fridman E. and Shaked U. Finite horizon $H_{\infty}$ state-feedback control of continuous-time systems with state delays. IEEE Trans. on Automatic control 45, No.12, 2406-2412, 2000.

  25. Fridman E., Fridman L. and Shustin E. Steady modes and stability in discontinuous delay systems with periodic disturbances. ASME Journal of Dynamic Systems, Measurement and Control} 122, No 4, 732-737, 2000.

  26. Fridman E. A descriptor system approach to nonlinear singularly perturbed optimal control problem. Automatica 37, No 4, 543-549, 2001.

  27. Fridman E. New Lyapunov-Krasovskii functionals for stability of linear retarded and neutral type systems, Systems & Control Letters 43, No 4, 309-319, 2001. TOP 1% CITED ARTICLE IN THE FIELD.

  28. Fridman E. State-feedback $H_\infty$ control of nonlinear singularly perturbed systems. International Journal of Robust and Nonlinear Control. 11, No 12, pp. 1115-1125, 2001.

  29. Fridman E. and Shaked U. A New $H_{\infty}$ Filter Design for Linear Time Delay Systems. IEEE Trans. on Signal Processing 49, No 11, 2839-2843, 2001.

  30. Fridman E. and Shaked U. A new bounded real lemma representation for time-delay systems and its applications. IEEE Trans. on Automatic control 46, No 12, 1973-1979, 2001. TOP 1% CITED ARTICLE IN THE FIELD.

  31. Xie L., Fridman E. and Shaked U. A robust $H_\infty$ control of distributed delay systems with application to combustion control. IEEE Trans. on Automatic control 46, No 12, 1930-1935, 2001.

  32. Fridman E. Stability of Linear Descriptor Systems with Delay: A Lyapunov-Based Approach. Journal of Mathematical Analysis and Applications 273, No 1, pp. 24-44, 2002.

  33. Fridman E. and Shaked U. A descriptor system approach to $H_{\infty}$ control of linear time-delay systems. IEEE Trans. on Automatic control 47, No 2, 253-270, 2002. TOP 1% CITED ARTICLE IN THE FIELD.

  34. Fridman E. and Shaked U. $H_{\infty}$ control of linear state-delay descriptor systems: a LMI approach. Linear Algebra and Applications 351-352, pp 271-302, 2002.

  35. Fridman E. Stability of singularly perturbed differential-difference systems: a LMI approach. Dynamics of Continuous, Discrete and Impulsive Systems 9, No 2, pp. 201-212, 2002.

  36. Fridman E. Effects of small delays on stability of singularly perturbed systems. Automatica 38, No 5, 897-902, 2002.

  37. Fridman E. and Shaked U. On delay-dependent passivity. IEEE Trans. on Automatic control 47, No.4, 664-669, 2002.

  38. Fridman E. and Shaked U. An improved stabilization method for linear time-delay systems. IEEE Trans. on Automatic control, 47, no. 11, 1931-1937, 2002. TOP 1% CITED ARTICLE IN THE FIELD.

  39. Fridman L., Fridman E. and Shustin E. Steady modes in relay systems with delay. Sliding Mode Control in Engineering, Perruquetii, Barbot (eds). Marcel Dekker, New York, 2002, Chapter 10, 263-293.

  40. Fridman E., Shaked U. and Xie L. Robust $H_{\infty}$ filtering of linear systems with time varying delay. IEEE Trans. on Automatic Control, 48, no. 1, 159-165, 2003.

  41. Fridman E., Shaked U. and L. Xie. Robust $H_2$ filtering of linear systems with time delays. International Journal of Robust and Nonlinear Control, 13, No 10, 983-1010, 2003.

  42. Fridman E. and Shaked U. Delay-dependent stability and $H_{\infty}$ control: constant and time-varying delays. Int. J. Control, 76, No. 1, 48-60, 2003. TOP 1% CITED ARTICLE IN THE FIELD.

  43. Fridman E. and Shaked U. Parameter Dependent Stability and Stabilization of Uncertain Time-Delay Systems, IEEE Trans. on Automatic control, 48, no.5, 861-866, 2003.

  44. Fridman E., Pila A. and Shaked U. Regional stabilization and $H_{\infty}$ control of time-delay systems with saturating actuators. International Journal of Robust and Nonlinear Control 13, no 9, 885-907, 2003.

  45. Fridman E. and Shaked U.. Editorial: Special Issue on Time-Delay Systems. International Journal of Robust and Nonlinear Control, 13, no 9, 791-192, 2003.

  46. Shustin E., Fridman E., Fridman L. Oscillations in a second order discontinuous systems with delay. Discrete and Continuous Dynamical Systems , no.2 ,2003, pp.337-357.

  47. Fridman E. Output regulation of nonlinear systems with delay. Systems & Control Letters, 50, 81-93, 2003.

  48. Fridman E. and Shaked U. On Reachable Sets for Linear Systems with Delay and Bounded Peak Inputs. Automatica, 39, no. 11, 2003, pp.2005-2010.

  49. Fridman E., Gouaisbaut F., Dambrine M. and Richard J.-P. A descriptor approach to sliding mode control of systems with time-varying delays. International Journal of Systems Science, 34, no. 8-9, 2003, pp. 553-559.

