Scientific publications
Publications
1. Szalewski, P., Niksa-Rynkiewicz, T., & Deja, M. (2024).
The study on the appearance of deformation defects in the yacht lamination process using an ai algorithm and expert knowledge. Scientific Reports, 14(1).
https://doi.org/10.1038/s41598-024-56410-w
2. Chodnicki, M., Deja, M., Vosniakos, G., Benardos, P., Wang, L., Wang, X. V., … & Reimann, R. (2023).
Project-based collaborative research and training roadmap for manufacturing based on industry 4.0. Lecture Notes in Mechanical Engineering, 708-715. https://doi.org/10.1007/978-3-031-38241-3_79
3. Savvakis, P., Vosniakos, G., Stathatos, E., Debar-Monclair, A., Chodnicki, M., & Benardos, P. (2023).
Uwb-based indoor navigation in a flexible manufacturing system using a custom quadrotor uav. Lecture Notes in Mechanical Engineering, 91-98.
4. Doroszko, M. and Seweryn, A. (2024).
Cyclic behaviour modelling of additively manufactured ti-6al-4v lattice structures. International Journal of Mechanical Sciences, 273, 109219.
5. Jędrych, M., Gorzkiewicz, D., Deja, M., & Chodnicki, M. (2024).
Application of 3d scanning and computer simulation techniques to assess the shape accuracy of welded components. The International Journal of Advanced Manufacturing Technology, 138(1), 127-135.
6. ILIOPOULOU, V., VOSNIAKOS G-C. (2024).
Injection molding control parameter assessment by nested taguchi design of simulation experiments: a case study. Materials Research Proceedings, 41, 2757-2766.
7. Zieliński, D., Deja, M., & Zhu, R. (2025).
Quality evaluation of small features fabricated by fused filament fabrication method. Materials, 18(3), 507.
8. Zieliński, D., Deja, M., & Zator, M. (2024).
A comparative study of precision surface grinding using additively fabricated acrylonitrile–butadiene–styrene (abs) wheels with continuous and serrated working surfaces. Materials, 17(23), 5867.
9. Medibew, T. M., Zieliński, D., Agebo, S. W., & Deja, M. (2025).
Recent research progress in the abrasive machining and finishing of additively manufactured metal parts. Materials, 18(6), 1249.
10. Zieliński, D., Deja, M., Grzesik, W., & Żak, K. (2025).
High performance eco-friendly free abrasive machining using an additively fabricated tool and pcd based slurry. Scientific Reports, 15(1).
11. Agebo, S. W., Zieliński, D., & Deja, M. (2025).
Influence of the three-body abrasion kinematics on the surface characteristics of an sls-fabricated tool during machining of ceramics. Scientific Reports, 15(1).
12. Chodnicki, M., Sommer, A., Jędrych, M., Woźniak, T., Staroszczyk, H., Deja, M.
Innovative Modifications in Cellulose Hygiene Paper: Enhancing Strength and Disintegration through Sustainable Processing. In: Srihari, K., Khasawneh, M.T., Yoon, S., Won, D. (eds) Flexible Automation and Intelligent Manufacturing: The Future of Automation and Manufacturing: Intelligence, Agility, and Sustainability. FAIM 2025. Lecture Notes in Mechanical Engineering. Springer, Cham
13. Niksa-Rynkiewicz, T., Benardos, P., Witkowska, A., & Vosniakos, G. (2025).
An investigation of simple neural network models using smartphone signals for recognition of manual industrial tasks. Scientific Reports, 15(1).
14. Agebo, S. W., Zieliński, D., & Deja, M. (2024).
Comparison of different optical measurement methods in the evaluation of the wear of sls-fabricated tool used for free abrasive machining. Available at SSRN.
15. Qin, Q., Liu, Z., Zhong, R., Wang, X. V., Wang, L., Wiktorsson, M., … & Wang, W. (2026).
Robot digital twin systems in manufacturing: technologies, applications, trends and challenges. Robotics and Computer-Integrated Manufacturing, 97, 103103.
