We analyze the robustness properties of a recently introduced strategy for stabilization with limited information. We show that if the nominal closed-loop system can be made Input-to-State Stable (ISS) with respect to measurement errors, parameter uncertainty and exogenous disturbances then this robustness is preserved when only limited information is available on the plant. More precisely, if a sufficiently bandwidth is available on the communication network, then the resulting closed-loop is semiglobally practically ISS.

10aEmbedded Control10aRobotics1 aFranci, A1 aChaillet, A uhttp://www.centropiaggio.unipi.it/publications/constructive-robustness-analysis-limited-information-feedback-approach-nonlinear00518nas a2200133 4500008004100000245007200041210006900113300001600182653002100198653001300219100001600232700001500248856012100263 2008 eng d00aDelay compensation in packet-switching networked controlled systems0 aDelay compensation in packetswitching networked controlled syste a3620 - 362510aEmbedded Control10aRobotics1 aChaillet, A1 aBicchi, A. uhttp://www.centropiaggio.unipi.it/publications/delay-compensation-packet-switching-networked-controlled-systems.html01885nas a2200145 4500008004100000245010700041210006900148300001300217490000700230520132500237653001301562100001601575700001101591856013701602 2008 eng d00aUniform Semiglobal Practical Asymptotic Stability for Non-autonomous Cascaded Systems and Applications0 aUniform Semiglobal Practical Asymptotic Stability for Nonautonom a337-347 0 v443 aIt is due to the modularity they provide that results for cascaded systems have proved their utility in numerous control applications as well as in the development of general control techniques based on ``adding integrators''. Nevertheless, the standing assumptions in most of the present literature on cascaded systems is that, when \emph{decoupled}, the subsystems constituting the cascade are uniformly globally asymptotically stable (UGAS). Hence existing results fail in the more general case when the subsystems are uniformly semiglobally practically asymptotically stable (USPAS). This situation is often encountered in control practice, ıt e.g.}, in control of physical systems with external perturbations, measurement noise, unmodelled dynamics, ıt etc}. After giving a rigorous framework for the analysis of such stability properties, this paper generalizes previous results for cascades by establishing that, under a uniform boundedness condition on its solutions, the cascade of two USPAS systems remains USPAS. An analogous result is derived for uniformly semiglobally asymptotically stable (USAS) systems in cascade. Furthermore, we show the utility of our results in the PID control of mechanical systems affected by unknown non-dissipative forces and considering the dynamics of the DC motors.

10aRobotics1 aChaillet, A1 aLor, A uhttp://www.centropiaggio.unipi.it/publications/uniform-semiglobal-practical-asymptotic-stability-non-autonomous-cascaded-systems-and01263nas a2200157 4500008004100000245009800041210006900139260003100208520065500239653001300894100001600907700001500923700001100938700001700949856013900966 2007 eng d00aTowards uniform linear time-invariant stabilization of systems with persistency of excitation0 aTowards uniform linear timeinvariant stabilization of systems wi aNew Orleans, USAcDecember3 aConsider the controlled system $dx/dt = Ax + \alpha(t)Bu$ where the pair $(A,B)$ is stabilizableand $\alpha(t)$ takes values in $[0,1]$ and is persistently exciting. In particular, when $\alpha(t)$ becomes zero the system dynamics switches to an uncontrollable system. In this paper, we address the following question: is it possible to find a linear time-invariant state-feedback, only depending on $(A,B)$ and the parameters of the persistent excitation, which globally exponentially stabilizes the system? We give a positive answer to this question for two cases: when $A$ is neutrally stable and when the system is the double integrator.

10aRobotics1 aChaillet, A1 aChitour, Y1 aLor, A1 aSigalotti, M uhttp://www.centropiaggio.unipi.it/publications/towards-uniform-linear-time-invariant-stabilization-systems-persistency-excitation.html01254nas a2200145 4500008004100000245013000041210006900171520065700240653001300897100001600910700001500926700001100941700001700952856013900969 2007 eng d00aUniform stabilization for linear systems with persistency of excitation. The neutrally stable and the double integrator cases0 aUniform stabilization for linear systems with persistency of exc3 aConsider the controlled system $dx/dt = Ax + \alpha(t)Bu$ where the pair $(A,B)$ is stabilizable and $\alpha(t)$ takes values in $[0,1]$ and is persistently exciting. In particular, when $\alpha(t)$ becomes zero the system dynamics switches to an uncontrollable system. In this paper, we address the following question: is it possible to find a linear time-invariant state-feedback, only depending on $(A,B)$ and the parameters of the persistent excitation, which globally asymptotically stabilizes the system? We give a positive answer to this question for two cases: when $A$ is neutrally stable and when the system is the double integrator.