  50. Fridman E.. Output Regulation of Neutral Systems. Advances in time-delay systems, K.Gu, S. Niculescu (editors). LNCSE Vol. 38, Springer, 2004. Part V, 233-243.

  51. Fridman E. and Shaked U. An improved delay-dependent H infinity filtering. IEEE Trans. Signal Processing, 52, no 3, 2004, 668-673.

  52. Fridman E., Seuret A. and Richard J.-P. Robust sampled-data stabilization of linear systems: an input delay approach. Automatica, 40, no 8, 2004, 1441-1446.

  53. Fridman E., Shaked U. and Suplin V. Input/output delay approach to sampled-data H infinity control. Systems & Control Letters, 54, no 3, 2005, 271-282.

  54. Fridman E. and Shaked U. Delay-dependent H infinity control of uncertain discrete delay systems. European Journal of Control , 11/1, 2005, 29-37.

  55. Fridman E. Discussion on:"Stabilization of Networked Control Systems with Data Packet Dropout and Transmission Delays: Continuous-Time Case". European Journal of Control , 11/1, 2005, 53-55.

  56. Fridman E. and Shaked U. Stability and guaranteed cost control of uncertain dicsrete delay systems. International Journal of Control , 78/4, 2005, 235-246.

  57. Fridman E. A new Lyapunov technique for robust control of systems with uncertain non-small delays. IMA Journal of Math. Control & Information , (Advance access published on November 4, 2005), 23, no.2, pp. 165-179, 2006.

  58. Fridman E. and M. Gil'. Stability of linear systems with time-varying delays: A direct frequency domain approach. Journal of Computational and Applied Mathematics , 2006.

  59. Fridman E. Robust sampled-data H infinity control of linear singularly perturbed systems. IEEE Trans. on Automatic control, 51, No 3, 470-475, 2006.

  60. Suplin V., Fridman E. and Shaked U. H infinity control of linear uncertain time-delay systems - a projection approach. IEEE Trans. on Automatic control, 51, No 4, 2006.

  61. Fridman E. Stability of systems with uncertain delays: a new "complete" Lyapunov-Krasovskii functional. IEEE Trans. on Automatic control, 51, No 5, pp. 885-890, 2006.

  62. Fridman E. Descriptor discretized Lyapunov functional method: analysis and design. IEEE Trans. on Automatic control, 51, No 5, pp. 890-897, 2006.

  63. Fridman E. and Shaked U. Input-Output Approach to Stability and $L_2-$Gain Analysis of Systems with Time-Varying Delays. Systems & Control Letters, 55, 1041-1053, 2006.

  64. Suplin V., Fridman E. and Shaked U. Sampled-data H infinity control and filtering: nonuniform uncertain sampling. Automatica , 43, 1072-1083, 2007.

  65. Shustin E. and Fridman E. On delay-derivative-dependent stability of systems with fast-varying delay. Automatica , 43, 1649-1655, 2007.

  66. Fridman E. and Niculescu S. On complete Lyapunov-Krasovskii functional techniques for uncertain systems with fast-varying delays. . International Journal of Robust and Nonlinear Control,18, Issue 3, February 2008, pp. 364-374.

  67. Pepe P., Jiang Z. and Fridman E. A New Lyapunov-Krasovskii Methodology for Coupled Delay Differential-Difference Systems, International Journal of Control, 81/1, 107-115, 2008.

  68. E. Shustin, L. Fridman, E. Fridman. and F. Casta. Robust semiglobal stabilization of the second order system by relay feedback with an uncertain variable time-delay. SIAM J. Control & Optimizationi,47, No. 1, pp. 196-217, 2008.

  69. E. Fridman, M. Dambrine and N. Yeganefar. Input to State Stability of Systems with Time-Delay: A Matrix Inequalities Approach. Automatica,44, No 9, pp. 2364-2369. 2008.

  70. E. Fridman. On Robust Stability of Linear Neutral Systems with Time-Varying Delays. IMA J. of Math. Contr. & Information , 25, pp. 393 - 407, 2008.

  71. Suplin V., Fridman E. and Shaked U. H infinity Sampled-data Control of Systems with Time-delays. International Journal of Control , 82, No 2, pp. 298 - 309, 2009.

  72. E. Fridman and Y. Orlov. Exponential Stability of Linear Distributed Parameter Systems with Time-Varying Delays. Automatica , 45 , No. 2, pp. 194-201, 2009.

  73. A. Seuret, C. Edwards, S. Spurgeon and E. Fridman. Static output feedback sliding mode control design via an artificial stabilizing delay. IEEE Trans. on Automatic Control , 54, no.2, pp. 256-265, 2009.

  74. E. Fridman and G. Tsodik. H infinity Control of Distributed and Discrete Delay Systems via Discretized Lyapunov Functional. European Journal of Control , No.1, pp. 84-94, 2009.

  75. W. Michiels, E. Fridman and S. Niculescu. Robustness assessment via stability radii in delay parameters. Int. Journal of Robust and Nonlinear Control , 2009.

  76. S. Nicaise, J. Valein and E. Fridman. Stability of the heat and of the wave equations with boundary time-varying delaysDiscrete and Continuous Dynamical Systems - S , 2, no. 3, September 2009, pp. 559-581.

