Presentation of a novel real-time production supply concept with cyber-physical systems and efficiency validation by process status indicators

Bayhan, Haci; Meißner, Matthias; Kaiser, Pascal; Meyer, Maria Kristine Hagelskær; Hompel, Michael ten

doi:10.1007/s00170-020-05373-z

Cited by 17 publications

(12 citation statements)

References 13 publications

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“…Along with flexibility and modularity, communication between systems is also vital for warehouse operational performance (Schuh et al, 2017). Smart intralogistics improves process‐to‐process communication by seamlessly integrating cyber‐physical systems, for example, workstations and sensor‐mounted AGVs/AMRs (Bayhan et al, 2020). Further, the individual robots may also communicate internally using dynamically established machine‐2‐machine (M2M) communication systems (Rollenhagen et al, 2020).…”

Section: Resultsmentioning

confidence: 99%

“…Further, with the autonomous variable prioritization capability, costs are saved when the robots select the most immediate (or profitable) work orders first and then proceed to low‐value (non‐time‐sensitive) work orders (Schuhmacher & Hummel, 2020a). Such capability also helps reduce costs when the warehouse services customized products rather than mass‐produced products (Bayhan et al, 2020). Not to forget, the cost of labor, which makes a major chunk of warehouse operational costs, is saved when the AGVs/AMRs take over the labor‐intensive tasks (Karamanos et al, 2019; Martínez & Noriega, 2020; Walenta et al, 2017; Wior et al, 2018).…”

Section: Resultsmentioning

confidence: 99%

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Autonomous and IoT‐driven intralogistics for Industry 4.0 warehouses: A thematic analysis of the literature

Grover,

Ashraf

2024

Transp. j.

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Eyeing superior operational performance, transportation, and warehousing management, researchers have turned their much‐needed attention to autonomous and IoT‐driven intralogistics systems. Despite its potential, a systematic evaluation of its overall business needs and the criteria for its success at each stage of adoption is missing in the literature. Using the business analysis framework, augmented by the technology adoption model, this study seeks to provide the business context for adopting autonomous and IoT‐driven intralogistics by identifying business requirements and critical success factors for such systems. We thematically analyze 85 recent research articles on autonomous and IoT‐driven intralogistics systems to identify business requirements that are linked to the mission of maximizing operational profit for the warehousing and storage industry. Then, using the identified business requirements as a base, we thematically analyze those 85 research articles again to identify critical success factors at different stages of technology adoption, namely information, analysis, acquisition, and utilization. We use the findings to develop propositions for future researchers. These findings provide a foundation for developing empirical, descriptive, and normative research on adopting and managing these systems for the warehousing and storage industry.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Autonomous and IoT‐driven intralogistics for Industry 4.0 warehouses: A thematic analysis of the literature

Grover,

Ashraf

2024

Transp. j.

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“…This work focused on the use of these technologies and their impacts on the environment, whether they collaborate or not for clean operations, without denigrating the environment. road, rail monitoring system, ship traffic management and truck scheduling, are some of the systems that assist port operations and environmental management (Bayhan et al, 2020).…”

Section: Analysis and Resultsmentioning

confidence: 99%

Analysis of industry 4.0 and their impact on port environmental management

Moura

2022

Ind. Jour. Manag. & Prod.

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Industry 4.0 (I4.0) is a reality in several business segments worldwide. Technologies (I4.0) collaborate to improve production processes, in manufacturing or in services. The use of these technologies in port operations for container handling can assist in environmental management and allows the service system to be sustainable. This research analyzed the use of technologies from I4.0, applied in port handling operations of containers, to verify their impact on environmental management. Some ports, of great international relevance, were searched for data collection regarding the use of I4.0 technologies and environmental management (port sustainability). These data were analyzed to understand the relationship between those technologies and sustainability in logistics operations (green operation). The focus of this study was to analyses some container terminal operations of five ports, to assess the use of I4.0 technologies and their impact, or not, on sustainable environmental management. The method of carrying out the research was the application of an online questionnaire to five Ports: Los Angeles (USA), Hamburg (Germany), Rotterdam (Netherlands), Singapore (Singapore) and Busan (South Korea) exclusively for container terminals. Public materials available on the websites of each port were also used. The questionnaire was developed by reviewing the literature on the topic (Digital Business – I4.0 and Sustainability – green operations). An online survey to collect information took place between September-2019 to June-2020, which was complemented with publicly accessible material on the internet. The collected data were treated statistically for analysis of the research information applied in the ports (mean, standard deviation, significance level, Kolmogorov-Smirnov Test, critical statistical value, correspondence analysis and relative frequency). Overall information was collected from 20 container terminals. Experts (managers and supervisors) responded the online survey.

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“…In general, the need for versatile production concepts to meet the dynamic requirements of industrial production and development was looked at from different perspectives [11], [12], e.g. through decentralized controlled supply by several cyber-physical system entities (which are represented by autonomous software agents).…”

Section: Literature Review and Related Workmentioning

confidence: 99%

Matrix Production Systems - Requirements and Influences on Logistics Planning for Decentralized Production Structures

Schmidtke¹,

Rettmann²,

Behrendt³

2021

Proceedings of the Annual Hawaii International Conference on System Sciences

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In the context of the digital transformation of industry and within the framework of Industrie 4.0 and Factory Planning 4.0, new production-organizational principles with decentralized, modular and freely linked production cells are increasingly being discussed. The principle of matrix production with categorized and standardized workstations offers an extremely versatile production environment. It can be used to meet the challenge of an increasing number of product variants in variable quantities. This concept is predominantly considered from a theoretical point of view. Therefore, many aspects regarding the planning and operation of such systems are still up to debate. With the focus on logistics processes, this paper describes the requirements for such flexible, dynamic routing and self-organizing resources in material supply. Furthermore, they are investigated in a generic, conceptual model for a matrix production. Based on a reference scenario from the automotive industry, classical parameters from logistics and production organization are taken up. The influences with regard to decentralized material supply concepts and structural differences to flow production are shown by the results of simulation experiments with the generic model.

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Presentation of a novel real-time production supply concept with cyber-physical systems and efficiency validation by process status indicators

Cited by 17 publications

References 13 publications

Autonomous and IoT‐driven intralogistics for Industry 4.0 warehouses: A thematic analysis of the literature

Autonomous and IoT‐driven intralogistics for Industry 4.0 warehouses: A thematic analysis of the literature

Analysis of industry 4.0 and their impact on port environmental management

Matrix Production Systems - Requirements and Influences on Logistics Planning for Decentralized Production Structures

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