10aRobotics1 aChaillet, A1 aChitour, Y1 aLor, A1 aSigalotti, M uhttp://www.centropiaggio.unipi.it/publications/uniform-stabilization-linear-systems-persistency-excitation-neutrally-stable-and-double01588nas a2200157 4500008004100000245007200041210006900113260002900182520101900211653001301230100001901243700001101262700001601273700002001289856012101309 2006 eng d00aAdaptive output feedback control of spacecraft relative translation0 aAdaptive output feedback control of spacecraft relative translat aSan Diego, USAcDecember3 aWe address the problem of tracking relative translation in a leader-follower spacecraft formation using feedback from relative position only and under parameter uncertainty (spacecraft mass) and uncertainty in the leader variables (true anomaly rate and rate of change). We only assume boundedness of orbital perturbations and the leader control force but with unknown bounds. Under these conditions we propose a controller that renders the closed-loop system, uniformly semiglobally practically asymptotically stable. In particular, the domain of attraction can be made arbitrarily large by picking convenient gains, and the state errors in the closed-loop system are proved to converge from any initial condition within the domain of attraction to a ball in close vicinity of the origin in a stable way; moreover, this ball can be diminished arbitrarily by increasing the gains in the control law. Simulation results of a leader-follower spacecraft formation using the proposed controller are presented.

10aRobotics1 aKristiansen, R1 aLor, A1 aChaillet, A1 aNicklasson, P J uhttp://www.centropiaggio.unipi.it/publications/adaptive-output-feedback-control-spacecraft-relative-translation.html00807nas a2200157 4500008004100000245004200041210004100083260002900124520032800153653001300481100001500494700001600509700001600525700001800541856009000559 2006 eng d00aCascaded lemma for set-stable systems0 aCascaded lemma for setstable systems aSan Diego, USAcDecember3 aA previous result about uniform global asymptotic stability (UGAS) of the equilibrium of a cascaded time-varying systems, is here also shown to hold for closed (not necessarily compact) sets composed by set-stable subsystems of a cascade. In view of this result an optimal control allocation approach is discussed.

10aRobotics1 aTsonnas, J1 aChaillet, A1 aPanteley, E1 aJohansen, T A uhttp://www.centropiaggio.unipi.it/publications/cascaded-lemma-set-stable-systems.html01276nas a2200133 4500008004100000245012000041210006900161260002900230520070800259653001300967100001600980700001100996856013501007 2006 eng d00aA converse Lyapunov theorem for semiglobal practical asymptotic stability and application to cascades-based control0 aconverse Lyapunov theorem for semiglobal practical asymptotic st aSan Diego, USAcDecember3 aWe present a converse Lyapunov result for nonlinear time-varying systems that are uniformly semiglobally asymptotically stable. This stability property pertains to the case when the size of initial conditions may be arbitrarily enlarged and the solutions of the system converge, in a stable way, to a closed ball that may be arbitrarily diminished by tuning a design parameter of the system (typically but not exclusively, a control gain). This result is notably useful in cascaded-based control when uniform practical asymptotic stability is established without a Lyapunov function, , ıt e.g.} via averaging. We provide a concrete example by solving the stabilization problem of a hovercraft.

10aRobotics1 aChaillet, A1 aLor, A uhttp://www.centropiaggio.unipi.it/publications/converse-lyapunov-theorem-semiglobal-practical-asymptotic-stability-and-application00424nas a2200109 4500008004100000245001000041210001000051260002700061520014800088100001600236856006200252 2006 eng d00aEstim0 aEstim aBordeaux, FrancecJune3 aPour les systèmes non-linéaires, il est connu que la propriété de stabilité asymptotique est conservée par la structure de cascade. Le pr1 aChaillet, A uhttp://www.centropiaggio.unipi.it/publications/estim.html00930nas a2200133 4500008004100000245005900041210005900100260002300159520046700182653001300649100001600662700001400678856010400692 2006 eng d00aIntegral Input to State Stability for cascaded systems0 aIntegral Input to State Stability for cascaded systems aKyoto, JapancJuly3 aThe Integral Input to State Stability (iISS) property is studied is the context of nonlinear time-invariant systems in cascade. A sufficient condition is given, in terms of the storage function of each subsystem, to ensure that the cascade composed of an iISS system driven by a Globally Asymptotically Stable (GAS) one remains GAS. Some sufficient conditions for the preservation of the iISS property under a cascade interconnection are also presented.

