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Corentin Briat

Journal articles

Open Access

Most of my recent journal and conference papers are freely accessible on arXiv, bioRxiv or ResearchGate.

  1. C. Briat and M. Khammash, “On the Innocuousness of Deterministic p-type Antithetic Integral Controllers arising in Integral Rein Control”, Arxiv.

  2. C. Briat and M. Khammash, “Noise in Biomolecular Systems: Modeling, Analysis, and Control Implications”, Annual Review of Control, Robotics, and Autonomous Systems, Vol. 6, 2022.

  3. C. Briat, “Stability Analysis and Stabilization of Linear Symmetric Matrix-Valued Continuous, Discrete, and Impulsive Dynamical Systems - A Unified Approach for the Stability Analysis and the Stabilization of Linear Systems”, Nonlinear Analysis: Hybrid Systems, Vol. 46, pp. 101242, 2022.

  4. C. Briat, “Stability analysis and stabilization of LPV systems with jumps and (piecewise) differentiable parameters using continuous and sampled-data controllers”, Nonlinear Analysis: Hybrid Systems, Vol. 41, pp. 101040, 2021.

  5. C. Briat and M. Khammash, “In-Silico Proportional-Integral Moment Control of Stochastic Gene Expression”, IEEE Transactions on Automatic Control, Vol. 66(7), pp. 3007–3019, 2021.

  6. C. Briat and M. Khammash, “Ergodicity, Output-Controllability, and Antithetic Integral Control of Uncertain Stochastic Reaction Networks”, IEEE Transactions on Automatic Control, Vol. 66(5), pp. 2087–2098, 2021.

  7. C. Briat, “Hybrid L_inftytimesell_infty-performance analysis and control of linear time-varying impulsive and switched positive systems”, Nonlinear Analysis: Hybrid Systems, Vol. 39, pp. 100980, 2021.

  8. C. Briat and M. Khammash, “Ergodicity Analysis and Antithetic Integral Control of a Class of Stochastic Reaction Networks with Delays”, SIAM Journal on Applied Dynamical Systems, Vol. 19(3), pp. 1575-1608, 2020.

  9. C. Briat, “A Biology-Inspired Approach to the Positive Integral Control of Positive Systems: The Antithetic, Exponential, and Logistic Integral Controllers”, SIAM Journal on Applied Dynamical Systems, Vol. 19(1), pp. 619-664, 2020.

  10. C. Briat, “Stability and L_1timesell_l-to-L_1timesell_1 performance analysis of uncertain impulsive linear positive systems with applications to the interval observation of impulsive and switched systems with constant delays”, International Journal of Control, Vol. 93(11), pp. 2634-2652, 2020.

  11. C. Briat, “L_1timesell_l-to-L_1timesell_1 analysis of linear positive impulsive systems with application to the L_1timesell_l-to-L_1timesell_1 interval observation of linear impulsive and switched systems”, Nonlinear Analysis: Hybrid Systems, Vol. 34, pp. 1-17, 2019.

  12. C. Briat, “Co-design of aperiodic sampled-data min-jumping rules for linear impulsive, switched impulsive and sampled-data systems”, Systems & Control Letters, Vol. 130, pp. 32-42, 2019.

  13. C. Briat, “A class of L_1-to-L_1 and L_infty-to-L_infty interval observers for (delayed) Markov jump linear systems”, IEEE Control Systems Letters, Vol. 3(2), pp. 410-415, 2019.

  14. C. Briat, A. Gupta and M. Khammash, “Antithetic proportional-integral feedback for reduced variance and improved control performance of stochastic reaction networks”, Journal of the Royal Society: Interface, 15:20180079, 2018.

  15. C. Briat, “Stability analysis and state-feedback control of LPV systems with piecewise constant parameters subject to spontaneous Poissonian jumps”, IEEE Control Systems Letters, Vol. 2(2), pp. 230-235, 2018.

  16. C. Briat and M. Khammash, “Dynamic integral control ensures robust perfect adaptation and optimal equilibrium productivity for a microbial biofuel metabolic pathway”, ACS Synthetic Biology, Vol. 7(2), pp. 419-431, 2018.

  17. C. Briat, “Stability and performance analysis of linear positive systems with delays using input-output methods”, International Journal of Control, Vol. 71(7), pp. 1669-1692, 2018.

  18. C. Briat, “Dwell-time stability and stabilization conditions for linear positive impulsive and switched systems”, Nonlinear Analysis: Hybrid Systems, Vol. 24, pp. 198-226, 2017.

  19. C. Briat, “Sign properties of Metzler matrices with applications”, Linear Algebra and Its Applications, Vol. 515, pp. 53-86, 2017.

  20. C. Briat, “Stability analysis and stabilization of stochastic linear impulsive, switched and sampled-data systems under dwell-time constraints”, Automatica, Vol. 74, pp. 279-287, 2016.

  21. C. Briat and M. Khammash, “Interval peak-to-peak observers for continuous- and discrete-time systems with persistent inputs and delays”, Automatica, Vol. 74, pp. 206-213, 2016.

  22. C. Briat, C. Zechner and M. Khammash, “Design of a synthetic integral feedback circuit: dynamic analysis and DNA implementation”, ACS Synthetic Biology, Vol. 5(10), pp. 1108-1116, 2016. SNSF News article by A. Bieri.

  23. C. Briat, “Theoretical and numerical comparisons of looped functionals and clock-dependent Lyapunov functions - The case of periodic and pseudo-periodic systems with impulses”, International Journal of Robust and Nonlinear Control, Vol. 26(10), pp. 2232-2255, 2016.

