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Research Article
Level Process Station Control Using ALE111 Communication Module
Sivasankar S1
Sneha M2
Pranesh Raj K3
Athappan V4
1234 Electronics and Instrumentation Engineering, Kumaraguru College of Technology, Chinnavedampatti, Coimbatore. Tamilnadu, India.
Published Online: March-April 2024
Pages: 126-129
Cite this article
↗ https://www.doi.org/10.59256/ijire.20240502015
References
[1] MacGregor, J. F., & Kourti, T. . Statistical process control of multivariate processes. Control engineering practice, 3(3), 403-414.
[2] Brigham, F. R., & Laios, L. . Operator performance in the control of a laboratory process plant. Ergonomics, 18(1), 53-66.
[3] Christofides, P. D., Davis, J. F., El‐Farra, N. H., Clark, D., Harris, K. R., & Gipson, J. N. (2017). Smart plant operations: Vision,
progress and challenges. AiChE journal, 53(11), 2734-2741.
[4] Hogg, D. N., Folles, K. N. U. T., Strand-Volden, F., & Torralba, B. . Development of a situation awareness measure to evaluate advanced
alarm systems in nuclear power plant control rooms. Ergonomics, 38(11), 2394-2413.
[5] Paulus, S., & Mahlein, A. K. (2020). Technical workflows for hyperspectral plant image assessment and processing on the greenhouse
and laboratory scale. GigaScience, 9(8), giaa090.
[6] Hlava, J., & Šulc, B. (2018). Advanced modelling and control using a laboratory plant with hybrid processes. IFAC Proceedings
Volumes, 41(2), 14636-14641.
[7] Lind, M. Multilevel flow modelling of process plant for diagnosis and control. Risø National Laboratory.
[8] Seborg, D. E., Edgar, T. F., Mellichamp, D. A., & Doyle III, F. J. (2016). Process dynamics and control. John Wiley & Sons.
[9] Smith, C. A., & Corripio, A. B. (2015). Principles and practices of automatic process control. John wiley & sons
[2] Brigham, F. R., & Laios, L. . Operator performance in the control of a laboratory process plant. Ergonomics, 18(1), 53-66.
[3] Christofides, P. D., Davis, J. F., El‐Farra, N. H., Clark, D., Harris, K. R., & Gipson, J. N. (2017). Smart plant operations: Vision,
progress and challenges. AiChE journal, 53(11), 2734-2741.
[4] Hogg, D. N., Folles, K. N. U. T., Strand-Volden, F., & Torralba, B. . Development of a situation awareness measure to evaluate advanced
alarm systems in nuclear power plant control rooms. Ergonomics, 38(11), 2394-2413.
[5] Paulus, S., & Mahlein, A. K. (2020). Technical workflows for hyperspectral plant image assessment and processing on the greenhouse
and laboratory scale. GigaScience, 9(8), giaa090.
[6] Hlava, J., & Šulc, B. (2018). Advanced modelling and control using a laboratory plant with hybrid processes. IFAC Proceedings
Volumes, 41(2), 14636-14641.
[7] Lind, M. Multilevel flow modelling of process plant for diagnosis and control. Risø National Laboratory.
[8] Seborg, D. E., Edgar, T. F., Mellichamp, D. A., & Doyle III, F. J. (2016). Process dynamics and control. John Wiley & Sons.
[9] Smith, C. A., & Corripio, A. B. (2015). Principles and practices of automatic process control. John wiley & sons
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