10aRobotics1 aChaillet, A1 aAngeli, D uhttp://www.centropiaggio.unipi.it/publications/integral-input-state-stability-cascaded-systems.html01662nas a2200157 4500008004100000245012700041210006900168260001300237300001400250490000700264520105600271653001301327100001601340700001101356856013701367 2006 eng d00aNecessary and sufficient conditions for uniform semiglobal practical asymptotic stability: Application to cascaded systems0 aNecessary and sufficient conditions for uniform semiglobal pract cNovember a1899-19060 v423 aIt is well established that for a cascade of two uniformly globally asymptotically stable (UGAS) systems, the origin remains UGAS provided that the solutions of the cascade are uniformly globally bounded. While this result has met considerable popularity in specific applications it remains restrictive since, in practice, it is often the case that the decoupled subsystems are only uniformly \emph{semiglobally} \emph{practically} asymptotically stable (USPAS). Recently, we established that the cascade of USPAS systems is USPAS under a local boundedness assumption and the hypothesis that one knows a Lyapunov function for the driven subsystem. The contribution of this paper is twofold: 1) we establish USPAS of cascaded systems without the requirement of a Lyapunov function and 2) we present a converse theorem for USPAS. While other converse theorems in the literature cover the case of USPAS ours has the advantage of providing a bound on the gradient of the Lyapunov function, which is fundamental to establish theorems for cascades.

10aRobotics1 aChaillet, A1 aLor, A uhttp://www.centropiaggio.unipi.it/publications/necessary-and-sufficient-conditions-uniform-semiglobal-practical-asymptotic-stability02196nas a2200169 4500008004100000245009400041210006900135260003700204300001400241520155400255653001301809100001901822700001101841700001601852700002001868856013801888 2006 eng d00aOutput feedback control of relative translation in a leader-follower spacecraft formation0 aOutput feedback control of relative translation in a leaderfollo aTromsoe, NorwaybSpringer Verlag a131–1513 aWe present a solution to the problem of tracking relative translation in a leader-follower spacecraft formation using feedback from relative position only. Three controller configurations are presented which enables the follower spacecraft to track a desired reference trajectory relative to the leader. The controller design is performed for different levels of knowledge about the leader spacecraft and its orbit. The first controller assumes perfect knowledge of the leader and its orbital parameters, and renders the equilibrium points of the closed-loop system uniformly globally asymptotically stable (UGAS). The second controller uses the framework of the first to render the closed-loop system uniformly globally practically asymptotically stable (UGPAS), with knowledge of bounds on some orbital parameters, only. That is, the state errors in the closed-loop system are proved to converge from any initial conditions to a ball in close vicinity of the origin in a stable way, and this ball can be diminished arbitrarily by increasing the gains in the control law. The third controller, based on the design of the second, utilizes adaptation to estimate the bounds that were previously assumed to be known. The resulting closed-loop system is proved to be uniformly semiglobally practically asymptotically stable (USPAS). The last two controllers assume boundedness only of orbital perturbations and the leader control force. Simulation results of a leader-follower spacecraft formation using the proposed controllers are presented.

10aRobotics1 aKristiansen, R1 aLor, A1 aChaillet, A1 aNicklasson, P J uhttp://www.centropiaggio.unipi.it/publications/output-feedback-control-relative-translation-leader-follower-spacecraft-formation.html01192nas a2200145 4500008004100000245008400041210006900125260002900194520064500223653001300868100001600881700001100897700001300908856012500921 2006 eng d00aRobustness of PID controlled manipulators with respect to external disturbances0 aRobustness of PID controlled manipulators with respect to extern aSan Diego, USAcDecember3 aWe present a robustness analysis for PID-controlled robot manipulators. For robot manipulators under the influence of external disturbances we provide a proof, and a tuning procedure, to establish uniform semiglobal practical asymptotic stability. In particular, in contrasts to other works on robust stability of PIDs, we do not use La Salle's principle but provide a strict Lyapunov function. The perturbations that we consider include discontinuous functions of the state, such as Coulomb friction. As corollaries of our main results, one may conclude the same stability property for the case of motion control using linear PID.

