2009年, 第22卷, 第1期　刊出日期：2009-03-20

  

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  A NEW STATISTICAL APPROACH FOR THE ANALYSIS OF UNCERTAINSYSTEMS

  Xinjia CHEN;Kemin ZHOU;Jorge ARAVENA

  Journal of Systems Science and Complexity. 2009, 22(1): 1-034.

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  This paper addresses the issues of conservativeness and computational complexity of probabilistic robustness analysis. The authors solve both issues by defining a new sampling strategy and robustness measure. The new measure is shown to be much less conservative than the existing one. The new sampling strategy enables the definition of efficient hierarchical sample reuse algorithms that reduce significantly the computational complexity and make it independent of the dimension of the uncertainty space. Moreover, the authors show that there exists a one to one correspondence between the new and the existing robustness measures and provide a computationally simple algorithm to derive one from the other.
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  $H_\infty$ Control of Networked Multi-Agent Systems

  Zhongkui LI;Zhisheng DUAN;Lin HUANG

  Journal of Systems Science and Complexity. 2009, 22(1): 35-048.

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  This paper concerns the disturbance rejection problem arising in the coordination control of a group of autonomous agents subject to external disturbances. The agent network is said to possess a desired level of disturbance rejection, if the
  $\textit{H}_\infty$ norm of its transfer function matrix from the disturbance to the controlled output is satisfactorily small. Undirected graph is used to represent the information flow topology among agents. It is shown that the disturbance rejection
  problem of an agent network can be solved by analyzing the $\textit{H}_\infty$ control problem of a set of independent systems whose dimensions are equal to that of a single node. An interesting result is that the disturbance rejection ability of
  the whole agent network coupled via feedback of merely relative measurements between agents will never be better than that of an isolated agent. To improve this, local feedback injections are applied to a small fraction of the agents in the network. Some criteria for possible performance improvement are derived in terms of linear matrix inequalities. Finally, extensions to the case when communication time delays exist are also discussed.
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  Minimizing a Linear Fractional Function Subject to a System of Sup-$T$ Equations with a Continuous Archimedean Triangular Norm

  Pingke LI;Shu-Cherng FANG

  Journal of Systems Science and Complexity. 2009, 22(1): 49-062.

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  This paper shows that the problem of minimizing a linear fractional function subject to a system of sup-$T$ equations with a continuous Archimedean triangular norm $T$ can be reduced to a 0-1 linear fractional optimization problem in polynomial time.
  Consequently, parametrization techniques, e.g., Dinkelbach's algorithm, can be applied by solving a classical {set covering problem} in each iteration. Similar reduction can also be performed on the sup-$T$ equation constrained optimization problems with an objective function being monotone in each variable separately. This method could be extended as well to the case in which the triangular norm is non-Archimedean.
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  Optimal Substructure of Set-Valued Solutions of Normal-Form Games and Coordination

  Norimasa KOBAYASHI;Kyoichi KIJIMA

  Journal of Systems Science and Complexity. 2009, 22(1): 63-076.

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  A number of solution concepts of normal-form games have been proposed in the literature on subspaces of action profiles that have Nash type stability. While the literature mainly focuses on the minimal of such stable subspaces, this paper argues that non-minimal stable subspaces represent well the multi-agent situations to which neither Nash equilibrium nor rationalizability may be applied with satisfaction. As a theoretical support, the authors prove the optimal substructure of stable subspaces
  regarding the restriction of a game. It is further argued that the optimal substructure characterizes hierarchical diversity of coordination and interim phases in learning.
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  Performance Evaluation for Damping Controllers of PowerSystems Based on Multi-Agent Models

  Ancheng XUE;Yiguang HONG

  Journal of Systems Science and Complexity. 2009, 22(1): 77-087.

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  This paper proposes a multi-layer multi-agent model for the performance evaluation of power systems, which is different from the existing multi-agent ones. To describe the impact of the structure of the networked power system, the proposed model
  consists of three kinds of agents that form three layers: control agents such as the generators and associated controllers, information agents to exchange the information based on the wide area measurement system (WAMS) or transmit control signals to the power system stabilizers (PSSs), and network-node agents such as the generation nodes and load nodes connected with transmission lines. An optimal index is presented to evaluate the performance of damping controllers to the system's inter-area oscillation with respect to the information-layer topology. Then, the authors show that the inter-area information exchange is more powerful than the
  exchange within a given area to control the inter-area low frequency oscillation based on simulation analysis.
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  A PROBABILISTIC CHARACTERIZATION OF A FAULT-TOLERANTGOSSIPING ALGORITHM

  Xiaohu LI;Paul PARKER;Shouhuai XU

  Journal of Systems Science and Complexity. 2009, 22(1): 88-108.

