Graph-theoretic analysis of network input-output processes: zero structure and its implications on remote feedback control
From MaRDI portal
Publication:900653
DOI10.1016/J.AUTOMATICA.2015.07.034zbMath1327.93035OpenAlexW1828546775MaRDI QIDQ900653
Sandip Roy, Jackeline Abad Torres
Publication date: 22 December 2015
Published in: Automatica (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.automatica.2015.07.034
Design techniques (robust design, computer-aided design, etc.) (93B51) Applications of graph theory to circuits and networks (94C15) Large-scale systems (93A15) Stability of control systems (93D99)
Related Items (5)
An overview of structural systems theory ⋮ Dominant eigenvalue minimization with trace preserving diagonal perturbation: subset design problem ⋮ Control‐channel interactions in diffusive dynamical networks: A graph‐theoretic perspective ⋮ Graph-theoretic analysis of network input-output processes: zero structure and its implications on remote feedback control ⋮ A two-layer transformation for zeros analysis of networked dynamical systems
Cites Work
- Unnamed Item
- Unnamed Item
- Graph-theoretic analysis of network input-output processes: zero structure and its implications on remote feedback control
- Linear systems theory. A structural decomposition approach.
- Performance limitations of non-minimum phase systems in the servomechanism problem
- Connection graph stability method for synchronized coupled chaotic systems
- A novel proof of the Souriau-Frame-Faddeev algorithm
- Right half plane poles and zeros and design tradeoffs in feedback systems
- Special coordinate basis for multivariable linear systems—finite and infinite zero structure, squaring down and decoupling
- The optimal linear-quadratic time-invariant regulator with cheap control
- Multivariable Control
- Multivariate root loci: a unified approach to finite and infinite zeros
- Limitations on maximal tracking accuracy
- On time-scale designs for networks
- Collective dynamics of ‘small-world’ networks
- Graph-theoretic characterisations of zeros for the input–output dynamics of complex network processes
- The maximally achievable accuracy of linear optimal regulators and linear optimal filters
This page was built for publication: Graph-theoretic analysis of network input-output processes: zero structure and its implications on remote feedback control