  77. E. Fridman and Y. Orlov. An LMI Approach to $H_{\infty}$ Boundary Control of Semilinear Parabolic and Hyperbolic Systems. Automatica , 45, no. 9, pp. 2060-2066, 2009.

  78. E. Fridman and M. Dambrine. Control under Quantization, Saturation and Delay: A LMI approach. Automatica , 2009, no. 10, 2258-2264.

  79. X. R. Han, E. Fridman, S. Spurgeon and C. Edwards. On the Design of Sliding Mode Static Output Feedback Controllers for Systems with State Delay". IEEE Transactions on Industrial Electronics , 56, no. 9, 2009.

  80. E. Fridman, U. Shaked and K. Liu. New Conditions for Delay-Derivative-Dependent Stability. Automatica , 45, no. 11, pp. 2723-2727, 2009.

  81. E. Fridman. A refined input delay approach to sampled-data control. Automatica , 46, pp. 421-427, 2010.

  82. E. Fridman, S. Nicaise and J. Valein Stabilization of second order evolution equations with unbounded feedback with time-dependent delay. SIAM J. Control & Optimization , 48, No. 8, pp. 5028–-5052, 2010.

  83. X.- R. Han, E. Fridman, S. Spurgeon Sliding Mode Control of Uncertain Systems in the Presence of Unmatched Disturbances with Applications. International Journal of Control Vol. 83, No. 12, December 2010, 2413-2426.

  84. E. Fridman, S. Mondie, B. Saldivar Bounds on the Response of a Drilling Pipe Model. Special issue on Time-delay Systems in IMA J. of Math. Contr. & Information (2010) 27(4): 513-526.

  85. K. Liu, V. Suplin, E. Fridman Stability of Linear Systems with a General Sawtooth Delay. Special issue on Time-delay Systems in IMA J. of Math. Contr. & Information (2010) 27(4): 419-436.

  86. J. Gomes de Silva, A. Seuret, E. Fridman, J.-P. Richard. Stabilization of Neutral Systems with Saturating Control Inputs. International Journal of Systems Science , Vol. 42, No. 7, July 2011, 1093–1103.

  87. K. Liu and E. Fridman. Networked-Based Stabilization via Discontinuous Lyapunov Functionals. Int. Journal of Robust and Nonlinear Control , Vol.22, 420–436, 2012.

  88. A. Kruszewski, W. Jiang, E. Fridman, J.-P. Richard and A. Toguyeni. A Switched System Approach to Exponential Stabilization through Communication Network. IEEE Control System Technology. , 20, 887 - 900, 2012.

  89. K. Liu and E. Fridman. Wirtinger's Inequality and Lyapunov-Based Sampled-Data Stabilization. Automatica, 48, pp.102–108, 2012.

  90. E. Fridman and A. Blighovsky. Robust Sampled-Data Control of a Class of Semilinear Parabolic Systems. Automatica, 48, 826-836, 2012.

  91. V. Glizer and E. Fridman. Stability of Singularly Perturbed Functional-Differential Systems: a Spectrum Analysis and an LMI Approaches. IMA J. of Math. Contr. & Information, 2012.

  92. K. Liu, E. Fridman and L. Hetel. Stability and $L_2$-gain Analysis of Networked Control Systems under Round-Robin Scheduling: A Time-Delay Approach. Systems & Control Letters , 61, 666-675, 2012.

  93. X.- R. Han, E. Fridman, S. Spurgeon Sliding Mode Control in the Presence of Input Delay: A Singular Perturbation Approach. Automatica 48, 1904-1912, 2012.

  94. E. Fridman and N. Bar Am. Sampled-Data Distributed $H_{\infty}$ Control of Transport Reaction Systems. SIAM J. Control & Optimization , 51 (2), 1500-1527, 2013.

  95. E. Fridman. Observers and initial state recovering for a class of hyperbolic systems via Lyapunov method. Automatica, 49, 2250–-2260, 2013.

  96. A. Schaum, J. Moreno, E. Fridman, J. Alvarez. Matrix Inequality-Based Observer Design for a Class of Distributed Transport-Reaction Systems. Int. J. Robust and Nonlinear Control, 2013.

  97. L. Hetel and E. Fridman. Robust Sampled-Data Control of Switched Affine Systems. IEEE Trans. on Automatic Control , 58 (11), 2922-2928, 2013.

  98. O. Solomon, E. Fridman. New stability conditions for systems with distributed delays. Automatica, 49 (11), 3467–-3475, 2013.

  99. X.- R. Han, E. Fridman, S. Spurgeon Sampled-Data Sliding Mode Observer for Robust Fault Reconstruction: A Time-Delay Approach. Journal of the Franklin Institute 351 (4), 2125–-2142, 2014.

  100. K. Liu and E. Fridman. Delay-dependent methods and the first delay interval. Systems & Control Letters , 64 (1), 57-63, 2014.

  101. V. Ugrinovskii and E. Fridman. A Round-Robin Type Protocol for Distributed Estimation with $H_{\infty}$ Consensus. Systems & Control Letters , 69, 103–-110, 2014.

