Management and Production Engineering Review

Description

Management and Production Engineering Review (MPER) is a peer-refereed, international, multidisciplinary journal covering a broad spectrum of topics in production engineering and management. Production engineering is a currently developing stream of science encompassing planning, design, implementation and management of production systems. Orientation towards human resources factor differentiates production engineering from other technical disciplines. The journal aims to advance the theoretical and applied knowledge of this rapidly evolving field, with a special focus on production management, organisation of production processes, management of production knowledge, computer integrated management of production flow, enterprise effectiveness, maintainability and sustainable manufacturing, productivity and organisation, forecasting, modelling and simulation, decision making systems, project management, innovation management and technology transfer, quality engineering and safety at work. Management and Production Engineering Review is published under the auspices of the Polish Academy of Sciences Committee on Production Engineering and Polish Association for Production Management.

The main purpose of Management and Production Engineering Review is to publish the results of cutting-edge research advancing the concepts, theories and implementation of novel solutions in modern manufacturing. Papers presenting original research results related to production engineering and management education are also welcomed.

We welcome original papers written in English. The Journal also publishes technical briefs, discussions of previously published papers, book reviews, and editorials.

Letters to the Editor-in-Chief are highly encouraged.

Journal Metrics:
IMPACT FACTOR 2022: 1.4
Journal Impact Factor (Web of Science) 2022: 1.4
CiteScore metrics from Scopus 2022: 2.9
SCImago Journal Rank ( SJR) 2022: 0.381

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ISSN

ISSN 2080-8208, eISSN 2082-1344

Publishers

Production Engineering Committee of the Polish Academy of Sciences, Polish Association for Production Management

MISSION STATEMENT Management and Production Engineering Review (MPER) is a peer-refereed, international, multidisciplinary journal covering a broad spectrum of topics in production engineering and management. Production engineering is a currently developing stream of science encompassing planning, design, implementation and management of production and logistic systems. Orientation towards human resources factor differentiates production engineering from other technical disciplines. The journal aims to advance the theoretical and applied knowledge of this rapidly evolving field, with a special focus on production management, organisation of production processes, manage- ment of production knowledge, computer integrated management of production flow, enterprise effectiveness, maintainability and sustainable manufacturing, productivity and organisation, forecasting, modelling and simu- lation, decision making systems, project management, innovation management and technology transfer, quality engineering and safety at work, supply chain optimization and logistics. Management and Production Engineering Review is published under the auspices of the Polish Academy of Sciences Committee on Production Engineering and Polish Association for Production Management. The main purpose of Management and Production Engineering Review is to publish the results of cutting- edge research advancing the concepts, theories and implementation of novel solutions in modern manufacturing. Papers presenting original research results related to production engineering and management education are also welcomed. We welcome original papers written in English. The Journal also publishes technical briefs, discussions of previously published papers, book reviews, and editorials. Letters to the Editor-in-Chief are highly encouraged.
SUBMISSION Papers for submission should be prepared according to the Authors Instructions available at: www.journals.pan.pl/mper
SUBSCRIPTION Only subscription guarantees receiving this journal. Subscription orders stating the period of time, along with the subscriber’s name and address should be sent directly to biuro@ptzp.org.pl. Back issues of all previously published volumes are available on request. Subscription price for 2023, Volume 14, including postage and handling, is 240 PLN.

Editor-in-Chief A.Hamrol,
Poznan University of Technology,
Poland

Deputy Editor in Chief
J.O. Paliszkiewicz,
Warsaw University of Life Sciences,
Poland

Editors
Production and Manufacturing J. Takala, University of Vaasa, Finland
Project and Production Management K. Phusavat, Kasetsart University, Thailand
Quality and sustainability J. J. Dahlgaard, Linköping University, Sweden
Innovation and Development Z. Banaszak, Koszalin University of Technology, Poland

