Sonja Stüdli scite author profile

Motivated by the problems of charging a number of electric vehicles via limited capacity infrastructure, this article considers the problem of individual load adjustment under a total capacity constraint. For reasons of scalability and simplified communications, distributed solutions to this problem are sought. Borrowing from communication networks (AIMD algorithms) and distributed convex optimisation, we describe a number of distributed algorithms for achieving relative average fairness whilst maximising utilisation. We present analysis and simulation results to show the performance of these algorithms. In the scenarios examined, the algorithm's performance is typically within 5% of that achievable in the ideal centralised case, but with greatly enhanced scalability and reduced communication requirements.

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From vehicular platoons to general networked systems: String stability and related concepts

Stüdli

Serón

Middleton

2017

Annual Reviews in Control

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Networked systems and their control are highly important and appear in a variety of applications, including vehicle platooning and formation control. Especially vehicle platoons have been intensively investigated. An interesting problem that arises in this area is string stability, which broadly speaking means that an input signal amplifies unboundedly as it travels through the vehicle string. However, various, not necessarily equivalent, definitions are commonly used. In this paper, we aim to formalise the notion of string stability and illustrate the importance of those distinctions on simulation examples. A second goal is to extend the definitions to general networked systems.

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Nonhomogeneous Place-dependent Markov Chains, Unsynchronised AIMD, and Optimisation

Wirth

Stüdli

et al. 2019

J. ACM

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We present a solution of a class of network utility maximization (NUM) problems using minimal communication. The constraints of the problem are inspired less by TCP-like congestion control but by problems in the area of internet of things and related areas in which the need arises to bring the behavior of a large group of agents to a social optimum. The approach uses only intermittent feedback, no inter-agent communication, and no common clock.The proposed algorithm is a combination of the classical AIMD algorithm in conjunction with a simple probabilistic rule for the agents to respond to a capacity signal. This leads to a nonhomogeneous Markov chain and we show almost sure convergence of this chain to the social optimum.

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Electric and Plug-in Hybrid Vehicle Networks

Crisostomi¹,

Shorten²,

Stüdli³

et al. 2017

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Optimal real-time distributed V2G and G2V management of electric vehicles

Stüdli

Crisostomi

Middleton

et al. 2014

International Journal of Control

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This paper exploits the analogy between the electrical grid and modern communication networks to implement Electric Vehicle (EV) battery charging scheduling algorithms inspired by popular communication network techniques. In preliminary works, a similar approach was used to manage the Grid-to-Vehicle (G2V) active power flows. In this paper, we extend this framework to both implement the Vehicle-to-Grid (V2G) concept and to provide reactive power compensation capabilities that do not affect charging times. The ability of the proposed algorithms to optimally share the available/desired power in a fair way, with minimum communication requirements, in a very uncertain, dynamically changing framework, is illustrated through several examples for different scenarios of interest.

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Sonja Stüdli

A flexible distributed framework for realising electric and plug-in hybrid vehicle charging policies

From vehicular platoons to general networked systems: String stability and related concepts

Nonhomogeneous Place-dependent Markov Chains, Unsynchronised AIMD, and Optimisation

Electric and Plug-in Hybrid Vehicle Networks

Optimal real-time distributed V2G and G2V management of electric vehicles

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