  102. D. Efimov, A. Polyakov, E. Fridman, W. Perruquetti, J.-P. Richard. Comments on finite-time stability of time-delay systems. Automatica, 50, pp. 1944–-1947, 2014.

  103. N. Bar Am. and E. Fridman Network-based Distributed $H_{\infty}$-Filtering of Parabolic Systems. Automatica, 50 (12), 3139–-3146, 2014.

  104. E. Fridman. Tutorial on Lyapunov-based methods for time-delay systems. European Journal of Control , 20, pp. 271–-283, 2014.

  105. O. Solomon, E. Fridman. Stability and passivity analysis of semilinear diffusion PDEs with time-delays. International Journal of Control , 88 (1), pp. 180--192, 2015.

  106. K. Liu and E. Fridman. Discrete-time Network-based Control under Scheduling and Actuator Constraints. Int. J. Robust and Nonlinear Control , 25 (12), 1816–1830, 2015.

  107. L. Hetel, E. Fridman, T. Floquet. Variable structure control with generalized relays: a simple convex optimization approachIEEE Trans. on Automatic Control , 59, 2015.

  108. A. Selivanov, A. Fradkov, E. Fridman Passification-based decentralized adaptive synchronization of dynamical networks with time-varying delays. Journal of the Franklin Institute , 352 (1), pp. 52--72, 2015.

  109. A. Selivanov, E. Fridman, A. Fradkov Passification-based adaptive control: uncertain input and output delays. Automatica, 54, pp.107-113, 2015.MATLAB code

  110. A. Seuret, F. Gouaisbaut, E. Fridman Stability of Discrete-Time Systems with Time-Varying Delays via a Novel Summation Inequality, IEEE Trans. Automatic Control , 60 (10), 2740 - 2745, 2015.

  111. K. Liu, E. Fridman, K Johansson Networked Control with Stochastic Scheduling. IEEE Trans. Automatic Control , 60 (11), 3071 - 3076, 2015.

  112. F. Mazenc, E. Fridman, W. Djema Estimation of solutions of observable nonlinear systems with disturbances. Systems & Control Letters , 79, 47-58, 2015.

  113. K. Liu, E. Fridman and L. Hetel. Networked control systems in the presence of scheduling protocols and communication delays. SIAM J. Control & Optimization , 53(4), 1768–1788, 2015.

  114. K. Liu, E. Fridman, K Johansson Dynamic quantization of uncertain linear networked control systems. Automatica , 59, 248-255, 2015.

  115. E. Fridman, M. Terushkin New stability and exact observability conditions for semilinear wave equations. Automatica , 63, 74-81, 2016.

  116. F. Mazenc, E. Fridman Predictor-based sampled-data exponential stabilization through continuous–discrete observers. Automatica , 63, 74-81, 2016.

  117. E. Fridman, C. Bonnet, F. Mazenc and W. Djema Stability of the cell dynamics in Acute Myeloid Leukemia. Systems & Control Letters , 88, 91-100, 2016 .

  118. A. Selivanov, E. Fridman Event-triggered $H_{\infty}$ control: a switching approach. IEEE Trans. Automatic Control , 61 (10), 3221-3226, 2016. MATLAB code

  119. T. Ahmed-Ali, E. Fridman, F. Giri, L. Burlion, F. Lamnabhi-Lagarrigue Using exponential time-varying gains for sampled-data stabilization and estimation. Automatica , 67, 244-251, 2016.

  120. A. Selivanov, E. Fridman Distributed event-triggered control of diffusion semilinear PDEs. Automatica , 68, 344-351, 2016. MATLAB code

  121. D. Freirich, E. Fridman Decentralized networked control of systems with local networks: a time-delay approach, Automatica, 69, 201-209, 2016.

  122. K. Liu, E. Fridman, K Johansson, Y. Xia. Quantized Control under Round-Robin Communication Protocol IEEE Transactions on Industrial Electronics, 63 (7), 4461--4471, 2016.

  123. K. Liu, E. Fridman, K Johansson, Y. Xia. Generalized Jensen Inequalities with Application to Stability Analysis of Systems with Distributed Delays over Infinite Time-Horizons. Automatica, 69, 222-231, 2016.

  124. A. Selivanov, E. Fridman Predictor-based networked control under uncertain transmission delays. Automatica , 70, 101-108, 2016. MATLAB code

  125. D. Efimov, E. Fridman, A. Polyakov, W. Perruquetti, J.-P. Richard. Delay-Dependent Positivity for Design of Interval Observers. Automatica , 72, 123-130, 2016.

  126. A. Polyakov, D. Efimov, E. Fridman, W. Perruquetti, On Homogeneous Distributed Parameter Systems. IEEE Trans. Automatic Control , 61, No. 11, 3657-3662, 2016.

  127. A. Selivanov, E. Fridman Observer-based input-to-state stabilization of networked control systems with large uncertain delays. Automatica , 74, 63-70, 2016. MATLAB code

  128. J. Schiffer, E. Fridman, R. Ortega and J. Raisch. Stability of a class of delayed port-Hamiltonian systems with application to microgrids with distributed rotational and electronic generation. Automatica , 74, 71-79, 2016.