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  Gossiping is a popular technique for probabilistic reliable multicast (or broadcast). However, it is often difficult to understand the behavior of gossiping algorithms in an analytic fashion. Indeed, existing analyses of gossip algorithms are either based on simulation or based on ideas borrowed from epidemic models while inheriting some features that do not seem to be appropriate for the setting of gossiping. On one hand, in epidemic spreading, an infected node typically intends to spread the infection an {unbounded} number of times (or rounds); whereas in gossiping, an infected node (i.e., a node having received the message in question) may prefer to gossip the message a {bounded} number of times. On the other hand, the often assumed homogeneity in epidemic spreading models (especially that every node has equal
  contact to everyone else in the population) has been silently inherited in the gossiping literature, meaning that an expensive membership protocol is often needed for maintaining nodes' views. Motivated by these observations, the authors present a
  characterization of a popular class of fault-tolerant gossip schemes (known as ``push-based gossiping") based on a novel probabilistic model, while taking the afore-mentioned factors into consideration.
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  STABILITY ANALYSIS OF DECENTRALIZED ADAPTIVE BACKSTEPPINGCONTROL SYSTEMS WITH ACTUATOR FAILURES

  Wei WANG;Changyun WEN;Guanghong YANG

  Journal of Systems Science and Complexity. 2009, 22(1): 109-121.

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  In this paper, the authors analyze the stability of a class of interconnected systems with subsystem unmodeled dynamics and dynamic interactions employing decentralized adaptive controllers designed by Wen, Zhou, and Wang (2008) in the presence of actuator failures. It will be shown that the global stability of the
  remaining closed-loop system is still ensured and the outputs are also regulated to zero when some subsystems break down.
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  STOCHASTIC DIFFERENTIAL EQUATIONS AND STOCHASTIC LINEAR QUADRATIC OPTIMAL CONTROL PROBLEM WITH L\'EVY PROCESSES

  Huaibin TANG;Zhen WU

  Journal of Systems Science and Complexity. 2009, 22(1): 122-136.

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  In this paper, the authors first study two kinds of stochastic differential equations (SDEs) with L\'evy processes as noise source. Based on the existence and uniqueness of the solutions of these SDEs and multi-dimensional backward stochastic
  differential equations (BSDEs) driven by L\'evy processes, the authors proceed to study a stochastic linear quadratic (LQ) optimal control problem with a L\'evy process, where the cost weighting matrices of the state and control are allowed to be
  indefinite. One kind of new stochastic Riccati equation that involves equality and inequality constraints is derived from the idea of square completion and its solvability is proved to be sufficient for the well-posedness and the existence of optimal control which can be of either state feedback or open-loop form of the LQ problems. Moreover, the authors obtain the existence and uniqueness of the solution to the Riccati equation for some special cases. Finally, two examples are presented to illustrate these theoretical results.
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  NEW RESULTS ABOUT THE RELATIONSHIP BETWEEN OPTIMALLY WEIGHTED LEAST SQUARES ESTIMATE AND LINEAR MINIMUM VARIANCE ESTIMATE

  Juan ZHAO;Yunmin ZHU

  Journal of Systems Science and Complexity. 2009, 22(1): 137-149.

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  The optimally weighted least squares estimate and the linear minimum variance estimate are two of the most popular estimation methods for a linear model. In this paper, the authors make a comprehensive discussion about the relationship between the two estimates. Firstly, the authors consider the classical linear model in which the coefficient matrix of the linear model is deterministic, and the necessary and sufficient condition for equivalence of the two estimates is derived. Moreover, under certain conditions on variance matrix invertibility, the two estimates can be identical provided that they use the same a priori information of the parameter being estimated. Secondly, the authors consider the linear model with random coefficient matrix
  which is called the extended linear model; under certain conditions on variance matrix invertibility, it is proved that the former outperforms the latter when using the same a priori information of the parameter.
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  FRUIT NUTRITIVE FACTOR NETWORK

  Yanqing QU;Yumei JIANG;Daren HE

  Journal of Systems Science and Complexity. 2009, 22(1): 150-158.

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  As an research example of the widely existing cooperation-competition systems, the authors present an empirical investigation on a fruit nutritive factor network. It is described by a node-weighted bipartite graph. The fruit nutritive factors are defined as the nodes, and two nodes are connected by an edge if at least one fruit contains
  these two nutritive factors. The fruits are defined as the collaboration acts. The node-weight $W_{nt}$, which signifies the ``importance degree'' of each actor node, is defined as the content of a nutritive factor in a fruit. The empirical investigation results show some unique features. The node-weight distributions take so-called ``shifted power law" function forms, but the act-weight distribution takes a normal form. The
  degree and act-degree distributions show impulsive-spectrum like forms. These observations may be helpful for the study of fruits. The network description method proposed in this article may be universal for a kind of cooperation-competition systems.