Rational Probabilistic Deciders—Part I: Individual Behavior

This paper is intended to model a decision maker as a rational probabilistic decider (RPD) and to investigate its behavior in stationary and symmetric Markov switch environments. RPDs take their decisions based on penalty functions defined by the environment. The quality of decision making depends on a parameter referred to as level of rationality. The dynamic behavior of RPDs is described by an ergodic Markov chain. Two classes of RPDs are considered—local and global. The former take their decisions based on the penalty in the current state while the latter consider all states. It is shown that asymptotically (in time and in the level of rationality) both classes behave quite similarly. However, the second largest eigenvalue of Markov transition matrices for global RPDs is smaller than that for local ones, indicating faster convergence to the optimal state. As an illustration, the behavior of a chief executive officer, modeled as a global RPD, is considered, and it is shown that the company performance may or may not be optimized—depending on the pay structure employed. While the current paper investigates individual RPDs, a companion paper will address collective behavior.

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Optimizing maintenance decisions in railway wheelsets: A Markov decision process approach

Proceedings of the Institution of Mechanical Engineers Part O Journal of Risk and Reliability ◽

10.1177/1748006x18783403 ◽

2018 ◽

Vol 233 (2) ◽

pp. 285-300 ◽

Cited By ~ 2

Author(s):

Joaquim AP Braga ◽

António R Andrade

Keyword(s):

Markov Decision Process ◽

Decision Process ◽

Transition Matrices ◽

Technical Standards ◽

Current State ◽

Markov Transition ◽

Markov Decision ◽

Maintenance Decisions ◽

Markov Transition Matrices

This article models the decision problem of maintaining railway wheelsets as a Markov decision process, with the aim to provide a way to support condition-based maintenance for railway wheelsets. A discussion on the role of the railway wheelsets is provided, as well as some background on the technical standards that guide maintenance decisions. A practical example is explored with the estimation of Markov transition matrices for different condition states that depend on the wheelset diameter, its mileage since last turning action (or renewal) and the damage occurrence. Bearing in mind all the possible maintenance actions, an optimal strategy is achieved, providing a map of best actions depending on the current state of the wheelset.

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Modeling a random sequence of extremes of loads for fatigue tests under irregular loading

10.36652/0042-4633-2020-5-13-19 ◽

2020 ◽

pp. 13-19

Author(s):

N.A. Mahutov ◽

I.V. Gadolina ◽

S.G. Lebedinskiy ◽

E.S. Oganyan ◽

A.A. Bautin

Keyword(s):

Random Sequence ◽

Fatigue Tests ◽

Linear Hypothesis ◽

Resource Estimation ◽

Transition Matrices ◽

Random Loading ◽

Markov Transition ◽

Random Nature ◽

Irregular Loading ◽

Markov Transition Matrices

Methods and approaches to tests under random loading are considered, their role is characterized. To ensure the random nature of loading, a modeling method based on Markov transition matrices and real processes recorded in operation is proposed. Keywords: random loading process, Markov repetition matrices, resource estimation, corrected linear hypothesis, parameter of completeness of the loading spectrum. [email protected]

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