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Soltani A, Stonis M, Overmeyer L (2019). Development of a Case-Based Reasoning expert system for the disturbance management in automated guided vehicle systems. Logistics Journal : Proceedings, Vol. 2019. (urn:nbn:de:0009-14-49931)
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%0 Journal Article %T Development of a Case-Based Reasoning expert system for the disturbance management in automated guided vehicle systems %A Soltani, Ali %A Stonis, Malte %A Overmeyer, Ludger %J Logistics Journal : Proceedings %D 2019 %V 2019 %N 12 %@ 2192-9084 %F soltani2019 %X Automated guided vehicle systems (AGVS) are an essential part of modern intralogistics. So far, the major part of the design cycle (implementation and operation) of an AGVS demands human expertise. Especially, the manually executed management of occurring disturbances leads to high maintenance costs since it often requires the consultation of experts. Therefore, the following paper discusses the development of a Case-Based Reasoning (CBR) expert system for assisting the disturbance management in AGVS. The development is sectioned into three major parts: (1) generation of the case-base, (2) development of the algorithms for case retrieval, case adaptation and retaining new cases and (3) the validation of the expert system. The generation of the case-base and the training data for the expert system is done by simulating the real production layout of a German white good manufacturer using the simulation environment Visual Components. The solutions for the simulated disturbances as well as the adaptation algorithms are based on knowledge extracted from system experts. %L 620 %K System %K automated guided vehicles AGV %K case-based reasoning %K disturbance management %K expert systems %R 10.2195/lj_Proc_soltani_en_201912_01 %U http://nbn-resolving.de/urn:nbn:de:0009-14-49931 %U http://dx.doi.org/10.2195/lj_Proc_soltani_en_201912_01Download
Bibtex
@Article{soltani2019,
author = "Soltani, Ali
and Stonis, Malte
and Overmeyer, Ludger",
title = "Development of a Case-Based Reasoning expert system for the disturbance management in automated guided vehicle systems",
journal = "Logistics Journal : Proceedings",
year = "2019",
volume = "2019",
number = "12",
keywords = "System; automated guided vehicles AGV; case-based reasoning; disturbance management; expert systems",
abstract = "Automated guided vehicle systems (AGVS) are an essential part of modern intralogistics. So far, the major part of the design cycle (implementation and operation) of an AGVS demands human expertise. Especially, the manually executed management of occurring disturbances leads to high maintenance costs since it often requires the consultation of experts. Therefore, the following paper discusses the development of a Case-Based Reasoning (CBR) expert system for assisting the disturbance management in AGVS. The development is sectioned into three major parts: (1) generation of the case-base, (2) development of the algorithms for case retrieval, case adaptation and retaining new cases and (3) the validation of the expert system. The generation of the case-base and the training data for the expert system is done by simulating the real production layout of a German white good manufacturer using the simulation environment Visual Components. The solutions for the simulated disturbances as well as the adaptation algorithms are based on knowledge extracted from system experts.",
issn = "2192-9084",
doi = "10.2195/lj_Proc_soltani_en_201912_01",
url = "http://nbn-resolving.de/urn:nbn:de:0009-14-49931"
}
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TY - JOUR AU - Soltani, Ali AU - Stonis, Malte AU - Overmeyer, Ludger PY - 2019 DA - 2019// TI - Development of a Case-Based Reasoning expert system for the disturbance management in automated guided vehicle systems JO - Logistics Journal : Proceedings VL - 2019 IS - 12 KW - System KW - automated guided vehicles AGV KW - case-based reasoning KW - disturbance management KW - expert systems AB - Automated guided vehicle systems (AGVS) are an essential part of modern intralogistics. So far, the major part of the design cycle (implementation and operation) of an AGVS demands human expertise. Especially, the manually executed management of occurring disturbances leads to high maintenance costs since it often requires the consultation of experts. Therefore, the following paper discusses the development of a Case-Based Reasoning (CBR) expert system for assisting the disturbance management in AGVS. The development is sectioned into three major parts: (1) generation of the case-base, (2) development of the algorithms for case retrieval, case adaptation and retaining new cases and (3) the validation of the expert system. The generation of the case-base and the training data for the expert system is done by simulating the real production layout of a German white good manufacturer using the simulation environment Visual Components. The solutions for the simulated disturbances as well as the adaptation algorithms are based on knowledge extracted from system experts. SN - 2192-9084 UR - http://nbn-resolving.de/urn:nbn:de:0009-14-49931 DO - 10.2195/lj_Proc_soltani_en_201912_01 ID - soltani2019 ER -Download
Wordbib
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ISI