  129. E. Fridman, L. Shaikhet. Delay-induced stability of vector second-order systems via simple Lyapunov functionalsAutomatica , 74, 288-296, 2016.

  130. D. Efimov, E. Fridman, A. Polyakov, W. Perruquetti, J.-P. Richard. On Design of Interval Observers with Sampled Measurement. Systems & Control Letters , 96, 158-164, 2016.

  131. A. Domoshnitsky, E. Fridman. A Positivity-Based Approach to Delay-Dependent Stability of Systems with Large Time-varying Delays. Systems & Control Letters , 97, 139–148, 2016.

  132. W. Kang, E. Fridman. Sliding mode control of Schrodinger equation-ODE in the presence of unmatched disturbances. Systems & Control Letters , 98, 65-73, 2016.

  133. L. Hetel, C. Fiter, H. Omran, A. Seuret, E. Fridman, J-P Richard, S. Niculescu. Recent developments on the stability of systems with aperiodic sampling: an overview. Automatica , 76, 309-335, 2017.

  134. V. Glizer, E. Fridman and Y. Feigin. A Novel Approach to Exact Slow-Fast Decomposition of Linear Singularly Perturbed Systems with Small Delays. SIAM J. Control & Optimization , 55, No. 1, 236–274, 2017.

  135. E. Gershon, E. Fridman, U. Shaked. Predictor-based Control of Systems with State Multiplicative Noise. IEEE Trans. Automatic Control , 62, No.2, 914-920, 2017.

  136. A. Seuret and E. Fridman. On the use of the Wirtinger inequality for discrete sampled-data systems. IMA J. of Math. Contr. & Information, 2017.

  137. J. Schiffer, F. Dorfler and E. Fridman. Robustness of distributed averaging control in power systems: time delays & dynamic communication topology. Automatica , 80, pp. 261-271, 2017.

  138. E. Fridman, L. Shaikhet. Stabilization by using artificial delays: an LMI approach. Automatica , 81, pp. 429-437, 2017.

  139. A. Selivanov, E. Fridman Sampled-data relay control of diffusion PDEs. Automatica , 82, pp. 59-68, 2017.

  140. P. Pepe, E. Fridman On global exponential stability preservation under sampling for globally Lipschitz time-delay systems. Automatica , 82, pp. 295–300, 2017.

  141. W. Kang, E. Fridman Boundary control of delayed ODE-Heat cascade under actuator saturation. Automatica , 83, pp. 252-261, 2017.

  142. D. Freirich, E. Fridman Decentralized networked control of discrete-time systems with local networks, Int. J. Robust and Nonlinear Control , 28, pp. 365–380, 2018.

  143. I. Furtat, E. Fridman, A. Fradkov. Disturbance Compensation with Finite Spectrum Assignment for Plants with Input Delay. IEEE Trans. Automatic Control , 63 (1), pp. 298-305, 2018.

  144. R. Sanz Diaz, P. Garcia, E. Fridman, P. Albertos Rejection of Mismatched Disturbances for Systems with Input Delay via a Predictive Extended State Observer. Int. J. Robust and Nonlinear Control , 28, pp. 2457–-2467, 2018.

  145. A. Selivanov, E. Fridman Sampled-Data Implementation of Derivative-Dependent Control Using Artificial Delays. IEEE Trans. Automatic Control , 63, 10, pp. 3594-3600, 2018.

  146. W. Kang, E. Fridman Distributed sampled-data control of Kuramoto-Sivashinsky equation. Automatica , 95, pp. 514-524, 2018.

  147. W. Kang, E. Fridman Boundary Constrained Control of Delayed Nonlinear Schrodinger Equation. IEEE Trans. Automatic Control , 63, 11, pp. 3873--3880, 2018.

  148. W. Djema, C. Bonnet, F. Mazenc, J. Clairambault, E. Fridman, P. Hirsch, F. Delhommeau. Control in Dormancy or Eradication of Cancer Stem Cells: Mathematical Modeling and Stability Issues. Journal of Theoretical Biology, 449, pp. 103-123, 2018.

  149. A. Chakrabarty, E. Fridman, S. Zak, G. Buzzard. State and Unknown Input Observers for Nonlinear Systems with Delayed Measurements. Automatica , 95, pp. 246-253, 2018.

  150. A. Selivanov, E. Fridman Delayed point control of a reaction-diffusion PDE under discrete-time point measurements. Automatica , 96, pp. 224-233, 2018.

  151. K. Liu, A. Seuret, E. Fridman, Y. Xia. Improved Stability Conditions for Discrete-time Systems under Dynamic Network Protocols. International Journal of Robust and Nonlinear Control , 28, no. 15, pp. 4479-4499, 2018.

  152. A. Selivanov, E. Fridman An improved time-delay implementation of derivative-dependent feedbackAutomatica , 98, pp. 269-276, 2018.

  153. V. Natarajan, HC Zhou, G. Weiss and E. Fridman. Exact controllability of a class of nonlinear distributed parameter systems using back and forth iterations. International Journal of Control , 92, NO. 1, 145–162, 2019.

  154. J. Xu, Y. Niu, E. Fridman, L. Fridman Finite frequency $H_\infty$ control of singularly perturbed Euler-Lagrange systems: An artificial delay approach. Int. Journal of Robust and Nonlinear Control, 2019.