The study on the appearance of deformation defects in the yacht lamination process using an ai algorithm and expert knowledge. Scientific Reports, 14(1).
https://doi.org/10.1038/s41598-024-56410-w
2. Chodnicki, M., Deja, M., Vosniakos, G., Benardos, P., Wang, L., Wang, X. V., … & Reimann, R. (2023).
Project-based collaborative research and training roadmap for manufacturing based on industry 4.0. Lecture Notes in Mechanical Engineering, 708-715. https://doi.org/10.1007/978-3-031-38241-3_79
3. Savvakis, P., Vosniakos, G., Stathatos, E., Debar-Monclair, A., Chodnicki, M., & Benardos, P. (2023).
Uwb-based indoor navigation in a flexible manufacturing system using a custom quadrotor uav. Lecture Notes in Mechanical Engineering, 91-98.
https://doi.org/10.1007/978-3-031-38241-3_114. Doroszko, M. and Seweryn, A. (2024).
Cyclic behaviour modelling of additively manufactured ti-6al-4v lattice structures. International Journal of Mechanical Sciences, 273, 109219.
https://doi.org/10.1016/j.ijmecsci.2024.1092195. Jędrych, M., Gorzkiewicz, D., Deja, M., & Chodnicki, M. (2024).
Application of 3d scanning and computer simulation techniques to assess the shape accuracy of welded components. The International Journal of Advanced Manufacturing Technology, 138(1), 127-135.
https://doi.org/10.1007/s00170-024-14498-46. ILIOPOULOU, V., VOSNIAKOS G-C. (2024).
Injection molding control parameter assessment by nested taguchi design of simulation experiments: a case study. Materials Research Proceedings, 41, 2757-2766.
https://doi.org/10.21741/9781644903131-3027. Zieliński, D., Deja, M., & Zhu, R. (2025).
Quality evaluation of small features fabricated by fused filament fabrication method. Materials, 18(3), 507.
https://doi.org/10.3390/ma180305078. Zieliński, D., Deja, M., & Zator, M. (2024).
A comparative study of precision surface grinding using additively fabricated acrylonitrile–butadiene–styrene (abs) wheels with continuous and serrated working surfaces. Materials, 17(23), 5867.
https://doi.org/10.3390/ma172358679. Medibew, T. M., Zieliński, D., Agebo, S. W., & Deja, M. (2025).
Recent research progress in the abrasive machining and finishing of additively manufactured metal parts. Materials, 18(6), 1249.
https://doi.org/10.3390/ma1806124910. Zieliński, D., Deja, M., Grzesik, W., & Żak, K. (2025).
High performance eco-friendly free abrasive machining using an additively fabricated tool and pcd based slurry. Scientific Reports, 15(1).
https://doi.org/10.1038/s41598-025-16363-011. Agebo, S. W., Zieliński, D., & Deja, M. (2025).
Influence of the three-body abrasion kinematics on the surface characteristics of an sls-fabricated tool during machining of ceramics. Scientific Reports, 15(1).
https://doi.org/10.1038/s41598-025-02692-712. Chodnicki, M., Sommer, A., Jędrych, M., Woźniak, T., Staroszczyk, H., Deja, M.
Innovative Modifications in Cellulose Hygiene Paper: Enhancing Strength and Disintegration through Sustainable Processing. In: Srihari, K., Khasawneh, M.T., Yoon, S., Won, D. (eds) Flexible Automation and Intelligent Manufacturing: The Future of Automation and Manufacturing: Intelligence, Agility, and Sustainability. FAIM 2025. Lecture Notes in Mechanical Engineering. Springer, Cham
13. Niksa-Rynkiewicz, T., Benardos, P., Witkowska, A., & Vosniakos, G. (2025).
An investigation of simple neural network models using smartphone signals for recognition of manual industrial tasks. Scientific Reports, 15(1).
https://doi.org/10.1038/s41598-025-06726-y14. Agebo, S. W., Zieliński, D., & Deja, M. (2024).
Comparison of different optical measurement methods in the evaluation of the wear of sls-fabricated tool used for free abrasive machining. Available at SSRN.
https://doi.org/10.2139/ssrn.484484215. Qin, Q., Liu, Z., Zhong, R., Wang, X. V., Wang, L., Wiktorsson, M., … & Wang, W. (2026).
Robot digital twin systems in manufacturing: technologies, applications, trends and challenges. Robotics and Computer-Integrated Manufacturing, 97, 103103.
https://doi.org/10.1016/j.rcim.2025.103103