Editorial Advisory Board
W. Bojar, University of Technology and Life Sciences, Poland
S. Cavalieri, University of Bergamo, Italy
A. Dolgui, Ecole des Mines de Saint-Etienne, France
S. Gagnon, University of Quebec, Montreal, Canada
M. Gallo,University of Napoli Federico II, Italy
J. Gawlik,Tadeusz Kosciuszko Cracow University of Technology, Poland
M. Gregor, University of Zlina, Slovakia
H.-M. Hanisch, Martin Luther University of Halle-Wittenberg, Germany
W. Karwowski, University of Central Florida, USA
S. Klos, University of Zielona Gora, Poland
T. Koch, Wroclaw University of Technology, Poland
A. Koohang, Middle Georgia State University, USA
S. Legutko, Poznan University of Technology, Poland
J. Liebowitz, University of Maryland University College, USA
B. Lin, The Louisiana State University, USA
J. Matuszek, University of Bielsko-Biala, Poland
Y. Merkuryev, Technical University, Latvia
J. Nazarko, Bialystok University of Technology, Poland
P. Nielsen, Aalborg University, Denmark
S. Y. Nof, Purdue University, USA
B. W. Oppenheim, Loyola Marymount University, USA
R Roy, Cranfield University, Great Britain
T. Sawik, AGH University of Science and Technology, Poland
J. Senkara, Warsaw University of Technology, Poland
J. Sęp, Rzeszów University of Technology, Poland
M. Skibniewski, University of Maryland, USA
A. W. Skorek, Universite du Quebec a Trois-Rivieres, Canada
A. V. Smirnov, Institute for Informatics and Automation of the Russian Academy of Sciences, Russia
M. S. G. Tsuzuki, The University of Sao Paulo, Brasil
S. Yen-Liang Yin, National Taiwan University, Taiwan Beijing, China
M. B. Zaremba, University of Quebec, Canada

All contributions should be addressed to the Managing Editor:

Marta Grabowska
Poznan University of Technology
Piotrowo 3 (Room 305)
60-965 Poznan, Poland

tel: (48-61) 665-27-98
e-mail: office@mper.org

Management and Production Engineering Review is an open access journal with all content available with no charge in full text version.

The journal content is available under the Creative Commons Attribution 4.0 International License (CC BY 4.0) https://creativecommons.org/licenses/by/4.0/.

Index Copernicus
Web of Science - Clarivate (ESCI)
Scopus - Elsevier
SCIMAGO:
(CiteScore 2020 - 2.5
SJR 2020 - 0.332
SNIP 2020 - 1.061)

Volumes
Instructions for authors
Additional info
Publication Ethics Policy
Peer-review Procedure
Reviewers

Select number

2023
2022
2021
- vol. 12
  - No 4
  - No 3
  - No 2
  - No 1
2020
2019
2018
2017
2016
2015
2014
2013
2012

Content

Management and Production Engineering Review | 2021 | vol. 12 | No 4

1 Production Line Modelling in Accordance with the Industry 4.0 Concept as an Element of Process Management in the Iron and Steel Industry

Mariusz Niekurzak , Ewa Kubińska-Jabcoń

Management and Production Engineering Review | 2021 | vol. 12 | No 4 | 3-12 | DOI: 10.24425/mper.2021.139990

Keywords: Hot rolling mill Logistic model of a mill Steel strip Stock management

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Abstract

Simulations are becoming one of the most important techniques supporting production preparation, even in those industrial sectors with atypical technological processes, such as in metallurgy, where there is a multiphase material flow. This is due to the fact that in the conditions of a market economy, enterprises have to solve more and more complex problems in a shorter time. On the basis of the existing production process and the knowledge of the flow characteristics in a given process, a model is built, which, when subjected to simulation tests, provides experimental results in the scope of the defined problem. The use of computer techniques also creates new possibilities for the rational use of the reserves inherent in each technological process. Taking into account the existing demand and the state of modern technology, the computer model can be a source of information for further analysis and decision-making processes supporting company management. At work a model of the logistic system was made on the example of a hot-rolled steel strip mill, on which simulation experiments were carried out to improve the effectiveness and efficiency of the analysis production line. The presented article aims to disseminate the idea of ??Industry 4.0 in Polish companies from the manufacturing industry sector, taking into account simulation techniques.