  24. C. Briat, A. Gupta and M. Khammash, “Antithetic Integral Feedback ensures robust perfect adaptation in noisy biomolecular networks” (Featured Article), Cell Systems, Vol. 2(1), pp. 17-28, 2016. Preview Article by J. C. Doyle, Commentary Article by J. Ferrell, ETH News article by P. Rüegg, SNSF News article by A. Bieri.

  25. W. Xiang, G. Zhai and C. Briat, “Stability analysis for LTI control systems with controller failures and its application in failure tolerant control”, IEEE Transactions on Automatic Control, Vol. 61(3), pp. 811-816, 2016.

  26. C. Briat, “Stability analysis and control of a class of LPV systems with piecewise constant parameters”, Systems & Control Letters, Vol. 82, pp. 10-17, 2015.

  27. C. Briat and A. Seuret, “On the necessity of looped-functionals arising in the analysis of pseudo-periodic, sampled-data and hybrid systems”, International Journal of Control, Vol. 88(12), pp. 2563-2569, 2015.

  28. C. Briat, “Convex conditions for the robust stabilization of uncertain switched systems with guaranteed minimum and mode-dependent dwell-time”, Systems & Control Letters, Vol. 78, pp. 63-72, 2015.

  29. A. Seuret and C. Briat, “Stability analysis of uncertain sampled-data systems with incremental delay using looped-functionals”, Automatica, Vol. 55, pp. 274-278, 2015.

  30. C. Briat, E. A. Yavuz, H. Hjalmarsson, K.-H. Johansson, U. T. Jönsson, G. Karlsson and H. Sandberg, “The conservation of information, towards an axiomatized modular modeling approach to congestion control”, IEEE Transactions on Networking, Vol. 23(3), pp. 851-865, 2015.

  31. A. Gupta, C. Briat and M. Khammash, “A scalable computational framework for establishing long-term behavior of stochastic reaction networks”, PLOS Computational Biology, Vol. 10(6), e1003669, 2014.

  32. C. Briat, “Convex lifted conditions for robust ell_2-stability analysis and ell_2-stabilization of linear discrete-time switched systems with minimum dwell-time constraint”, Automatica, Vol. 50(3), pp. 976-983, 2014.

  33. C. Briat, “Spectral necessary and sufficient conditions for sampling-period-independent stabilization of periodic and aperiodic sampled-data systems using a class of generalized sampled-data hold functions”, International Journal of Control, Vol. 87(3), pp. 612-621, 2014.

  34. C. Briat, “Convex conditions for robust stability analysis and stabilization of linear aperiodic impulsive and sampled-data systems under dwell-time constraints”, Automatica, Vol. 49(11), pp. 3349-3457, 2013.

  35. B. Demirel, C. Briat and M. Johansson, “Deterministic and Stochastic Approaches to Supervisory Control Design for Networked Systems with Time-Varying Communication Delays”, Nonlinear Analysis: Hybrid Systems, Vol. 10, pp. 94-110, 2013.

  36. C. Briat, “Robust stability and stabilization of uncertain linear positive systems via Integral Linear Constraints: L_1- and L_infty-gains characterization”, International Journal of Robust and Nonlinear Control, Vol. 23(17), pp. 1932-1954, 2013.

  37. C. Briat and A. Seuret, “Affine characterizations of minimal and mode-dependent dwell-times for uncertain linear switched systems”, IEEE Transactions on Automatic Control, Vol. 58(5), pp. 1304-1310, 2013.

  38. C. Briat and O. Sename, “Discussion on ”Time-delay model-based control of the glucose-insulin system, by means of a state observer", European Journal of Control, Vol. 18(6), pp. 607-609, 2012.

  39. C. Briat and A. Seuret, “Convex dwell-time characterizations for uncertain linear impulsive systems”, IEEE Transactions on Automatic Control, Vol. 57(12), pp. 3241-3246, 2012.

  40. C. Briat and A. Seuret, “A looped-functional approach for robust stability analysis of linear impulsive systems”, Systems & Control Letters, Vol. 61, pp. 980-988, 2012.

  41. C. Briat, O. Sename and J.-F. Lafay, “of LPV observers for LPV Time-Delay Systems: An Algebraic Approach”, International Journal of Control, Vol. 84(9), pp. 1533-1542, 2012.

  42. C. Briat, “Convergence and Equivalence results for the Jensen's inequality - Application to time-delay and sampled-data systems”, IEEE Transactions on Automatic Control, Vol. 56(7), pp. 1660-1665, 2011.

  43. E. Witrant, P. di Marco, P. Park and C. Briat, “Limitations and Performances of Robust Control over WSN: UFAD Control in Intelligent Buildings”, IMA Journal of Mathematical Control and Information, Vol. 27, pp. 527-543, 2010.

  44. C. Briat, O. Sename and J.-F. Lafay, “Memory Resilient Gain-scheduled State-Feedback Control of Uncertain LTI/LPV Time-Delay Systems with Time-Varying Delays”, Systems & Control Letters, Vol. 59(8), pp. 451-459, 2010.

  45. C. Briat and E. I. Verriest, “A New Delay-SIR Model for Pulse Vaccination”, Biomedical Signal Processing and Control, Vol. 4, pp. 272-277, 2009.

  46. C. Briat, O. Sename and J.-F. Lafay, “mathcal{H}_infty delay-scheduled control of linear systems with time-varying delays”, IEEE Transactions on Automatic Control, Vol. 42(8), pp. 2250-2260, 2009.

  47. C. Briat, O. Sename and J.-F. Lafay, “Delay-Scheduled State-Feedback Design for Time-Delay Systems with Time-Varying Delays - A LPV Approach”, Systems & Control Letters, Vol. 58(9), pp. 664-671, 2009.