Submodularity in Dynamics and Control of Networked Systems

Clark, Andrew; Alomair, Basel; Bushnell, Linda; Poovendran, Radha

doi:10.1007/978-3-319-26977-1

Cited by 41 publications

(33 citation statements)

References 96 publications

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“…Based on Theorem 1, the attacker-detector game is defined as follows: 4 Note that the action of the attacker is to choose matrix B and the value of the attack signal w(t) is not a decision variable.…”

Section: Problem Definitionmentioning

confidence: 99%

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A Game-theoretic Framework for Security-aware Sensor Placement Problem in Networked Control Systems

Pirani

Nekouei

Johansson

2019

2019 American Control Conference (ACC)

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This paper studies the sensor placement problem in a networked control system for improving its security against cyber-physical attacks. The problem is formulated as a zerosum game between an attacker and a detector. The attacker's decision is to select f nodes of the network to attack whereas the detector's decision is to place f sensors to detect the presence of the attack signals. In our formulation, the attacker minimizes its visibility, defined as the system L2 gain from the attack signals to the deployed sensors' outputs, and the detector maximizes the visibility of the attack signals. The equilibrium strategy of the game determines the optimal locations of the sensors. The existence of Nash equilibrium for the attacker-detector game is studied when the underlying connectivity graph is a directed or an undirected tree. When the game does not admit a Nash equilibrium, it is shown that the Stackelberg equilibrium of the game, with the detector as the game leader, can be computed efficiently. Finally, the attacker-detector game is studied in a cooperative adaptive cruise control algorithm for vehicle platooning problem. The existence of Nash equilibrium is investigated for both directed and undirected platoons and the effect of the position of the reference vehicle on the game value is studied. Our results show that, under the optimal sensor placement strategy, an undirected topology provides a higher security level for a networked control system compared with its corresponding directed topology.

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Section: Problem Definitionmentioning

confidence: 99%

“…Leader-follower systems have diverse applications from multi-agent formation control and vehicle platooning[8] to opinion dynamics in social networks[4].…”

mentioning

confidence: 99%

A Game-theoretic Framework for Security-aware Sensor Placement Problem in Networked Control Systems

Pirani

Nekouei

Johansson

2019

2019 American Control Conference (ACC)

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“…Examples include Kalman rank conditions [1]- [5], controllability and observability Gramians [6]- [12], and optimal and robust feedback control and estimation performance metrics [13]- [20]. Topology design problems have also been considered for specific classes of networks, including leader selection and communication network design [21], [22]. Various optimization methods have been proposed for topology design, including greedy algorithms [8], [9], [17], [18], [21], convex relaxation heuristics with sparsity inducing regularization [13]- [16], [23], and mixed-integer semidefinite programming methods [19], [20].…”

Section: Introductionmentioning

confidence: 99%

Performance guarantees for greedy maximization of non-submodular controllability metrics

Summers¹,

Kamgarpour

2019

2019 18th European Control Conference (ECC)

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A key problem in emerging complex cyberphysical networks is the design of information and control topologies, including sensor and actuator selection and communication network design. These problems can be posed as combinatorial set function optimization problems to maximize a dynamic performance metric for the network. Some systems and control metrics feature a property called submodularity, which allows simple greedy algorithms to obtain provably nearoptimal topology designs. However, many important metrics lack submodularity and therefore lack provable guarantees for using a greedy optimization approach. Here we show that performance guarantees can be obtained for greedy maximization of certain non-submodular functions of the controllability and observability Gramians. Our results are based on two key quantities: the submodularity ratio, which quantifies how far a set function is from being submodular, and the curvature, which quantifies how far a set function is from being supermodular.

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“…However, the developed observer is required to be augmented with a module to address reliability of the estimation setup. The proposed module is inspired by the opinion dynamics model [16], [17]. A four-node network is considered, whose members are four corners of the vehicle with estimated states as their opinions, each having a confidence level based on the corresponding corner's slip condition.…”

Section: Introductionmentioning

confidence: 99%

Distributed robust vehicle state estimation

Hashemi

Pirani

Fi̇dan

et al. 2017

2017 IEEE Intelligent Vehicles Symposium (IV)

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Abstract-A distributed estimation approach based on opinion dynamics is proposed to enhance the reliability of vehicle corners' velocity estimates, which are obtained by an unscented Kalman filter. The corners' estimates from a Kalman observer, which is formed by integrating the model-based and kinematic-based velocity estimation approaches, are utilized as opinions with different levels of confidence in the developed algorithm. More reliable estimates robust to disturbances and time delay are achieved via solving a convex optimization problem. Road tests confirm the robustness of the methods independent of the powertrain configuration on surfaces with various friction conditions in pure and combined-slip maneuvers, which are arduous for the current vehicle state estimators.

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Submodularity in Dynamics and Control of Networked Systems

Cited by 41 publications

References 96 publications

A Game-theoretic Framework for Security-aware Sensor Placement Problem in Networked Control Systems

A Game-theoretic Framework for Security-aware Sensor Placement Problem in Networked Control Systems

Performance guarantees for greedy maximization of non-submodular controllability metrics

Distributed robust vehicle state estimation

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