10aRobotics1 aChaillet, A1 aLor, A1 aKelly, R uhttp://www.centropiaggio.unipi.it/publications/robustness-pid-controlled-manipulators-respect-external-disturbances.html00514nas a2200109 4500008004100000245009000041210006900131260003600200653001300236100001600249856013900265 2006 eng d00aOn stability and robustness of nonlinear systems – Applications to cascaded systems0 astability and robustness of nonlinear systems Applications to ca aOrsay, FrancebUniversitcJully10aRobotics1 aChaillet, A uhttp://www.centropiaggio.unipi.it/publications/stability-and-robustness-nonlinear-systems-%E2%80%93-applications-cascaded-systems.html01143nas a2200133 4500008004100000245005500041210005500096260002300151520069300174653001300867100001600880700001600896856009700912 2006 eng d00aStability of sets for nonlinear systems in cascade0 aStability of sets for nonlinear systems in cascade aKyoto, JapancJuly3 aThe stability of (not necessarily compact) sets for nonlinear systems in cascade is addressed. It is proved that if two sets are globally asymptotically stable (GAS) for the subsystems taken separately then their cross-product is GAS for the corresponding cascade, provided that the solutions of the latter are globally bounded. In the case of a suitable growth rate of the interconnection in the state of the driven subsystem, we show that this latter requirement can be relaxed to just forward completeness of the cascade. Our results extend similar results on the stability analysis of cascaded systems and find applications in partial stability analysis and adaptive control.

10aRobotics1 aChaillet, A1 aPanteley, E uhttp://www.centropiaggio.unipi.it/publications/stability-sets-nonlinear-systems-cascade.html00963nas a2200121 4500008004100000245009100041210006900132260002400201520045100225653001300676100001600689856013600705 2006 eng d00aTools for semiglobal practical stability analysis of cascaded systems and applications0 aTools for semiglobal practical stability analysis of cascaded sy aParis, FrancecJuly3 aWe present sufficient conditions for semiglobal and/or practical stability in terms of Lyapunov-like functions. Based on this, we provide a result for the stability analysis of cascaded systems. A converse result is also presented for a particular class of uniformly semiglobally practically asymptotically stable systems. We briefly show the usefulness of these results through various applications in the control of mechanical systems.

10aRobotics1 aChaillet, A uhttp://www.centropiaggio.unipi.it/publications/tools-semiglobal-practical-stability-analysis-cascaded-systems-and-applications.html00947nas a2200133 4500008004100000245008600041210006900127490000700196520043600203653001300639100001600652700001100668856013400679 2006 eng d00aUniform global practical asymptotic stability for non-autonomous cascaded systems0 aUniform global practical asymptotic stability for nonautonomous 0 v123 aThis paper aims to give sufficient conditions for a cascade composed of nonlinear time-varying systems that are uniformly globally practically asymptotically stable (UGPAS) to be UGPAS. These conditions are expressed as relations between the Lyapunov function of the driven subsystem and the interconnection term. Our results generalise previous theorems that establish the uniform global asymptotic stability of cascades.

10aRobotics1 aChaillet, A1 aLor, A uhttp://www.centropiaggio.unipi.it/publications/uniform-global-practical-asymptotic-stability-non-autonomous-cascaded-systems.html00941nas a2200133 4500008004100000245007500041210006900116260002300185520043600208653001300644100001600657700001100673856012300684 2006 eng d00aUniform Global Practical Stability for non-autonomous cascaded systems0 aUniform Global Practical Stability for nonautonomous cascaded sy aKyoto, JapancJuly3 aThis paper aims to give sufficient conditions for a cascade composed of nonlinear time-varying systems that are uniformly globally practically asymptotically stable (UGPAS) to be UGPAS. These conditions are expressed as relations between the Lyapunov function of the driven subsystem and the interconnection term. Our results generalize previous theorems that establish the uniform global asymptotic stability of cascades.

10aRobotics1 aChaillet, A1 aLor, A uhttp://www.centropiaggio.unipi.it/publications/uniform-global-practical-stability-non-autonomous-cascaded-systems.html01072nas a2200169 4500008004100000245005700041210005500098260003700153300001400190520051600204653001300720100001600733700001600749700001600765700001700781856010400798 2006 eng d00aA virtual vehicle approach to underway replenishment0 avirtual vehicle approach to underway replenishment aTromsoe, NorwaybSpringer Verlag a171–1893 aThe problem of coordinated control of a leader-follower system is solved using a virtual vehicle approach to alleviate information requirements on the leader. The virtual vehicle stabilizes to a shifted reference position/heading defined by the leader, and provides a reference velocity for the synchronization control law of the follower. Only position/heading measurements are available from the leader, and the closed-loop errors are shown to be uniformly globally practically asymptotically stable.

