Öz
Prostate cancer is one of
the most common types of cancer among males as well as causing the most deaths.
Early diagnosis of prostate cancer plays an important role in the treatment of
the disease. Therefore, microarray technology is widely used in the diagnosis
of inherited diseases such as prostate cancer. With this technology, it is
possible to obtain more knowledge about cancer by analyzing thousands of gene
expressions. However, it is quite difficult to analyze complex relationships
among thousands of genes in microarray data. For this reason, high performance
artificial intelligence-based classification methods are needed in recent
years. In this study, a hybrid method has been proposed for optimizing the
parameters of Adaptive Neuro Fuzzy Inference System (ANFIS) with Genetic
Algorithm (GA) in order to classify prostate cancer gene expression profiles.
The performance of the proposed method is compared with those of ANFIS models
trained by different learning algorithms. According to obtained results, the
proposed method is more successful than the other methods, with the accuracy of
90.32%.
Anahtar Kelimeler
ANFIS Microarray Prostate cancer Classification Genetic Algorithm
Kaynakça
- [1] Samli, H., Samli, M., Aztopal, N., Vatansever, B., Sigva, Z.O.D., Dincel, D., and Gunduz, C., (2015). Cytotoxic Effects of Palladium (II) Complex on Prostate Cancer Cells, XIV. National Congress of Medical Biology and Genetics, Muğla, pp:212–213.
- [2] Konac, E., (2015). Does the Future of Prostate Cancer Treatment Lie With Apoptotic Inducers?, XIV. National Congress of Medical Biology and Genetics, Muğla, pp:65–66.
- [3] Haznedar, B., Arslan, M.T., and Kalinli, A., (2017). Training ANFIS Structure Using Genetic Algorithm for Liver Cancer Classification based on Microarray Gene Expression Data. Sakarya University Journal of Science, 21(1), 54–62.
- [4] Arslan, M.T. and Kalinli, A., (2016). A Comparative Study of Statistical and Artificial Intelligence Based Classification Algorithms on Central Nervous System Cancer Microarray Gene Expression Data, International Journal of Intelligent Systems and Applications in Engineering, 4, 78–81.
- [5] Arslan, M.T. and Haznedar, B., (2016). Classification of Prostate Cancer Gene Expression Profile with ANFIS, 1st International Mediterranean Science and Engineering Congress (IMSEC 2016), Adana, pp:3333–3339.
- [6] Arslan, M.T. and Kalinli, A., (2016). Feature Selection and Classification on Prostate Cancer Microarray Gene Expression Profile,International Conference on Computer Science and Engineering(UBMK), Tekirdağ, pp:331–334.
- [7] Simon, D., (2002). Training Fuzzy Systems with The Extended Kalman Filter, Fuzzy Sets and Systems, 132(2), 189–199.
- [8] Seydi Ghomsheh, V., Aliyari Shoorehdeli, M., and Teshnehlab, M., (2007). Training ANFIS structure with Modified PSO Algorithm. 2007 Mediterranean Conference on Control & Automation, Athens, pp:1–6.
- [9] Shoorehdeli, M.A., Teshnehlab, M., and Sedigh, A.K., (2009). Training ANFIS as an Identifier with Intelligent Hybrid Stable Learning Algorithm Based on Particle Swarm Optimization and Extended Kalman Filter. Fuzzy Sets and Systems, 160(7), 922–948.
- [10] Turki, M., Bouzaida, S., Sakly, A., and M’Sahli, F., (2012). Adaptive Control of Nonlinear System Using Neuro-Fuzzy Learning by PSO Algorithm, 16th IEEE Mediterranean Electrotechnical Conference, pp:519–523.
- [11] Carrano, E.G., Takahashi, R.H.C., Caminhas, W.M., and Neto, O.M., (2008). A genetic Algorithm for Multiobjective Training of ANFIS Fuzzy Networks, IEEE Congress on Evolutionary Computation (IEEE World Congress on Computational Intelligence, Hong Kong, pp:3259–3265.
- [12] Cus, F., Balic, J., and Zuperl, U., (2009). Hybrid ANFIS-ants System Based Optimisation of Turning Parameters Manufacturing and Processing, Journal of Achievements in Material and Manufacturing Engineering, 36(1), 79–86.
- [13] Singh, D., Febbo, P.G., Ross, K., Jackson, D.G., Manola, J., Ladd, C., Tamayo, P., et al., (2002). Gene Expression Correlates of Clinical Prostate Cancer Behavior, Cancer Cell, 1(2), 203–209.
- [14] Holland, J.H., (1992). Genetic Algorithms, Scientific American, 267(1), 66–73.
- [15] Seker, S., (2007). Vehicle Routing Problems and Genetic Algorithm Approach to the Stochastic Vehicle Routing Problem with Time Windows, Yıldız Technical University.
- [16] Michalewicz, Z., (1996). Genetic Algorithms+Data Structures=Evolution Programs (3 rd edition.), NewYork: Springer-Verlag.
- [17] Jang, J.S.R., (1992). Self-learning Fuzzy Controllers Based on Temporal Backpropagation, IEEE Transactions on Neural Networks, 3(5), 714–723.
