@article{Forysiewicz,2024,
abstract = {The article deals with a modern approach to the transfer of knowledge to participants in classes. Modern classes should be implemented ina way that is interesting and attracts the participant’s attention to active participation. The use of games for training purposes, leads to increased interest in the topic of training and enhances motivation to learn. In the age of civilised technological innovation, it is becoming particularly important to shape the social competences of employees. This can be achieved through educational simulation games, which are an interesting, but above all effective method of developing various groups of competencies. By conducting classes in the form of simulation games, we have the opportunity to present the theoretical aspects of a given issue and demonstrate its practical application in industry. Games on the subject of Lean Manufacturing are a favourite type of knowledge transfer related to this subject. The advantage of LM learning methods through simulation games is the possibility to ‘see from above’ the entire process and analyse different solutions. In order to reduce the costs of purchasing or subscribing to similar games, the authors of this article developed their own simulation for the purpose of teaching and training at the Academy of Applied Sciences in Walcz. The article presents the assumptions for the game and how to start training on Lean Manufacturing.},
author = {Monika Forysiewicz and  Jarosław Praźmo and Mariusz Wojtalik},
doi = {10.25961/ent.manag.27.02.01},
issue = {2},
journal = {Zarządzanie Przedsiębiorstwem. Enterprise Management},
keywords = {Educational game, Lean Manufacturing, production organization, improvements},
pages = {2-6},
title = {Exploring worker evaluation practices in mechanical engineering enterprises: a cross-sectional study},
volume = {27},
year = {2024},
} 

@article{Hamera,2024,
abstract = {Industry 5.0 builds upon the principles established by Industry 4.0, placing a stronger emphasis on human-centered design within industrial systems. Unlike its predecessor, which focused primarily on automating processes and maximizing efficiency, Industry 5.0 aims to harmonize advanced technology with human needs, prioritizing well-being and environmental sustainability. This approach integrates technologies such as artificial intelligence, robotics, and the Internet of Things, shaping global economic growth in a more inclusive and socially responsible direction. In this context, User Experience (UX) design becomes essential, as it enhances the interaction between users and complex technological systems, making them more intuitive and responsive to user needs. This study explores the origins of Industry 5.0,detailing its foundational technologies and examining how they align with the principles of human-centered design. Key technologies – like collaborative robots (cobots), AI-driven data analytics, and augmented reality – are discussed in relation to their impact on improving the user experience. By focusing on UX, Industry 5.0 not only aims to optimize operational efficiency but also addresses broader social and environmental goals. Through UX methodologies, industry innovations can achieve a balance between technological advancement and the well-being of individuals, promoting sustainable and human-centric growth across various sectors..},
author = {Anna Hamera},
doi = {10.25961/ent.manag.27.02.02},
issue = {2},
journal = {Zarządzanie Przedsiębiorstwem. Enterprise Management},
keywords = {Educational game, Lean Manufacturing, production organization, improvements},
pages = {7-15},
title = {Rola doświadczeń użytkownika w erze Przemysłu 5.0. The role of user experience in the era of Industry 5.0},
volume = {27},
year = {2024},
} 

@article{Jardzioch,2024,
abstract = {Modern production systems are characterised by a high degree of complexity, resulting from the use of many different technological processes, the parallel production of complex products, the use of advanced numerically controlled (CNC) machine tools and complex transport systems. At the same time, it is necessary to take into account many variables and constraints such as the availability of machines, tools and workers, stock levels in the warehouse, forecasted product demand, material handling capacities and the sequence in which individual tasks must be performed. Effective planning of the flow of items in such systems is key to achieving high productivity, minimising costs and ensuring on-time delivery. Traditional planning methods often prove insufficient in the face of dynamic and unpredictable production conditions. In this context, genetic algorithms (AG) represent a promising tool for optimising production processes. This paper presents an example of the application of a genetic algorithm to optimise the production process in an exemplary robotic production system. As the main optimisation criterion, the total sum of delays to be reckoned with when accepting a defined set of orders for execution. In addition, the total execution time for the set of orders and the machine tool utilisation rates during the entire production process were analysed. In order to be able to apply the genetic algorithm, it was necessary to build a parametric simulation model and integrate this model with the developed genetic algorithm. The simulation model was used to determine the objective function in the optimisation process implemented by the genetic algorithm.},
author = {Andrzej Jardzioch and  Bartosz Jardzioch},
doi = {10.25961/ent.manag.27.02.03},
issue = {2},
journal = {Zarządzanie Przedsiębiorstwem. Enterprise Management},
keywords = {Inventory management, storage, warehouse, production process, ceiling beam.},
pages = {16-22},
title = {Zastosowanie algorytmu genetycznego do planowania przepływu przedmiotów w złożonych systemach produkcyjnych. The application of a genetic algorithm for scheduling material flow in complex production system},
volume = {27},
year = {2024},
} 

@article{Jardzioch,2024,
abstract = {The aim of this paper is to present an approach that integrates most of the IT support needs of warehousing in a small business into a single solution and to provide a dynamic API (Application Programming Interface) that enables real-time database replication in both browser and desktop versions. The programme, which enables key tasks in warehouse operations has been designed using established technology and works without errors or problems. It has robust security features and a proprietary back-end and front-end, and is compatible with browsers and mobile systems, which was the main goal of the project. Considering the cost of creating a full version of the system based on the current prototype, it can be concluded that the programme is scalable and written in an intuitive way, reducing the need for a large number of developers, making it competitive in terms of maintenance costs.},
author = {Oskar Szymanski and  Łukasz Swiat and Dariusz Mikołajewski and Ewa Dostatni and Izabela Rojek},
doi = {10.25961/ent.manag.27.02.04},
issue = {2},
journal = {Zarządzanie Przedsiębiorstwem. Enterprise Management},
keywords = {Business management, ICT support, computerisation, SME.},
pages = {23-28},
title = {Wsparcie informatyczne zarzadzania praca magazynów w małym przedsiębiorstwie. IT support for warehouse management in a small company},
volume = {27},
year = {2024},
}