  155. A. Selivanov, E. Fridman Boundary observers for a reaction-diffusion system under time-delayed and sampled-data measurements. IEEE Trans. Automatic Control , 64, no.8, pp. 3385-3390, 2019.

  156. W. Kang, E. Fridman Distributed stabilization of Korteweg-de Vries-Burgers equation in the presence of input delay. Automatica , 100, pp. 260-273, 2019.

  157. E. Fridman, L. Shaikhet. Simple LMIs for stability of stochastic systems with delay term given by Stieltjes integral or with stabilizing delay. Systems & Control Letters , 124, pp. 83-91, 2019.

  158. A.Matveev, A. Proskurnikov, A. Pogromsky, E. Fridman. Comprehending Complexity: Data-Rate Constraints in Large-Scale Networks. IEEE Trans. Automatic Control, 64, no.10, pp. 4252-4259, 2019.

  159. M. Terushkin, E. Fridman Sampled-data observers for semilinear damped wave equations under spatially sampled state measurements. Automatica , 106, pp. 150-160, 2019.

  160. J. Wei, E. Fridman, K. Johansson A PDE approach to deployment of mobile agents under leader relative position measurements. Automatica , 106, pp. 47-53, 2019.

  161. K. Liu, A. Selivanov, E. Fridman Survey on Time-delay Approach to Networked Control. Annual Reviews in Control , 48, pp. 57-79, 2019.

  162. A. Selivanov, E. Fridman Delayed $H_\infty$ control of 2D diffusion systems under delayed pointlike measurements. Automatica , 109, 2019.

  163. A. Castillo, P. Garcia, E. Fridman, P. Albertos. Extended state observer-based control for systems with locally Lipschitz uncertainties: LMI-based stability conditions Systems and Control Letters, 134, 2019.

  164. R. Sanz Diaz, P. Garcia, E. Fridman, P. Albertos Robust Predictive Extended State Observer for a Class of Nonlinear Systems with Time-Varying Input Delay. Int. J. Control , 93, no. 2, 217–225, 2020.

  165. E. Fridman, D. Liberzon, P. Pakshin, A. Proskurnikov Special Issue dedicated to Prof. Alexander L. Fradkov. Int. J. Control , 93, no. 2, 201–202, 2020.

  166. T. Kharkovskaia, D. Efimov, E. Fridman, A. Polyakov, J.-P. Richard. Interval observer design and control of uncertain non-homogenous heat equations. Automatica , 111, 2020.

  167. T. Ahmed-Ali, E. Fridman, F. Giri, M. Kahelras, F. Lamnabhi-Lagarrigue, L. Burlion. Observer design for a class of parabolic systems with large delays and sampled measurements. IEEE Trans. Automatic Control, 65 (5), pp. 2200-2206, 2020.

  168. T. Sanchez, A. Polyakov, E. Fridman, L. Hetel. A Switching Controller for a class of MIMO Bilinear Systems with Time-Delay. IEEE Trans. Automatic Control, 65 (5), pp. 2050-2056, 2020.

  169. M. Terushkin, E. Fridman. Network-based control of a semilinear damped beam equation under point and pointlike measurements. Systems and Control Letters, 136, 104617, 2020.

  170. Y. Zhu, E. Fridman. Predictor methods for decentralized control of large-scale systems with input delays. Automatica , 116, 108903, 2020.

  171. J. Xu, E. Fridman, L. Fridman, Y. Niu. Static sliding mode control of systems with arbitrary relative degree by using artificial delays. IEEE Trans. Automatic Control, 65, No. 12, 5464 - 5471, 2020.

  172. R. Katz, M. Margaliot, E. Fridman. Entrainment to Subharmonic Trajectories in Oscillatory Discrete Time Systems. Automatica , 140, 104698, 2020.

  173. D. Efimov, E. Fridman, W. Perruquetti, J.-P. Richard. Homogeneity of neutral systems and accelerated stabilization of a double integrator by measurement of its position. Automatica , 118, 109023, 2020.

  174. W. Kang and E. Fridman. Constrained control of 1-D parabolic PDEs using sampled in space sensing and actuation. Systems and Control Letters, 140, 104698, 2020.

  175. D. Efimov, E. Fridman. Converse Lyapunov-Krasovskii theorem for ISS of neutral systems in Sobolev spaces. Automatica , 118, 109042, 2020.

  176. J. Zhang, E. Fridman. Improved derivative-dependent control of stochastic systems via delayed feedback implementation. Automatica , 119, 109101, 2020.

  177. S. Saxena, E. Fridman. Event-Triggered Load Frequency Control via Switching Approach. IEEE Transactions on Power Systems , 35, No. 6, 4484-4494, 2020.

  178. R. Katz, E. Fridman. Constructive method for finite-dimensional observer-based control of 1-D parabolic PDEs. Automatica , 122, December 2020, 109285, 2020.

  179. E. Fridman, J. Zhang. Averaging of linear systems with almost periodic coefficients: a time-delay approach. Automatica , 122, December 2020, 109287, 2020.

