Lower Bounded Control-Lyapunov Functions

Abstract: Abstract. The well known Brockett condition -a topological obstruction to the existence of smooth stabilizing feedback laws -has engendered a large body of work on discontinuous feedback stabilization. The purpose of this paper is to introduce a class of control-Lyapunov function from which it is possible to specify a (possibly discontinuous) stabilizing feedback law. For control-affine systems with unbounded controls Sontag has described a Lyapunov pair which gives rise to an explicit stabilizing feedback law… Show more

“…Specifically, as will be seen later in the paper, the requirement that there exists z 2 L G VðxÞ such that, for all u 2 R m ; max½L G VðxÞu ¼ zu holds if and only if L G VðxÞ is a singleton. Specifically, for systems of the form (11), note that L f þGu VðxÞ L f VðxÞ þ L G VðxÞu for almost all x and all u, and hence, inf u2U ½max L f VðxÞ þ L G VðxÞu ¼ À1 when x 6 2 R and x 6 ¼ 0, whereas inf u2U ½max L f VðxÞ þ L G VðxÞu < 0 for almost all x 2 R. Hence, Eq. Then, either q À z 6 ¼ 0 or r À z 6 ¼ 0.…”

“…0 (11) where f : R n ! Specifically, we consider discontinuous nonlinear affine dynamical systems of the form _ xðtÞ ¼ f ðxðtÞÞ þ GðxðtÞÞuðtÞ; xð0Þ ¼ x 0 ; a:e: t !…”

“…Finally, we assume that the set L G VðxÞ is single-valued 2 for almost all x 2 R n and that L G VðxÞ 6 ¼ ; at all other points x. (11) if and only if max L f VðxÞ < 0; a:e: x 2 R; (12) where R ¼ D fx 2 R n nf0g : L G VðxÞ ¼ 0g. Specifically, as will be seen later in the paper, the requirement that there exists z 2 L G VðxÞ such that, for all u 2 R m ; max½L G VðxÞu ¼ zu holds if and only if L G VðxÞ is a singleton.…”

“…Furthermore, Rifford [10] addresses the problem of stabilization of globally asymptotically controllable systems wherein the system vector field is locally Lipschitz continuous in the state and uniformly in the control. [11] also provides discontinuous controllers using a Filippov solution framework; however, Hirschorn [11] uses a special closed lower bounded control Lyapunov function which we also do not require here. However, we will not need to consider semiconcavity in what follows.…”

“…[9][10][11][12] to develop a constructive universal feedback control law for discontinuous dynamical systems based on the existence of a nonsmooth control Lyapunov function defined in the sense of generalized Clarke gradients [13] and set-valued Lie derivatives [14]. [9][10][11][12] to develop a constructive universal feedback control law for discontinuous dynamical systems based on the existence of a nonsmooth control Lyapunov function defined in the sense of generalized Clarke gradients [13] and set-valued Lie derivatives [14].…”

A Universal Feedback Controller for Discontinuous Dynamical Systems Using Nonsmooth Control Lyapunov Functions

“…Specifically, as will be seen later in the paper, the requirement that there exists z 2 L G VðxÞ such that, for all u 2 R m ; max½L G VðxÞu ¼ zu holds if and only if L G VðxÞ is a singleton. Specifically, for systems of the form (11), note that L f þGu VðxÞ L f VðxÞ þ L G VðxÞu for almost all x and all u, and hence, inf u2U ½max L f VðxÞ þ L G VðxÞu ¼ À1 when x 6 2 R and x 6 ¼ 0, whereas inf u2U ½max L f VðxÞ þ L G VðxÞu < 0 for almost all x 2 R. Hence, Eq. Then, either q À z 6 ¼ 0 or r À z 6 ¼ 0.…”

“…0 (11) where f : R n ! Specifically, we consider discontinuous nonlinear affine dynamical systems of the form _ xðtÞ ¼ f ðxðtÞÞ þ GðxðtÞÞuðtÞ; xð0Þ ¼ x 0 ; a:e: t !…”

“…Finally, we assume that the set L G VðxÞ is single-valued 2 for almost all x 2 R n and that L G VðxÞ 6 ¼ ; at all other points x. (11) if and only if max L f VðxÞ < 0; a:e: x 2 R; (12) where R ¼ D fx 2 R n nf0g : L G VðxÞ ¼ 0g. Specifically, as will be seen later in the paper, the requirement that there exists z 2 L G VðxÞ such that, for all u 2 R m ; max½L G VðxÞu ¼ zu holds if and only if L G VðxÞ is a singleton.…”

“…Furthermore, Rifford [10] addresses the problem of stabilization of globally asymptotically controllable systems wherein the system vector field is locally Lipschitz continuous in the state and uniformly in the control. [11] also provides discontinuous controllers using a Filippov solution framework; however, Hirschorn [11] uses a special closed lower bounded control Lyapunov function which we also do not require here. However, we will not need to consider semiconcavity in what follows.…”

“…[9][10][11][12] to develop a constructive universal feedback control law for discontinuous dynamical systems based on the existence of a nonsmooth control Lyapunov function defined in the sense of generalized Clarke gradients [13] and set-valued Lie derivatives [14]. [9][10][11][12] to develop a constructive universal feedback control law for discontinuous dynamical systems based on the existence of a nonsmooth control Lyapunov function defined in the sense of generalized Clarke gradients [13] and set-valued Lie derivatives [14].…”

A Universal Feedback Controller for Discontinuous Dynamical Systems Using Nonsmooth Control Lyapunov Functions