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Authors and Affiliations

Mariusz Niekurzak

Ewa Kubińska-Jabcoń

AGH University of Science and Technology, Faculty of Management, Poland

2 Quality Information and Quality Performance: Roles of Process Control as a Mediator and Shop Floor Leadership as a Moderator

Ngoc Anh Nguyen , Chi Phan Anh , Thi Xuan Thoa Pham , Matsui Yoshiki

Management and Production Engineering Review | 2021 | vol. 12 | No 4 | DOI: 10.24425/mper.2021.139991

Keywords: Total quality management leadership quality performance High-Performance

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Abstract

This study investigates (1) the effect of quality information on quality performance through process control and (2) the moderating role of shop floor leadership on the relationship between quality information and quality performance in the context of manufacturing plants on a global basis. The moderated mediation analysis with a bootstrapping approach was employed to analyse data for hypotheses testing. The data is from the fourth-round dataset of the High- Performance Manufacturing Project, collected from manufacturing plants worldwide. The results indicate that (1) quality information is positively associated with quality performance through process control, and (2) shop floor leadership (i.e., supervisory interaction facilitation) positively moderates the indirect effect of quality information on quality performance; that is, the shop floor leadership practice strengthens the effect of quality information on quality performance through process control. This study also has a practical implication for top managers who should consider the vital role of leadership practices adopted by shop floor supervisors in implementing total quality management practices and should raise awareness that leadership practices are not only for the ‘C-suite’ but also for shop floor supervisors.

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Authors and Affiliations

Ngoc Anh Nguyen

Chi Phan Anh

Thi Xuan Thoa Pham

Matsui Yoshiki

3 A Multi-label Transformation Framework for the Rectangular 2D Strip-Packing Problem

Neuenfeldt Júnior Alvaro , Matheus Francescatto , Gabriel Stieler , David Disconzi

Management and Production Engineering Review | 2021 | vol. 12 | No 4 | DOI: 10.24425/mper.2021.139992

Keywords: Strip-packing problem data mining Multi-label transformation Classification analysis Heuristics

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Abstract

The present paper describes a methodological framework developed to select a multi-label dataset transformation method in the context of supervised machine learning techniques. We explore the rectangular 2D strip-packing problem (2D-SPP), widely applied in industrial processes to cut sheet metals and paper rolls, where high-quality solutions can be found for more than one improvement heuristic, generating instances with multi-label behavior. To obtain single-label datasets, a total of five multi-label transformation methods are explored. 1000 instances were generated to represent different 2D-SPP variations found in real-world applications, labels for each instance represented by improvement heuristics were calculated, along with 19 predictors provided by problem characteristics. Finally, classification models were fitted to verify the accuracy of each multi-label transformation method. For the 2D-SPP, the single-label obtained using the exclusion method fit more accurate classification models compared to the other four multi-label transformation methods adopted.

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Authors and Affiliations

Neuenfeldt Júnior Alvaro

Matheus Francescatto

Gabriel Stieler

David Disconzi

4 Optimization of Aggregate Production Planning Problems with and without Productivity Loss using Python Pulp Package

Hakeem Ur REHMAN , Ayyaz AHMAD , Zarak ALI , Sajjad Ahmad BAIG , Umair MANZOOR

Management and Production Engineering Review | 2021 | vol. 12 | No 4 | DOI: 10.24425/mper.2021.139993

Keywords: Aggregate Production Planning productivity Python PuLP Optimization

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Abstract

Traditionally the aggregate production plan helps in determining the inventory, production, and work-force, based on the demand forecasts without considering the productivity loss at a tactical level in supply chain planning. In this paper, we include the productivity loss into traditional aggregate production plan and the prescriptive analytics technique, linear programming, is used to solve this problem of practical interest in the domain of multifarious businesses and industries. In this study, we discussed two model variations of the aggregate production planning problem with and without productivity loss, i) fixed work-force, and ii) variable Work Force. The mathematical models were designated to be solved by using an open-source python pulp package in order to evaluate the impacts of the productivity loss on both the models. PuLP is an open-source modeling framework provided by the COIN-OR Foundation (Computational Infrastructure for Operations Research) for linear and integer Programing problems written in Python. The computational results indicate that the productivity loss has direct impact on the workforce hiring and firing.

