Modeling and Analyzing of Breast Tumor Deterioration Process with Petri Nets and Logistic Regression

Xuyue Wang; Wangyang Yu; Zeyuan Ding; Xiaojun Zhai; Sangeet Saha

doi:10.23919/CSMS.2022.0016

AI Chat Paper

Note: Please note that the following content is generated by AMiner AI. SciOpen does not take any responsibility related to this content.

Chat more with AI

| Sign up

Browse by Subject

Search for peer-reviewed journals with full access.

Journals A - Z

About Us

Discover the SciOpen Platform and Achieve Your Research Goals with Ease.

About Us

Publish with Us

Support

Journals A - Z

About Us

Publish with Us

Support

PDF (1.2 MB)

Cite

EndNote(RIS) BibTeX

Collect

Submit Manuscript

AI Chat Paper

Show Outline

Outline

Show full outline

Hide outline

Outline

Show full outline

Hide outline

Open Access

Modeling and Analyzing of Breast Tumor Deterioration Process with Petri Nets and Logistic Regression

Xuyue Wang^¹, Wangyang Yu^¹(

), Zeyuan Ding^², Xiaojun Zhai^³, Sangeet Saha^³

1Key Laboratory of Intelligent Computing and Service Technology for Folk Song, Ministry of Culture and Tourism, and School of Computer Science, Shaanxi Normal University, Xi’an 710100, China

2School of Computer Science, Shaanxi Normal University, Xi’an 710100, China

3School of Computer Science and Electronic Engineering, University of Essex, Colchester, CO4 3SQ, UK

Show Author Information

Abstract

It is important to understand the process of cancer cell metastasis and some cancer characteristics that increase disease risk. Because the occurrence of the disease is caused by many factors, and the pathogenesis process is also complicated. It is necessary to use interpretable and visual modeling methods to characterize this complex process. Machine learning techniques have demonstrated extraordinary capabilities in identifying models and extracting patterns from data to improve medical prognostic decisions. However, in most cases, it is unexplainable. Using formal methods to model can ensure the correctness and understandability of prediction decisions in a certain extent, and can well visualize the analysis process. Coloured Petri Nets (CPN) is a powerful formal model. This paper presents a modeling approach with CPN and machine learning in breast cancer, which can visualize the process of cancer cell metastasis and the impact of cell characteristics on the risk of disease. By evaluating the performance of several common machine learning algorithms, we finally choose the logistic regression algorithm to analyze the data, and integrate the obtained prediction model into the CPN model. Our method allows us to understand the relations among the cancer cell metastasis and clearly see the quantitative prediction results.

Keywords

machine learning breast cancer coloured Petri nets visual modeling

References

D. Dou and W. Luo, Clinical diagnosis, formation mechanism and treatment of breast cancer, Genomics and Applied Biology, vol. 40, no. 2, pp. 946–952, 2021.

Google Scholar

X. Chen, H. Peng, J. Wang, and F. Hao, Supervisory control of discrete event systems under asynchronous spiking neuron P systems, Information Sciences, vol. 597, pp. 253–273, 2022.

Crossref Google Scholar

W. Yu, M. Jia, X. Fang, Y. Lu, and J. Xu, Modeling and analysis of medical resource allocation based on timed colored petri net, Future Generation Computer Systems, vol. 111, pp. 368–374, 2020.

Crossref Google Scholar

M. Jia, W. Yu, X. Zhai, and S. Saha, Modeling and analysis of first aid command and dispatching system of cloud medical system, IEEE Access, vol. 7, pp. 168752–168758, 2019.

Crossref Google Scholar

C. C. Black, R. Richards, and J. M. Czum, Educational case: Aspiration pneumonia, Academic Pathology, vol. 6, p. 2374289519893082, 2019.

Crossref Google Scholar

Z. Wu, Petri Nets Introduction. Beijing, China: Machinery Industry Press, 2006.

M. Nadji-Tehrani and A. Eslami, A brain-inspired framework for evolutionary artificial general intelligence, IEEE Transactions on Neural Networks and Learning Systems, vol. 31, no. 12, pp. 5257–5271, 2020.

Crossref Google Scholar

M. Chen and R. Hofestädt, A medical bioinformatics approach for metabolic disorders: Biomedical data prediction, modeling, and systematic analysis, Journal of Biomedical Informatics, vol. 39, no. 2, pp. 147–159, 2006.

Crossref Google Scholar

S. Gupta, Z. Fatima, and S. Kumawat, Study of the bioenergetics to identify the novel pathways as a drug target against mycobacterium tuberculosis using petri net, Biosystems, vol. 209, no. 2, p. 104509, 2021.

Google Scholar

D. Formanowicz, A. Sackmann, A. Kozak, J. Błażewicz, and P. Formanowicz, Some aspects of the anemia of chronic disorders modeled and analyzed by petri net based approach, Bioprocess and Biosystems Engineering, vol. 34, no. 5, pp. 581–595, 2011.

