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Mayer T, Libert S, ten Hompel M (2010). Contribution to the performance evaluation of decentralized material flow controls on the example of a control prototype. Logistics Journal, Vol. 1. (urn:nbn:de:0009-14-25930)

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%0 Journal Article
%T Contribution to the performance evaluation of decentralized material flow controls on the example of a control prototype
%A Mayer, Tobias
%A Libert, Sergey
%A ten Hompel, Michael
%J Logistics Journal
%D 2010
%V 1
%N 1
%@ 1860-7977
%F mayer2010
%X The new control paradigm Internet of Things (IoT) in intralogistics propagates highly modular and flexible decentralized control  systems based on agent technology and radio-frequency identification (RFID). The productive application of such systems demands the fulfillment of several requirements, which exist in the industrial reality of the facility  logistics. The real-time requirements in decentralized control systems are examined within the scope of the Collaborative Research Center (CRC 696) “Logistics on Demand” (sub-project C5 – “Real-Time Logistics”). The systematic performance analysis of legacy and new controls is an important aspect of this research work. In this paper an approach for the evaluation of the performance of decentralized control is proposed. The collection and analysis of performance data is facilitated by self-developed measuring instruments.
%L 620
%K Internet of Things
%K Intralogistics
%K material flow
%K real-time capability
%R 10.2195/LJ_Ref_Mayer_Libert_tenHompel_07_2010_en
%U http://nbn-resolving.de/urn:nbn:de:0009-14-25930
%U http://dx.doi.org/10.2195/LJ_Ref_Mayer_Libert_tenHompel_07_2010_en
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@Article{mayer2010,
  author = 	"Mayer, Tobias
		and Libert, Sergey
		and ten Hompel, Michael",
  title = 	"Contribution to the performance evaluation of decentralized material flow controls on the example of a control prototype",
  journal = 	"Logistics Journal",
  year = 	"2010",
  volume = 	"1",
  number = 	"1",
  keywords = 	"Internet of Things; Intralogistics; material flow; real-time capability",
  abstract = 	"The new control paradigm Internet of Things (IoT) in intralogistics propagates highly modular and flexible decentralized control  systems based on agent technology and radio-frequency identification (RFID). The productive application of such systems demands the fulfillment of several requirements, which exist in the industrial reality of the facility  logistics. The real-time requirements in decentralized control systems are examined within the scope of the Collaborative Research Center (CRC 696) ``Logistics on Demand'' (sub-project C5 -- ``Real-Time Logistics''). The systematic performance analysis of legacy and new controls is an important aspect of this research work. In this paper an approach for the evaluation of the performance of decentralized control is proposed. The collection and analysis of performance data is facilitated by self-developed measuring instruments.",
  issn = 	"1860-7977",
  doi = 	"10.2195/LJ_Ref_Mayer_Libert_tenHompel_07_2010_en",
  url = 	"http://nbn-resolving.de/urn:nbn:de:0009-14-25930"
}
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RIS

TY  - JOUR
AU  - Mayer, Tobias
AU  - Libert, Sergey
AU  - ten Hompel, Michael
PY  - 2010
DA  - 2010//
TI  - Contribution to the performance evaluation of decentralized material flow controls on the example of a control prototype
JO  - Logistics Journal
VL  - 1
IS  - 1
KW  - Internet of Things
KW  - Intralogistics
KW  - material flow
KW  - real-time capability
AB  - The new control paradigm Internet of Things (IoT) in intralogistics propagates highly modular and flexible decentralized control  systems based on agent technology and radio-frequency identification (RFID). The productive application of such systems demands the fulfillment of several requirements, which exist in the industrial reality of the facility  logistics. The real-time requirements in decentralized control systems are examined within the scope of the Collaborative Research Center (CRC 696) “Logistics on Demand” (sub-project C5 – “Real-Time Logistics”). The systematic performance analysis of legacy and new controls is an important aspect of this research work. In this paper an approach for the evaluation of the performance of decentralized control is proposed. The collection and analysis of performance data is facilitated by self-developed measuring instruments.
SN  - 1860-7977
UR  - http://nbn-resolving.de/urn:nbn:de:0009-14-25930
DO  - 10.2195/LJ_Ref_Mayer_Libert_tenHompel_07_2010_en
ID  - mayer2010
ER  -
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Wordbib

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ISI

PT Journal
AU Mayer, T
   Libert, S
   ten Hompel, M
TI Contribution to the performance evaluation of decentralized material flow controls on the example of a control prototype
SO Logistics Journal
PY 2010
VL 1
IS 1
DI 10.2195/LJ_Ref_Mayer_Libert_tenHompel_07_2010_en
DE Internet of Things; Intralogistics; material flow; real-time capability
AB The new control paradigm Internet of Things (IoT) in intralogistics propagates highly modular and flexible decentralized control  systems based on agent technology and radio-frequency identification (RFID). The productive application of such systems demands the fulfillment of several requirements, which exist in the industrial reality of the facility  logistics. The real-time requirements in decentralized control systems are examined within the scope of the Collaborative Research Center (CRC 696) “Logistics on Demand” (sub-project C5 – “Real-Time Logistics”). The systematic performance analysis of legacy and new controls is an important aspect of this research work. In this paper an approach for the evaluation of the performance of decentralized control is proposed. The collection and analysis of performance data is facilitated by self-developed measuring instruments.
ER
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  <name type="personal">
    <namePart type="family">ten Hompel</namePart>
    <namePart type="given">Michael</namePart>
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  <abstract>The new control paradigm Internet of Things (IoT) in intralogistics propagates highly modular 

and flexible decentralized control  systems based on agent technology and radio-frequency identification 

(RFID). The productive application of such systems demands the fulfillment of several requirements, 

which exist in the industrial reality of the facility  logistics. The real-time requirements in decentralized 

control systems are examined within the scope of the Collaborative Research Center (CRC 696) “Logistics 

on Demand” (sub-project C5 – “Real-Time Logistics”). The systematic performance analysis of legacy and 

new controls is an important aspect of this research work. In this paper an approach for the evaluation of 

the performance of decentralized control is proposed. The collection and analysis of performance data is 

facilitated by self-developed measuring instruments.</abstract>
  <subject>
    <topic>Internet of Things</topic>
    <topic>Intralogistics</topic>
    <topic>material flow</topic>
    <topic>real-time capability</topic>
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  <identifier type="citekey">mayer2010</identifier>
</mods>
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Bibliographic Citation Logistics Journal : referierte Veröffentlichungen, Vol. 1, Iss. 1
Title

Contribution to the performance evaluation of decentralized material flow controls on the example of a control prototype (eng)
Author Tobias Mayer, Sergey Libert, Michael ten Hompel
Language eng
Abstract The new control paradigm Internet of Things (IoT) in intralogistics propagates highly modular and flexible decentralized control systems based on agent technology and radio-frequency identification (RFID). The productive application of such systems demands the fulfillment of several requirements, which exist in the industrial reality of the facility logistics. The real-time requirements in decentralized control systems are examined within the scope of the Collaborative Research Center (CRC 696) “Logistics on Demand” (sub-project C5 – “Real-Time Logistics”). The systematic performance analysis of legacy and new controls is an important aspect of this research work. In this paper an approach for the evaluation of the performance of decentralized control is proposed. The collection and analysis of performance data is facilitated by self-developed measuring instruments.
Subject Internet of Things, Intralogistics, material flow, real-time capability
DDC 620
Rights DPPL
URN: urn:nbn:de:0009-14-25930
DOI https://doi.org/10.2195/LJ_Ref_Mayer_Libert_tenHompel_07_2010_en