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Authors and Affiliations

Hakeem Ur REHMAN

Ayyaz AHMAD

Zarak ALI

Sajjad Ahmad BAIG

Umair MANZOOR

5 New Characteristics in the Assessment of Reliability of Machines and Devices

Gabriela Kopania , Anna Kuczmaszewska

Management and Production Engineering Review | 2021 | vol. 12 | No 4 | DOI: 10.24425/mper.2021.139994

Keywords: Reliability Damage intensity function Cumulative damage intensity function

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Abstract

The aim of this work is to present new reliability characteristics expressed as functions of some variable expressing the measure of effective operation of a machine or a device. These characteristics can be used for both renewable and non-renewable objects. Their mathematical idea reflects the essence of already known characteristics, i.e. it expresses the probability of failure but expressed as a function of a variable, not necessarily identified with time.

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Authors and Affiliations

Gabriela Kopania

Anna Kuczmaszewska

6 Seru Production System: A Review and Projections for Future Research

Yung Chin Shih

Management and Production Engineering Review | 2021 | vol. 12 | No 4 | DOI: 10.24425/mper.2021.139995

Keywords: Seru production systems Flexible and reconfigurable manufacturing systems Production activity control Assembly and disassembly Manufacturing plant control

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Abstract

In mid-1992, Japanese consultant Yamada Hitoshi was tasked with modifying the production systems of Japanese companies as the existing configurations at manufacturing plants no longer satisfied unstable demands. He made improvements to the overall production system by dividing the long assembly lines into several short ones called cells or seru. Although of the advantages, it is still unclear about how to manage this new production system, and what variables really promoted the desired benefits. We identify in total 39 articles from 2004– 2020 about the progress of the seru production system, and we observe some possibilities to improve the effectiveness of this type of the production system. The first is the possibility of manufacturing the product in flexible sequence, in which the operations are independent among them. We show through the developed example that the makespan may be different. We noted when converting the in-line production system to one pure seru, the makespan tend to increase. Nevertheless, when analyzing the effectiveness of serus working concomitantly considering splitting the same lot, makespan and the cost may be reduced. And finally, when converting to one of pure serus, the performance may be similar to that obtained when serus working concomitantly.

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Authors and Affiliations

Yung Chin Shih

7 The Role of Internal Conditions in the Implementation of the Lean Green Concept: American, Japanese and Polish Experiences

Nicoletta Baskiewicz , Claudiu Barbu

Management and Production Engineering Review | 2021 | vol. 12 | No 4 | DOI: 10.24425/mper.2021.139996

Keywords: Lean Lean Green Lean Green implementation conditions of Lean Green implementation

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Abstract

Lean Green is a concept which is implemented as a part of the sustainable development strategy, share allowing for reduction of the company’s costs related to, on the one hand, efficient use of energy factors and on the other optimum use of production factors aimed at minimisation of wastefulness, in particular in the area of post-production waste and pollution. The purpose of the article is to identify the determinants, internal stimuli and to specify the force with which they affect the implementation of the Lean Green concept in companies on various continents: America, Asia and Europe. For the purpose of better recognition of the examined problem, analysis of results of studies was made in consideration of the following criteria: country where a given company operates and share of persons outside the company in the process of implementation of this concept. In article uses the one-way ANOVA methodology, the Shapiro Wilk and Levene tests and the non-parametric Kruskal Wallis test. Hitherto studies have confirmed that the determinants are regional, which indicates the necessity of directional studies.