Crossref Google Scholar

A. Sackmann, D. Formanowicz, P. Formanowicz, I. Koch, and J. Blazewicz, An analysis of the petri net based model of the human body iron homeostasis process, Computational Biology and Chemistry, vol. 31, no. 1, pp. 1–10, 2007.

Crossref Google Scholar

K. Paranjape, M. Schinkel, and P. Nanayakkara, Short keynote paper: Mainstreaming personalized healthcare—transforming healthcare through new era of artificial intelligence, IEEE Journal of Biomedical and Health Informatics, vol. 24, no. 7, pp. 1860–1863, 2020.

Google Scholar

S. Kaur, J. Singla, L. Nkenyereye, S. Jha, D. Prashar, G. P. Joshi, S. El-Sappagh, M. S. Islam, and S. M. R. Islam, Medical diagnostic systems using artificial intelligence (AI) algorithms: Principles and perspectives, IEEE Access, vol. 8, pp. 228049–228069, 2020.

Crossref Google Scholar

M. Nauman, N. Akhtar, A. Alhudhaif, and A. Alothaim, Guaranteeing correctness of machine learning based decision making at higher educational institutions, IEEE Access, vol. 9, pp. 92864–92880, 2021.

Crossref Google Scholar

H. Jiang and O. Nachum, Identifying and correcting label bias in machine learning, in Proc. 23^rd International Conference on Artificial Intelligence and Statistics, Online, 2020, pp. 702–712.

C. Molnar, Interpretable Machine Learning. Raleiqh, NC, USA: Lulu Press, 2019.

M. Nauman, N. Akhtar, O. H. Alhazmi, M. Hameed, H. Ullah, and N. Khan, Improving the correctness of medical diagnostics based on machine learning with coloured petri nets, IEEE Access, vol. 9, pp. 143434–143447, 2021.

Crossref Google Scholar

X. Wu, K. Zhang, Y. Xing, W. Zhou, Y. Shao, G. Li, and Q. Rui, Dysregulated thyroid hormones correlate with anxiety and depression risk in patients with autoimmune disease, Journal of Clinical Laboratory Analysis, vol. 35, no. 1, p. e23573, 2021.

Google Scholar

K. Jensen, L. M. Kristensen, and L. Wells, Coloured petri nets and CPN tools for modelling and validation of concurrent systems, International Journal on Software Tools for Technology Transfer, vol. 9, nos. 3&4, pp. 213–254, 2007.

Crossref Google Scholar

W. Yu, M. Jia, X. Fang, Y. Lu, and J. Xu, Modeling and analysis of medical resource allocation based on timed colored petri net, Future Generation Computer Systems, vol. 111, pp. 368–374, 2020.

Crossref Google Scholar

Y. Wang, W. Yu, P. Teng, G. Liu, and D. Xiang, A detection method for abnormal transactions in e-commerce based on extended data flow conformance checking, Wireless Communications and Mobile Computing, vol. 2022, p. 4434714, 2022.

Google Scholar

T. A. Ince, A. L. Richardson, G. W. Bell, M. Saitoh, S. Godar, A. E. Karnoub, J. D. Iglehart, and R. A. Weinberg, Transformation of different human breast epithelial cell types leads to distinct tumor phenotypes, Cancer Cell, vol. 12, no. 2, pp. 160–170, 2007.

Crossref Google Scholar

I. H. Sarker, Machine learning: Algorithms. real-world applications and research directions, SN Computer Science, vol. 2, no. 3, p. 160, 2021.

Crossref Google Scholar

K. Wittkowski, Classification and regression trees—L. Breiman, J. H. Friedman, R. A. Olshen and C. J. Stone, Metrika, vol. 33, pp. 128–128, 1986.

L. Wells, H. M. Lassen, K. B. Lassen, M. Laursen, and K. Jensen, CPN tools for editing, simulating, and analyzing coloured petri nets - version 1.0 and beyond, doi: 10.1007/3-540-44919-1_28.

Complex System Modeling and Simulation

Volume 2 Issue 3,
September 2022

Pages 264-272

DOI: 10.23919/CSMS.2022.0016

Cite this article:

Wang X, Yu W, Ding Z, et al. Modeling and Analyzing of Breast Tumor Deterioration Process with Petri Nets and Logistic Regression. Complex System Modeling and Simulation, 2022, 2(3): 264-272. https://doi.org/10.23919/CSMS.2022.0016

722

Views

Downloads

Crossref

Scopus

Google Scholar
Citation

Altmetrics

Received: 02 July 2022

Revised: 05 August 2022

Accepted: 10 August 2022

Published: 30 September 2022

The articles published in this open access journal are distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/).