10aRobotics1 aKyrkjebo, E1 aPanteley, E1 aChaillet, A1 aPettersen, K uhttp://www.centropiaggio.unipi.it/publications/virtual-vehicle-approach-underway-replenishment.html00881nas a2200121 4500008004100000245005400041210005400095520046700149653001300616100001600629700001400645856010000659 2005 eng d00aIntegral Input to State Stable systems in cascade0 aIntegral Input to State Stable systems in cascade3 aThe Integral Input to State Stability (iISS) property is studied is the context of nonlinear time-invariant systems in cascade. A sufficient condition is given, in terms of the storage function of each subsystem, to ensure that the cascade composed of an iISS system driven by a Globally Asymptotically Stable (GAS) one remains GAS. Some sufficient conditions for the preservation of the iISS property under a cascade interconnection are also presented.

10aRobotics1 aChaillet, A1 aAngeli, D uhttp://www.centropiaggio.unipi.it/publications/integral-input-state-stable-systems-cascade.html01386nas a2200157 4500008004100000245008200041210006900123260003300192520080200225653001301027100002301040700001601063700001101079700001601090856012201106 2005 eng d00aOutput feedback control via adaptive observers with persistency of excitation0 aOutput feedback control via adaptive observers with persistency aPraha, Tcheck RepubliccJuly3 aWe address the problem of adaptive observer design for nonlinear time-varying systems which can be transformed in the so-called output feedback form (linear in the unmeasured variables). The observer design follows up previous work on adaptive observers for linear systems and has the form of the classical Luenberger observers for linear systems except that the observer gain is time-varying. A specific form of persistency of excitation is imposed to guarantee the convergence of the (state and parameter) estimation errors. As for the output feedback loop, we proceed using a cascade approach, i.e., we impose the appropriate conditions so that the closed loop system has a cascaded structure. Uniform global asymptotic stability may then be concluded based on cascaded systems theory.

10aRobotics1 aDe Leon Morales, J1 aChaillet, A1 aLor, A1 aBesancon, G uhttp://www.centropiaggio.unipi.it/publications/output-feedback-control-adaptive-observers-persistency-excitation.html01634nas a2200169 4500008004100000245009200041210006900133260002900202300001600231520101300247653001301260100001101273700001601284700001601300700001501316856013301331 2005 eng d00aOn the PE stabilization of time-varying systems: open questions and preliminary answers0 aPE stabilization of timevarying systems open questions and preli aSevilla, SpaincDecember a6847–68523 aWe address the following fundamental question: given a double integrator and a linear control that stabilizes it exponentially, is it possible to use the {\em same} control input in the case that the control input is multiplied by a time-varying term? Such question has many interesting motivations and generalizations: 1) we can pose the same problem for an input gain that depends on the state and time hence, a specific persistency of excitation property for nonlinear systems must be imposed; 2) the stabilization –with the same method– of chains of integrators of higher order than two is fundamentally more complex and has applications in the stabilization of driftless systems; 3) the popular backstepping method stabilization method for systems with non-invertible input terms. The purpose of this note is two-fold: we present some open questions that we believe are significant in time-varying stabilization and present some preliminary answers for simple, yet challenging case-studies.

10aRobotics1 aLor, A1 aChaillet, A1 aBesancon, G1 aChitour, Y uhttp://www.centropiaggio.unipi.it/publications/pe-stabilization-time-varying-systems-open-questions-and-preliminary-answers.html00537nas a2200121 4500008004100000245010000041210006900141260003300210653001300243100001600256700001100272856013200283 2005 eng d00aUniform Semiglobal Practical Asymptotic Stability for nonlinear time-varying systems in cascade0 aUniform Semiglobal Practical Asymptotic Stability for nonlinear aPraha, Tcheck RepubliccJuly10aRobotics1 aChaillet, A1 aLor, A uhttp://www.centropiaggio.unipi.it/publications/uniform-semiglobal-practical-asymptotic-stability-nonlinear-time-varying-systems