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Authors and Affiliations

Nicoletta Baskiewicz

Claudiu Barbu

8 The Technological Factors of Enterprise Innovation in a Strategic Perspective

Danuta Rojek

Management and Production Engineering Review | 2021 | vol. 12 | No 4 | DOI: 10.24425/mper.2021.139997

Keywords: innovativeness technology Factor analysis Structural Equation Modeling

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Abstract

Enterprise innovation is currently becoming a recognized factor of the competitiveness, survival, and development of companies in the market economy. Managers still need recommendations on ways of stimulating the growth of innovation in their companies. The objective of this paper is to identify the strategic factors of enterprise innovativeness in the area of technology, defined as the most important internal factors positively impacting the innovativeness of enterprises in a strategic perspective. Empirical studies were conducted using the Computer-Assisted Web Interview (CAWI) method on a purposive sample of N = 180 small and medium-sized innovative industrial processing enterprises in Poland. Data analysis was performed using Exploratory Factor Analysis within the Confirmatory Factor Analysis framework (E-CFA) and Structural Equation Modeling (SEM). Empirical research shows that the strategic factor of enterprise innovativeness in the area of technology is technological activity. A technologically active company should (1) possess a modern machinery stock, (2) conduct systematic technological audits, and (3) maintain close technical cooperation with the suppliers of raw materials, consumables, and intermediates. The implementation of the indicated recommendations by managers should lead to increased innovativeness of small and medium-sized industrial companies. The author recommends the use of the presented research procedure and data analysis methods in further studies.

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Authors and Affiliations

Danuta Rojek

9 The Interconnections Between ICT, Industry 4.0 and Agile Manufacturing

Ibrahim Khan Mohammed , Stefan Trzcielinski

Management and Production Engineering Review | 2021 | vol. 12 | No 4 | DOI: 10.24425/mper.2021.139998

Keywords: Information Communication Technology (ICT) Agile Manufacturing (AM) Lean Production Industry 4.0 Small and medium size enterprise (SME)

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Abstract

Technological progress is the driving force behind industrial development. It is a multidimensional and multi-level phenomenon. In this article we focus on its three manifestations: information and communication technologies (ICT), Industry 4.0 and agile manufacturing. The aim of this article is to analyse the relationship between these constructs as they are undoubtedly interrelated. ICT plays a key role, but it is not a goal itself. They are a prerequisite for the implementation of Industry 4.0, but together with it they serve to achieve agility by the manufacturing system and, as a result, achieve a competitive advantage by companies operating in turbulent and unpredictable environment. The literature findings in this paper are part of a broader study conducted on the impact of ICT on agility of SMEs operating in India. Therefore, we include also subsections showing the level of this relationship in Indian SMEs.

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Authors and Affiliations

Ibrahim Khan Mohammed

Stefan Trzcielinski

10 Industrial Symbiosis, Circular Economy and Industry 4.0 – A Case Study in Finland

Anne-Mari Järvenpää , Vesa Salminen , Jussi Kantola

Management and Production Engineering Review | 2021 | vol. 12 | No 4 | DOI: 10.24425/mper.2021.139999

Keywords: Circular Economy Industrial Symbiosis Industry 4.0

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Abstract

The aim of our research is to gain understanding about material flow related information sharing in the circular economy value network in the form of industrial symbiosis. We need this understanding for facilitating new industrial symbiosis relationships and to support the optimization of operations. Circular economy has been promoted by politics and regulation by EU. In Finland, new circular economy strategy raises the facilitation of industrial symbiosis and data utilization as the key actions to improve sustainability and green growth. Companies stated that the practical problem is to get information on material availability. Digitalization is expected to boost material flows in circular economy by data, but what are the real challenges with circular material flows and what is the willingness of companies to develop co-operation? This paper seeks understanding on how Industry 4.0 is expected to improve the efficiency of waste or by-product flows and what are the expectations of companies. The research question is: How Industry 4.0 technologies and solutions can fix the gaps and discontinuities in the Industrial Symbiosis information flow? This research is conducted as a qualitative case study research with three cases, three types of material and eight companies. Interview data were collected in Finland between January and March 2021. Companies we interviewed mentioned use-cases for sensors and analytics to optimize the material flow but stated the investment cost compared to the value of information. To achieve sustainable circular material flows, the development needs to be done in the bigger picture, for the chain or network of actors, and the motivation and the added value must be found for each of them.

