SpringerBriefs in Mathematics Kriege, Iryna Felko 2014 This work is subject to copyright. All rights are reserved by the Publisher, whether the whole or part of the material is concerned, specifically the rights of translation, reprinting, reuse of illustrations, recitation, broadcasting, reproduction on microfilms or in any other physical way, and transmission or information storage and retrieval, electronic adaptation, computer software, or by similar or dissimilar methodology now known or hereafter developed. Exempted from this legal reservation are brief excerpts in connection with reviews or scholarly analysis or material supplied specifically for the purpose of being entered and executed on a computer system, for exclusive use by the purchaser of the work. Duplication of this publication or parts thereof is permitted only under the provisions of the Copyright Law of the Publisher's location, in its current version, and permission for use must always be obtained from Springer. Permissions for use may be obtained through RightsLink at the Copyright Clearance Center. Violations are liable to prosecution under the respective Copyright Law. The use of general descriptive names, registered names, trademarks, service marks, etc. in this publication does not imply, even in the absence of a specific statement, that such names are exempt from the relevant protective laws and regulations and therefore free for general use. While the advice and information in this book are believed to be true and accurate at the date of publication, neither the authors nor the editors nor the publisher can accept any legal responsibility for any errors or omissions that may be made. The publisher makes no warranty, express or implied, with respect to the material contained herein.Printed on acid-free paper Springer is part of Springer Science+Business Media (www.springer.com) PrefaceNowadays system analysis of man-made systems, like computer systems, communication networks, and manufacturing plants, and also of natural systems, like biological or social systems, is often model based. To capture the complexity of real systems stochastic discrete event models are used in many application areas. One of the key aspects in building such models is the adequate description of real processes and event streams in a stochastic model. Often simple distributions are not sufficient for this purpose because observed distributions are multimodal and events are correlated.One class of stochastic models, which allows one to describe multimodal distributions and correlated event times, are Markov processes with marked transitions. Since Markov processes can be analyzed with numerical methods and with stochastic simulation, they are an ideal candidate to describe event times in stochastic models. However, the big disadvantage of using Markov processes instead of simple distributions or stochastic processes, like autoregressive or moving average time series, is the parameterization effort. Usually, the finding of adequate parameters of a Markov model, ...
Autonomous guided vehicle systems (AGVSs) are popular in production systems, container ports, and intra-logistics. An efficient deadlock avoidance algorithm preventing long vehicle blockings and solutions to idle vehicles blocking others are required for bidirectional AGVSs. A symbiotic simulation resources scheduling decision support method is developed, including identification of route segments where deadlocks can potentially occur and an accordingly integrated banker's algorithm. Based on multiple online what-if simulations, the best deadlock safe resources schedule is determined for each short period just before the vehicles move. This proactive what-if analysis of resources utilization, alternative routes and dynamic parking strategies allows the minimization of the vehicles' total blocking time. Combining symbiotic simulation and a real time control of autonomous guided vehicles increases the AGVS's efficiency-in terms of deadlock safety and minimizing the total vehicle blocking time. This method enables AGVS performance evaluation under arbitrary dispatching, routing, scheduling and guidepath design strategies.
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