Positive and Monotone Systems

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History of Control, 2012, Lund May 29, 2012

Outline. 1 Positive Systems Definition Fathers Occurrence Example Publications. 2 Monotone Systems Definition Early days Publications

Positive System A continuous linear time-invariant system { ẋ(t) = Ax(t) + Bu(t), y(t) = Cx(t) + Du(t), with x R n, u R m and y R k, is called (internally) positive if and only if its state and output are nonnegative for every nonnegative input and every nonnegative initial state.. Theorem: Positivity [Luenberger, D. G., 1979]. A (cont.) linear system (A, B, C, D) is positive if and only if A is a Metzler-matrix. and B, C, D 0.

Fathers of positive systems: Perron & Frobenius Key result: Perron-Frobenius Theorem (1849-1917) (1880-1975)

Occurrence of Positive systems [...]the positivity property just defined, is always nothing but the immediate consequence of the nature of the phenomenon we are dealing with. A huge number of examples are just before our eyes. [Farina, L., 2002] Network flows: traffic, transport, etc. Social science: population models Biology/Medicine: nitrade models, proteins, etc. Economy: stochastic models, markov jump systems, etc. Discretization of PDEs: heat equation

Example: Compartmental Network a) b) I i Ij C 1 k ij C i C j k ji C 3 C 5 k o,i k o,j C 2 C 4 C 6 ẋ i (t) = k o,i x i (t) + n [k ij x j (t) k ji x i (t)] + j i m b ij u j (t) j=1 } {{ } I i :=

Publications: till 1999 Scopus: 70 publications mentioning positive systems. Important ones: Introduction to Dynamic Systems: Theory, Models & Applications. (Luenberger 1979, Wiley) Reachability, observability and realizability of continuous-time positive systems. (Ohta 1984, SIAM) Nonnegative Matrices in Dynamical Systems (Berman 1989, Wiley) Robust stability of positive differentiable linear systems (Son, Hinrichsen 1995, CDC) However, the term positive system was and is still not commonly used: Lyapunov Functions for Diagonally Dominant Systems. (Willems 1976, Automatica)

Publications: 2000 - today Scopus: 300 publications mentioning positive systems. Important ones: Positive Linear Systems (Farina 2000, Wiley) Stabilization of positive linear systems (De Leenheer 2001, Systems & Control Letters) Stability of continuous-time distributed consensus algorithms (Moreau 2008, CDC) In Europe most of the research in Italy and Belgium, but also some in Lund: Distributed control of positive systems (Rantzer 2011, CDC) Some result on model reduction of positive systems (Aivar and myself 2012) But much theory hidden in the application, i.a. Love dynamics: The case of linear couples (Rinaldi 1998, Applied Mathematics and Computations)

Still missing Difficult to solve and still missing: Transfer of the SISO-theory to MIMO. Adequate realization algorithms. So far some attempts, however under highly conservative restrictions - pretty messy theory!

Monotone System Let ϕ : X V V, where V is a real Banach space with an (partial) ordering x y or a strongly ordering x y. A dynamical system, with solution flow ϕ, is called monotone if ϕ t x ϕ t y for t 0 and x y and strongly monotone if ϕ t x ϕ t y for t > 0 and x y. Proto-type: Cooperative system, which is the solution flow to a vector field F such that F i x j 0 for i j. If x i denotes the population of a species i, then cooperative means, that an increase of x i causes an increase in x j.

Early days: Hirsch, Smith & Smale Key result: Convergence almost everywhere for strongly ordered systems (Hirsch 1981) (Born 1930) (Born 1933)

Publications: till 1999 Scopus: 230 publications mentioning monotone and cooperative systems. Among many convergence results: Cooperative systems of differential equations with concave nonlinearities (Smith 1985) Stability and convergence in strongly monotone dynamical systems (Hirsch 1988)

Publications: 2000 - today Scopus: 1600 publications mentioning monotone and cooperative systems. Important ones: Monotone control systems (Angeli, Sontag 2003, IEEE TAC) Monotone Dynamical Systems - Chapter 4, Handbook of Differential Equations (Hirsch, Smith 2005) Nowadays most attention on: Communication, Coordination and Biology. IFAC2005: 30 contributions (5 on positive systems) IFAC2008: 30 contributions (3 on positive systems) IFAC2011: 40 contributions (4 on positive systems)

Acknowledgement: Some of the pictures in this presentation origin from the The Oberwolfach Photo Collection - Photographs of Mathematicians from all over the world.

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