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Authors and Affiliations

Anne-Mari Järvenpää

Vesa Salminen

Jussi Kantola

11 Quality Cost Account as a Framework of Continuous Improvement at Operational and Strategic Level

Ilona Herzog , Marta Grabowska

Management and Production Engineering Review | 2021 | vol. 12 | No 4 | DOI: 10.24425/mper.2021.140000

Keywords: Quality costs Improvement projects Quality management Operational Strategic decisions

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Abstract

The aim of the article is to present an exemplary system for recording and analyzing quality costs and to demonstrate that it is helpful in planning and assessing the effectiveness of continuous improvement processes at the operational and strategic level. Various approaches to defining quality costs are described, followed by indicators for assessing effectiveness and tools to collect data on the values of individual groups of quality costs and compare them with financial indicators. The practical part presents a case study on the quality cost accounting system in a medical company and the possibility of using quality cost accounting to plan and evaluate continuous improvement processes and make managerial decisions.

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Authors and Affiliations

Ilona Herzog

Marta Grabowska

12 A Measuring Tool for the Digital Maturity of Small and Medium-Sized Enterprises

Ágnes Sándor , Ákos Gubán

Management and Production Engineering Review | 2021 | vol. 12 | No 4 | DOI: 10.24425/mper.2021.140001

Keywords: digitalization Digital maturity model SMEs Fuzzy method

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Abstract

In digital revolution, the appropriate IT infrastructure, technological knowledge are essential for the success of companies, where the success of the digital transformation depends on digital maturity. The aim of the study is to define the digital maturity, theoretical foundation of the digital maturity model and present a framework for small and medium-sized enterprises (SMEs) understanding where they are in digitalisation (how advanced their digital resource system and digital approach) to respond faster and efficiently to environmental changes. The model construction is based on theory of dynamic capabilities, graduation models, and SMEs management challenges. The model is a dynamic model to support management in strategic, digital and organizational developments, which is divided into IT and organizational dimensions, including 6 components and 28 subcomponents. The ultimate goal of the study is to determine the component weights to create a neurofuzzy model.

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Authors and Affiliations

Ágnes Sándor

Ákos Gubán

Instructions for authors

REVIEW PROCESS

Received manuscripts are first examined by the Management and Production Engineering Review Editors.
Manuscripts clearly not suitable for publication, incomplete or not prepared in the required style will be sent back to the authors without scientific review, but may be resubmitted as soon as they have been corrected.
The corresponding author will be notified by e-mail when the manuscript is registered at the Editorial Office (office@mper.org). The responsible editor will make the decision either to send the manuscript to another reviewer to resolve the difference of opinion or return it to the authors for revision. The ultimate decision to accept, accept subject to correction, or reject a manuscript lies within the prerogative of the Editor-in-Chief and is not subject to appeal. The editors are not obligated to justify their decision.
All manuscripts submitted to MPER editorial system ( https://www.editorialsystem.com/mper/) will be sent to at least two and in some cases three reviewers for passing the double-blind review process.
The material formatted in the MPER format must be unpublished and not under submission elsewhere.

REVIEWERS
Once a year a list of co-operating reviewers is publish in electronic version of MPER. All articles published in MPER are published in open access.

APC
In order to provide free access to readers, and to cover the costs of copyediting, typesetting, long-term archiving, and journal management, an article processing charge (APC) of 800 PLN (about 180 Euro, VAT included) for 10-page article applies to papers accepted after peer review. Each additional page of the article (over 10 pages) costs 80 PLN (about 18 Euro, VAT included).
Maximum length of the article is 18 pages (using MPER template).
There is no submission charge.

Guidelines for Authors

Template for Authors

Additional info

The non-commercial use of the article will be governed by the Creative Commons Attribution license as currently displayed on https://creativecommons.org/licenses/by/4.0/.