PT Journal AU Soltani, A Stonis, M Overmeyer, L TI Development of a Case-Based Reasoning expert system for the disturbance management in automated guided vehicle systems SO Logistics Journal : Proceedings PY 2019 VL 2019 IS 12 DI 10.2195/lj_Proc_soltani_en_201912_01 DE System; automated guided vehicles AGV; case-based reasoning; disturbance management; expert systems AB Automated guided vehicle systems (AGVS) are an essential part of modern intralogistics. So far, the major part of the design cycle (implementation and operation) of an AGVS demands human expertise. Especially, the manually executed management of occurring disturbances leads to high maintenance costs since it often requires the consultation of experts. Therefore, the following paper discusses the development of a Case-Based Reasoning (CBR) expert system for assisting the disturbance management in AGVS. The development is sectioned into three major parts: (1) generation of the case-base, (2) development of the algorithms for case retrieval, case adaptation and retaining new cases and (3) the validation of the expert system. The generation of the case-base and the training data for the expert system is done by simulating the real production layout of a German white good manufacturer using the simulation environment Visual Components. The solutions for the simulated disturbances as well as the adaptation algorithms are based on knowledge extracted from system experts. ERDownload
Mods
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<abstract>Automated guided vehicle systems (AGVS) are an essential part of modern intralogistics. So far, the major part of the design cycle (implementation and operation) of an AGVS demands human expertise. Especially, the manually executed management of occurring disturbances leads to high maintenance costs since it often requires the consultation of experts. Therefore, the following paper discusses the development of a Case-Based Reasoning (CBR) expert system for assisting the disturbance management in AGVS. The development is sectioned into three major parts: (1) generation of the case-base, (2) development of the algorithms for case retrieval, case adaptation and retaining new cases and (3) the validation of the expert system. The generation of the case-base and the training data for the expert system is done by simulating the real production layout of a German white good manufacturer using the simulation environment Visual Components. The solutions for the simulated disturbances as well as the adaptation algorithms are based on knowledge extracted from system experts.</abstract>
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Full Metadata
| Bibliographic Citation | Logistics Journal : referierte Veröffentlichungen, Vol. 2019, Iss. 12 |
|---|---|
| Title |
Development of a Case-Based Reasoning expert system for the disturbance management in automated guided vehicle systems (eng) |
| Author | Ali Soltani, Malte Stonis, Ludger Overmeyer |
| Language | eng |
| Abstract | Automated guided vehicle systems (AGVS) are an essential part of modern intralogistics. So far, the major part of the design cycle (implementation and operation) of an AGVS demands human expertise. Especially, the manually executed management of occurring disturbances leads to high maintenance costs since it often requires the consultation of experts. Therefore, the following paper discusses the development of a Case-Based Reasoning (CBR) expert system for assisting the disturbance management in AGVS. The development is sectioned into three major parts: (1) generation of the case-base, (2) development of the algorithms for case retrieval, case adaptation and retaining new cases and (3) the validation of the expert system. The generation of the case-base and the training data for the expert system is done by simulating the real production layout of a German white good manufacturer using the simulation environment Visual Components. The solutions for the simulated disturbances as well as the adaptation algorithms are based on knowledge extracted from system experts. Fahrerlose Transportsysteme (FTS) sind ein wesentlicher Bestandteil der modernen Intralogistik. Der Designzyklus für die Einführung von FTS sowie das Störungsmanagement sind überwiegend manuelle – von Experten durchgeführte – Prozesse. Diese manuellen Prozesse sind durch die Notwendigkeit von Expertenkonsultationen kostenaufwendig. Speziell im Bereich des Störungsmanagements können lange Ausfallzeiten hohe Kosten verursachen. In diesem Beitrag wird daher die Entwicklung eines Case-Based Reasoning (CBR) Expertensystems zur Unterstützung der Lösungsfindung für auftretende Störungen in FTS diskutiert. Die Entwicklung ist in drei wesentliche Bereiche gegliedert: (1) Generierung der Fallbasis, (2) Entwicklung der Algorithmen zur Suche ähnlicher Fälle, Adaption und Speicherung neuer Fälle und (3) Validierung des Expertensystems. Die Generierung der Fallbasis des Expertensystems, erfolgt durch die Simulation des realen Produktionslayouts eines deutschen Weißwarenherstellers, mit Hilfe der Simulationsumgebung Visual Components. Die Lösungen der simulierten Störungen sowie die Adaptionsalgorithmen basieren auf Erkenntnissen aus Experteninterviews. |
| Subject | System, automated guided vehicles AGV, case-based reasoning, disturbance management, expert systems |
| DDC | 620 |
| Rights | fDPPL |
| URN: | urn:nbn:de:0009-14-49931 |
| DOI | https://doi.org/10.2195/lj_Proc_soltani_en_201912_01 |