  180. R. Katz, E. Fridman, A. Selivanov. Boundary delayed observer-controller design for reaction-diffusion systems. IEEE Trans. Automatic Control, 66, No. 1, pp. 275-282, 2021.

  181. S. Alghamdi, J. Schiffer,E. Fridman. Synthesizing Sparse and Delay-Robust Distributed Secondary Frequency Controllers for Microgrids. IEEE Trans. on Control Systems Technology, 29, No. 2, 691-703, 2021.

  182. Y. Zhu, E. Fridman. Observer-based decentralized predictor control of large-scale interconnected systems with large delays. IEEE Trans. Automatic Control , 66, No. 6, pp. 2897-2904, 2021.

  183. W. Kang, L. Baudouin, E. Fridman. Event-triggered control of Korteweg-de Vries equation under averaged measurements. Automatica , 123, January 2021, 109315.

  184. Y. Zhu, E. Fridman. Sub-predictors for network-based control under uncertain large delays. Automatica , 123, January 2021, 109350, 2021.

  185. R. Katz, E. Fridman. Delayed finite-dimensional observer-based control of 1-D parabolic PDEs. Automatica , 123, January 2021, 109364, 2021.

  186. H. Silm, R. Ushirobira, D. Efimov, E. Fridman, J.-P. Richard, W. Michiels. Distributed observers with time-varying delays IEEE Trans. Automatic Control , 66, No. 11, 5354-5361, 2021.

  187. J. Wang, S. Aranovskiy, E. Fridman, D. Sokolov, D. Efimov, A. Bobtsov. Robust adaptive stabilization by delay under state parametric uncertainty and measurement bias. IEEE Trans. Automatic Control , 66, No. 11, 5459-5466, 2021.

  188. J. Xu, L. Fridman, E. Fridman, Y. Niu. Output-feedback Lyapunov redesign of uncertain systems with delayed measurements. Int. Journal of Robust and Nonlinear Control, 31, 3747-3766, 2021.

  189. M. Di Ferdinando, P. Pepe, E. Fridman. Exponential Input-to-State Stability of globally Lipschitz time-delay systems under sampled-data noisy output feedback and actuation disturbances. International Journal of Control, vol. 94, No. 6, 1682-1692, 2021.

  190. I. Furtat, E. Fridman. Delayed Disturbance Attenuation via Measurement Noise Estimation. IEEE Trans. Automatic Control , 66, No. 11, 5546 - 5553, 2021.

  191. M. Terushkin, E. Fridman. Network-based deployment of nonlinear multi agents over open curves: a PDE approach. Automatica, 129, 109697, 2021.

  192. R. Grino, R. Ortega, E. Fridman, J. Zhang, F. Mazenc. A Behavioural Dynamic Model for Constant Power Loads in Single-Phase AC Systems. Automatica, 131, 109744, 2021.

  193. J. Zhang, E. Fridman. Dynamic event-triggered control of networked stochastic systems with scheduling protocols. IEEE Trans. Automatic Control , VOL. 66, NO. 12, 6139-6147, 2021.

  194. R. Katz, E. Fridman. Finite-dimensional control of the heat equation: Dirichlet actuation and point measurement. European Journal of Control, 62, November, 158-164, 2021. ECC Special Issue. Rami Katz - Finalist of the Best Student Paper Award at ECC 2021

  195. J. Zhang, E. Fridman. Sampled-data implementation of extended PID control using delays. Int. Journal of Robust and Nonlinear Control, 2021.

  196. J. Zhang, W. Kang, E. Fridman, A. Seuret. Delayed stabilization of parabolic PDEs via augmented Lyapunov functionals and Legendre polynomials. Systems and Control Letters, 156, 105003, 2021.

  197. J. Zhang, E. Fridman. Digital implementation of derivative-dependent control by using delays for stochastic multi-agents. IEEE Trans. Automatic Control , 67, No. 1, 351-358, 2022.

  198. W. Kang, E. Fridman. Sampled-data control of 2D Kuramoto-Sivashinsky equation. IEEE Trans. Automatic Control , 67, No.3, 1314-1326 2022.

  199. R. Katz, E. Fridman. Sub-predictors and classical predictors for finite-dimensional observer-based control of parabolic PDEs. The IEEE Control Systems Letters, 6, 626-631, 2022.

  200. J. Rueda-Escobedo, E. Fridman, J. Schiffer. Data-Driven Control for Linear Discrete-Time Delay Systems. IEEE Trans. Automatic Control, 2022.

  201. R. Katz, E. Fridman. Sampled-data finite-dimensional boundary control of 1D parabolic PDEs under point measurement via a novel ISS Halanay's inequality. Automatica, 135, 109966, 2022.

  202. Y. Zhu, E. Fridman. Extremum Seeking via a Time-Delay Approach to AveragingAutomatica , 135, 109965, 2022.

  203. R. Katz, E. Fridman. Finite-dimensional boundary control of the linear Kuramoto-Sivashinsky equation under point measurement with guaranteed $L^2$-gain. IEEE Trans. Automatic Control , 2022.

  204. J. Zhang, E. Fridman. L2-gain analysis via time-delay approach to periodic averaging with stochastic extension. Automatica , 137, 110126, 2022.