Publication Ethics Policy

The ethics statements for the journal Management and Production Engineering Review are based on the guidelines of Committee on publication ethics (COPE) and the ELSEVIER publishing ethics resource kit.
For Authors: All articles, published in the journal Management and Production Engineering Review have to comprise a list of references which correspond with the journal’s Instructions to authors for paper preparation. The authors should ensure that they have written entirely original works, and if the authors have used the work and/or words of others that this has been appropriately cited or quoted. All articles are tested using antyplagiarism programme. An author should not in general publish manuscripts describing essentially the same research in more than one journal or primary publication. Submitting the same manuscript to more than one journal concurrently constitutes unethical publishing behaviour and is unacceptable. Authorship should be limited to those who have made a significant contribution to the conception, design, execution, or interpretation of the reported study. The corresponding author should ensure that all co-authors have seen and approved the final version of the paper and have agreed to its submission for publication. All authors should disclose in their manuscript any financial or other substantive conflict of interest that might be construed to influence the results or interpretation of their manuscript. All sources of financial support for the project should be disclosed.
For Editor-in-Chief: The editor is responsible for decision which of the articles submitted to the journal should be published. The editor and editorial board and office must not disclose any information about a submitted manuscript to anyone other than the corresponding author, reviewers, potential reviewers, other editorial advisers, and the publisher, as appropriate. Unpublished materials disclosed in a submitted manuscript must not be used in an editor's own research without the express written consent of the author.
For Reviewers: Peer review helps the editor in making editorial decisions and also assist the author in improving the paper. Any selected referee who feels unqualified to review the research reported in a manuscript or knows that its prompt review will be impossible should notify the editor and excuse himself from the review process. Any manuscripts received for review must be treated as confidential documents. They must not be shown to or discussed with others except as authorized by the editor. Reviews should be conducted objectively. Personal criticism of the author is inappropriate. Reviewers should identify relevant published work that has not been cited by the authors. Any statement that an observation, derivation, or argument had been previously reported should be accompanied by the relevant citation. A reviewer should also call to the editor's attention any substantial similarity or overlap between the manuscript under consideration and any other published paper of which they have personal knowledge. Information obtained through peer review must be kept confidential and not used for personal advantage. Reviewers should not consider manuscripts in which they have conflicts of interest resulting from competitive, collaborative, or other relationships or connections with any of the authors, companies, or institutions connected to the papers. Other sources: http://apem-journal.org/

Peer-review Procedure

Received manuscripts are first examined by the Management and Production Engineering Review Editors. Manuscripts clearly not suitable for publication, incomplete or not prepared in the required style will be sent back to the authors without scientific review, but may be resubmitted as soon as they have been corrected. The corresponding author will be notified by e-mail when the manuscript is registered at the Editorial Office (office@mper.org). The ultimate decision to accept, accept subject to correction, or reject a manuscript lies within the prerogative of the Editor-in-Chief and is not subject to appeal. The editors are not obligated to justify their decision. All manuscripts submitted to MPER editorial office (e-mail: office@mper.org) will be sent to at least two and in some cases three reviewers for passing the double-blind review process. The responsible editor will make the decision either to send the manuscript to another reviewer to resolve the difference of opinion or return it to the authors for revision.

The average time during which the preliminary assessment of manuscripts is conducted - 14 days
The average time during which the reviews of manuscripts are conducted - 6 months
The average time in which the article is published - 8.4 months

