Aggregates of Positive Impulse Response systems: a decomposition approach for complex networks

Franco Blanchini; Christian Cuba Samaniego; Elisa Franco; Giulia Giordano

doi:10.1109/CDC.2017.8263939

Aggregates of Positive Impulse Response systems: a decomposition approach for complex networks

Franco Blanchini, Christian Cuba Samaniego, Elisa Franco, Giulia Giordano

Department of Automatic Control

Research output: Chapter in Book/Report/Conference proceeding › Paper in conference proceeding › peer-review

Abstract

To simplify the analysis of complex dynamical networks, we have recently proposed an approach that decomposes the overall system into the sign-definite interconnection of subsystems with a Positive Impulse Response (PIR). PIR systems include and significantly generalise input-output monotone systems, and the PIR property (or equivalently, for linear systems, the Monotonic Step Response property) can be evinced from experimental data, without an explicit model of the system. An aggregate of PIR subsystems can be associated with a signed matrix of interaction weights, hence with a signed graph where the nodes represent the subsystems and the arcs represent the interactions among them. In this paper, we prove that stability is structurally ensured (for any choice of the PIR subsystems) if a Metzler matrix depending on the interaction weights is Hurwitz; this condition is non-conservative. We also show how to compute an influence matrix that represents the steady-state effects of the interactions among PIR subsystems.

Original language	English
Title of host publication	Proceedings of the 56th IEEE Conference on Decision and Control
Publisher	IEEE - Institute of Electrical and Electronics Engineers Inc.
DOIs	https://doi.org/10.1109/CDC.2017.8263939
Publication status	Published - 2018 Jan
Event	56th IEEE Annual Conference on Decision and Control, CDC 2017 - Melbourne, Australia Duration: 2017 Dec 12 → 2017 Dec 15 Conference number: 56 http://cdc2017.ieeecss.org/

Conference

Conference	56th IEEE Annual Conference on Decision and Control, CDC 2017
Abbreviated title	CDC 2017
Country/Territory	Australia
City	Melbourne
Period	2017/12/12 → 2017/12/15
Internet address	http://cdc2017.ieeecss.org/

Subject classification (UKÄ)

Control Engineering

Access to Document

10.1109/CDC.2017.8263939

Cite this

@inproceedings{076853130d9645e88211c3e87d4f9311,

title = "Aggregates of Positive Impulse Response systems: a decomposition approach for complex networks",

abstract = "To simplify the analysis of complex dynamical networks, we have recently proposed an approach that decomposes the overall system into the sign-definite interconnection of subsystems with a Positive Impulse Response (PIR). PIR systems include and significantly generalise input-output monotone systems, and the PIR property (or equivalently, for linear systems, the Monotonic Step Response property) can be evinced from experimental data, without an explicit model of the system. An aggregate of PIR subsystems can be associated with a signed matrix of interaction weights, hence with a signed graph where the nodes represent the subsystems and the arcs represent the interactions among them. In this paper, we prove that stability is structurally ensured (for any choice of the PIR subsystems) if a Metzler matrix depending on the interaction weights is Hurwitz; this condition is non-conservative. We also show how to compute an influence matrix that represents the steady-state effects of the interactions among PIR subsystems.",

author = "Franco Blanchini and {Cuba Samaniego}, Christian and Elisa Franco and Giulia Giordano",

year = "2018",

month = jan,

doi = "10.1109/CDC.2017.8263939",

language = "English",

booktitle = "Proceedings of the 56th IEEE Conference on Decision and Control",

publisher = "IEEE - Institute of Electrical and Electronics Engineers Inc.",

address = "United States",

note = "56th IEEE Annual Conference on Decision and Control, CDC 2017, CDC 2017 ; Conference date: 12-12-2017 Through 15-12-2017",

url = "http://cdc2017.ieeecss.org/",

}

Blanchini, F, Cuba Samaniego, C, Franco, E & Giordano, G 2018, Aggregates of Positive Impulse Response systems: a decomposition approach for complex networks. in Proceedings of the 56th IEEE Conference on Decision and Control. IEEE - Institute of Electrical and Electronics Engineers Inc., 56th IEEE Annual Conference on Decision and Control, CDC 2017, Melbourne, Australia, 2017/12/12. https://doi.org/10.1109/CDC.2017.8263939

Aggregates of Positive Impulse Response systems: a decomposition approach for complex networks. / Blanchini, Franco; Cuba Samaniego, Christian; Franco, Elisa et al.
Proceedings of the 56th IEEE Conference on Decision and Control. IEEE - Institute of Electrical and Electronics Engineers Inc., 2018.

Research output: Chapter in Book/Report/Conference proceeding › Paper in conference proceeding › peer-review

TY - GEN

T1 - Aggregates of Positive Impulse Response systems: a decomposition approach for complex networks

AU - Blanchini, Franco

AU - Cuba Samaniego, Christian

AU - Franco, Elisa

AU - Giordano, Giulia

N1 - Conference code: 56

PY - 2018/1

Y1 - 2018/1

N2 - To simplify the analysis of complex dynamical networks, we have recently proposed an approach that decomposes the overall system into the sign-definite interconnection of subsystems with a Positive Impulse Response (PIR). PIR systems include and significantly generalise input-output monotone systems, and the PIR property (or equivalently, for linear systems, the Monotonic Step Response property) can be evinced from experimental data, without an explicit model of the system. An aggregate of PIR subsystems can be associated with a signed matrix of interaction weights, hence with a signed graph where the nodes represent the subsystems and the arcs represent the interactions among them. In this paper, we prove that stability is structurally ensured (for any choice of the PIR subsystems) if a Metzler matrix depending on the interaction weights is Hurwitz; this condition is non-conservative. We also show how to compute an influence matrix that represents the steady-state effects of the interactions among PIR subsystems.

AB - To simplify the analysis of complex dynamical networks, we have recently proposed an approach that decomposes the overall system into the sign-definite interconnection of subsystems with a Positive Impulse Response (PIR). PIR systems include and significantly generalise input-output monotone systems, and the PIR property (or equivalently, for linear systems, the Monotonic Step Response property) can be evinced from experimental data, without an explicit model of the system. An aggregate of PIR subsystems can be associated with a signed matrix of interaction weights, hence with a signed graph where the nodes represent the subsystems and the arcs represent the interactions among them. In this paper, we prove that stability is structurally ensured (for any choice of the PIR subsystems) if a Metzler matrix depending on the interaction weights is Hurwitz; this condition is non-conservative. We also show how to compute an influence matrix that represents the steady-state effects of the interactions among PIR subsystems.

U2 - 10.1109/CDC.2017.8263939

DO - 10.1109/CDC.2017.8263939

M3 - Paper in conference proceeding

BT - Proceedings of the 56th IEEE Conference on Decision and Control

PB - IEEE - Institute of Electrical and Electronics Engineers Inc.

T2 - 56th IEEE Annual Conference on Decision and Control, CDC 2017

Y2 - 12 December 2017 through 15 December 2017

ER -

Aggregates of Positive Impulse Response systems: a decomposition approach for complex networks

Abstract

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