  205. R. Katz, E. Fridman. Regional stabilization of the nonlinear 1D Kuramoto-Sivashinsky equation via modal decomposition. The IEEE Control Systems Letters, 6, 1814-1819, 2022.

  206. T. Iwaki, E. Fridman. K. Johansson . Multi-loop Periodic Event-triggered Actuation: Applications to PID, Cascade, and Decoupling Control. Int. Journal Control, 96, No 4, 853–868, 2022

  207. Y. Zhu, E. Fridman, T. Oliveira Sampled-data extremum seeking with constant delay: a time-delay approach. IEEE Trans. Automatic Control , 2022.

  208. R. Katz, E. Fridman. Delayed finite-dimensional observer-based control of 1D parabolic PDEs via reduced-order LMIs. Automatica , 142, 110341, 2022.

  209. A. Selivanov, E. Fridman. PDE-based deployment of multi-agents measuring relative position to one neighbour. The IEEE Control Systems Letters, 6, 2563-2568, 2022.

  210. A. Nekhoroshikh, D. Efimov, E. Fridman, W. Perruquetti, A. Polyakov, I. Furtat. Practical fixed-time ISS of neutral time-delay systems with application to stabilization by using delays. Automatica , 2022.

  211. R. Katz, E. Fridman. Global finite-dimensional observer-based stabilization of a semilinear heat equation with large input delay. Systems and Control Letters , 165, 105275, 2022.

  212. W. Kang, E. Fridman, C.-X. Liu. Stabilization by switching of parabolic PDEs with spatially scheduled actuators and sensors. Automatica , 147, 110668, 2023.

  213. W. Mei, D. Efimov, R. Ushirobira, E. Fridman. On delay-dependent conditions of ISS for generalized Persidskii systems IEEE Trans. Automatic Control , 2023.

  214. X. Yang, J. Zhang, E. Fridman Periodic Averaging of Discrete-Time Systems: A Time-Delay Approach  IEEE Trans. Automatic Control , 68, No 7, 4482 - 4489, 2023.

  215. P. Wang, R. Katz, E. Fridman. Constructive finite-dimensional boundary control of stochastic 1D parabolic PDEs. Automatica , 148, 110793, 2023.

  216. B. Caiazzo, E. Fridman, X. Yang. Averaging of systems with fast-varying coefficients and non-small delays with application to stabilization of affine systems via time-dependent switching. Nonlinear Analysis: Hybrid Systems, 48, 101307, 2023.

  217. R. Katz, E. Fridman. Global stabilization of a 1D semilinear heat equation via modal decomposition and direct Lyapunov approach. Automatica , 149, 110809, 2023.

  218. J. Zhang, E. Fridman. Constructive robust stabilization by using square wave dithers: a time-delay approach. IEEE Trans. Automatic Control , 2023.

  219. J. Zhang, E. Fridman. Lie-brackets-based averaging of affine systems via a time-delay approach. Automatica, 152, 110971, 2023.

  220. S. Zhuk, M. Zayats, E. Fridman. Detectability and global observer design for 2D Navier-Stokes equations with uncertain
    . Automatica, 153, 11043, 2023.

  221. A. Aleksandrov, D. Efimov, E. Fridman. Stability of homogeneous systems with distributed delay and time-varying perturbations. Automatica, 153, 111058, 2023.

  222. P. Wang, E. Fridman. Predictor methods for finite-dimensional observer-based control of stochastic parabolic PDEs. Systems & Control Letters, 2023.

  223. A. Selivanov, E. Fridman. Finite-dimensional boundary control of a wave equation with viscous friction and boundary measurements. IEEE Trans. Automatic Control,  2024.

  224. C. Kitsos, E. Fridman. Stabilization of underactuated linear coupled reaction-diffusion PDEs via distributed or boundary actuation. IEEE Trans. Automatic Control,  2024.

  225. P. Wang, E. Fridman. Sampled-Data Finite-Dimensional Observer-Based Control of 1D Stochastic Parabolic PDEs. SIAM Journal on Control and Optimization, 2023.

  226. D. Efimov, E. Fridman. On ISS with respect to average value of disturbances: a time-delay approach. IEEE Trans. Automatic Control,  2024.

  227. R. Katz, E. Fridman, F. Mazenc. Constructive method for averaging-based stability via a delay free transformation. Automatica, 2024.

  228. J. Zhang, E. Fridman. Stabilization under unknown control directions and disturbed measurements via a time-delay approach to extremum seeking. Int. Journal of Robust and Nonlinear Control, 2024.

  229. A. Alksandrov, D. Efimov, E. Fridman. On local ISS of nonlinear second-order time-delay systems without damping.  Int. Journal of Robust and Nonlinear Control, 2024.

  230. P. Wang, E. Fridman. Delayed finite-dimensional observer-based control of 2D linear parabolic PDEs. Automatica, 2024. 

  231. A. Andreotti, B. Caiazzo ,  E. Fridman , A. Petrillo ,  S. Santini . Distributed dynamic event-triggered control for voltage recovery in islanded microgrids by using artificial delays. IEEE Transactions on Cybernetics, 2024.

  232. G. Pan, Y. Zhu, E. Fridman, Z-G Wu. Extremum seeking of general nonlinear static maps: a time-delay approach. Automatica, 2024.

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