Reviewers

Zahid Hussain Agha Sarhad University of Science and IT Peshawar Pakistan
Mehmet Ali Akinlar Yildiz Technical University Turkey
Zoran Anisic University of Novi Sad, Faculty of Technical Sciences Serbia
Katarzyna Antosz Rzeszow University of Technology Poland
Rajesh As Maharaja Institute of Technology Thandavapura India
Erfan Babaee Tirkolaee Mazandaran University of Science and Technology Iran
Zbigniew Banaszak Koszalin University of Technology Poland
Jolanta Baran Silesian University of Technology Poland
Mariusz Bednarek WSB Warszawa Poland
Srinivasa Murthy Boorla Grupo Antolin Spain
Oumaima Bounou FST-Fez Marocco
Robert Cep VSB-TU OSTRAVA Czech Republic
Fatih Çetin Niğde Ömer Halisdemir University Turkey
Claudiu Cicea Bucharest University of Economic Studies Romania
Pedro Cunha Instituto Politécnico de Setúbal Portugal
Szymon Cyfert Poznań University of Economics and Business Poland
Asta Daunorienė Assoc. prof., Kaunas University of Technology Lithuania
Ahmed Deif Associate Prof. California Polytechnic State University USA
Yuliia Denysenko Sumy State University Ukraine
Jacek Diakun Poznań University of Technology Poland
Ewa Dostatni Poznan University of Technology Poland
Joanna Duda AGH University of Science and Technology Poland
Milan Edl University of West Bohemia Czech Republic
Joanna Ejdys Bialystok University of Technology Poland
Nurprihatin Filscha Department of Industrial Engineering, Universitas Bunda Mulia Indonesia
Adi Fitra Magister Industrial Engineering ,Mercubuana University Indonesia
Mosè Gallo Department of Chemical, Materials and Industrial Production Engineering, University of Napoli Federico II Italy
Józef Gawlik Cracow Univesity of Technology Poland
Andrzej Gessner Poznan University of Technology Poland
Arkadiusz Gola Lublin University of Technology, Poland Poland
Alireza Goli Department of industrial engineering, Yazd university, Yazd, Iran Iran
Błażej Góralski Poznan University of Technology Chair of Production Engineering Poland
Pop Grigore Marian Technical university of Cluj-Napoca Romania
Łukasz Grudzień Poznan University of Technology Poland
Vitalii Ivanov Sumy State University Ukraine
Małgorzata Jasiulewicz-Kaczmarek Poznan University of Technology Poland
Jozef Jurko Technical University in Košice Poland
Oksana Karpenko RUDN University Russia
Anna Karwasz Poznan University of Technology Poland
Sławomir Klos University of Zielona Góra, Institute of Mechanical Engineering Poland
Remigiusz Kozlowski University of Lodz Poland
Stanisław Krzyżaniak Poznań School of Logistics Poland
Anna Lewandowska-Ciszek State University of Applied Sciences in Konin Poland
Jerzy Lewandowski Warsaw University of Technology Poland
Anna Lis Gdańsk University of Technology Poland
Reza Lotfi Department of industrial engineering Yazd University Iran
Sylwia Łęgowik-Świącik Czestochowa University of Technology Poland
Iulian Malcoci PhD, Associate Professor / Mechanical Engineering Moldova
Damjan Maletic University of Maribor, Faculty of Organizational Sciences Slovenia
Paweł Mielcarek Poznań University of Economics and Business Poland
Anna Nagyova Technical University of Kosice Slovakia
Andrei Stefan Nestian Alexandru Ioan Cuza University Iasi, Romania Romania
Filip Osiński Poznan University of Technology Poland
Ivan Pavlenko Sumy State University Ukraine
Dragan Peraković University of Zagreb, Faculty of transport and traffic sciences Croatia
Niles Perera University of Moratuwa Sri Lanka
Jan Pitel Technical University of Kosice, Faculty of Manufacturing Technologies, Slovakia Slovakia
Paulina Rewers Poznan University od Technology Poland
Piotr Rogala Uniwersytet Ekonomiczny we Wrocłąwiu Poland
Izabela Rojek Kazimierz WIelki University Poland
Łukasz Rymaniak Poznan University of Technology Poland
Krzysztof Santarek Politechnika Warszawska Poland
Michał Sąsiadek Uniwersytet Zielonogórski Poland
Shah Rukh Shakeel University of Vaasa Finland Finland
Parveen Sharma Lovely Professional University Phagwara India
Dorota Stadnicka Rzeszow University of Technology Poland
Binod Timilsina University of Vaasa Finland
Justyna Trojanowska Poznan University of Technology Poland
Stefan Trzcielinski Poznan University of Technology, Faculty of Engineering Management Poland
Mariusz Uchroński Wroclaw University of Science and Technology Poland
Nicolae Stelian Ungureanu Technical University of Cluj-Napoca , Romania Romania
Wiesław Urban Politechnika Białostocka Poland
Wiesław Urban Bialystok University of Technology Poland
Gerhard-Wilhelm Weber FEM, PUT Poland
Ewa Więcek-Janka PUT Poland
Marek Wirkus Politechnika Gdańska, Wydział Zarządzenia i Ekonomii Poland
Rika Yunitarini Trunojoyo University Indonesia Indonesia
Jozef Zajac TU Kosice Slovakia
Paweł Zmarzły Kielce University of Technology Poland
Krzysztof Żywicki Poznan University of Technology Poland