- [18] Gedik, F.A., (2011). Neuro-Fuzzy Approach for Solving Communication Network Problems, University of Ankara.
Öz
Prostate cancer is one of the most common types of cancer among males as well as causing the most deaths. Early diagnosis of prostate cancer plays an important role in the treatment of the disease. Therefore, microarray technology is widely used in the diagnosis of inherited diseases such as prostate cancer. With this technology, it is possible to obtain more knowledge about cancer by analyzing thousands of gene expressions. However, it is quite difficult to analyze complex relationships among thousands of genes in microarray data. For this reason, high performance artificial intelligence-based classification methods are needed in recent years. In this study, a hybrid method has been proposed for optimizing the parameters of Adaptive Neuro Fuzzy Inference System (ANFIS) with Genetic Algorithm (GA) in order to classify prostate cancer gene expression profiles. The performance of the proposed method is compared with those of ANFIS models trained by different learning algorithms. According to obtained results, the proposed method is more successful than the other methods, with the accuracy of 90.32%.
Anahtar Kelimeler
Microarray Prostate cancer Classification ANFIS Genetic Algorithm
Kaynakça
- [1] Samli, H., Samli, M., Aztopal, N., Vatansever, B., Sigva, Z.O.D., Dincel, D., and Gunduz, C., (2015). Cytotoxic Effects of Palladium (II) Complex on Prostate Cancer Cells, XIV. National Congress of Medical Biology and Genetics, Muğla, pp:212–213.
- [2] Konac, E., (2015). Does the Future of Prostate Cancer Treatment Lie With Apoptotic Inducers?, XIV. National Congress of Medical Biology and Genetics, Muğla, pp:65–66.
- [3] Haznedar, B., Arslan, M.T., and Kalinli, A., (2017). Training ANFIS Structure Using Genetic Algorithm for Liver Cancer Classification based on Microarray Gene Expression Data. Sakarya University Journal of Science, 21(1), 54–62.
- [4] Arslan, M.T. and Kalinli, A., (2016). A Comparative Study of Statistical and Artificial Intelligence Based Classification Algorithms on Central Nervous System Cancer Microarray Gene Expression Data, International Journal of Intelligent Systems and Applications in Engineering, 4, 78–81.
- [5] Arslan, M.T. and Haznedar, B., (2016). Classification of Prostate Cancer Gene Expression Profile with ANFIS, 1st International Mediterranean Science and Engineering Congress (IMSEC 2016), Adana, pp:3333–3339.
- [6] Arslan, M.T. and Kalinli, A., (2016). Feature Selection and Classification on Prostate Cancer Microarray Gene Expression Profile,International Conference on Computer Science and Engineering(UBMK), Tekirdağ, pp:331–334.
- [7] Simon, D., (2002). Training Fuzzy Systems with The Extended Kalman Filter, Fuzzy Sets and Systems, 132(2), 189–199.
- [8] Seydi Ghomsheh, V., Aliyari Shoorehdeli, M., and Teshnehlab, M., (2007). Training ANFIS structure with Modified PSO Algorithm. 2007 Mediterranean Conference on Control & Automation, Athens, pp:1–6.
- [9] Shoorehdeli, M.A., Teshnehlab, M., and Sedigh, A.K., (2009). Training ANFIS as an Identifier with Intelligent Hybrid Stable Learning Algorithm Based on Particle Swarm Optimization and Extended Kalman Filter. Fuzzy Sets and Systems, 160(7), 922–948.
- [10] Turki, M., Bouzaida, S., Sakly, A., and M’Sahli, F., (2012). Adaptive Control of Nonlinear System Using Neuro-Fuzzy Learning by PSO Algorithm, 16th IEEE Mediterranean Electrotechnical Conference, pp:519–523.
- [11] Carrano, E.G., Takahashi, R.H.C., Caminhas, W.M., and Neto, O.M., (2008). A genetic Algorithm for Multiobjective Training of ANFIS Fuzzy Networks, IEEE Congress on Evolutionary Computation (IEEE World Congress on Computational Intelligence, Hong Kong, pp:3259–3265.
- [12] Cus, F., Balic, J., and Zuperl, U., (2009). Hybrid ANFIS-ants System Based Optimisation of Turning Parameters Manufacturing and Processing, Journal of Achievements in Material and Manufacturing Engineering, 36(1), 79–86.
- [13] Singh, D., Febbo, P.G., Ross, K., Jackson, D.G., Manola, J., Ladd, C., Tamayo, P., et al., (2002). Gene Expression Correlates of Clinical Prostate Cancer Behavior, Cancer Cell, 1(2), 203–209.
- [14] Holland, J.H., (1992). Genetic Algorithms, Scientific American, 267(1), 66–73.
- [15] Seker, S., (2007). Vehicle Routing Problems and Genetic Algorithm Approach to the Stochastic Vehicle Routing Problem with Time Windows, Yıldız Technical University.
- [16] Michalewicz, Z., (1996). Genetic Algorithms+Data Structures=Evolution Programs (3 rd edition.), NewYork: Springer-Verlag.
- [17] Jang, J.S.R., (1992). Self-learning Fuzzy Controllers Based on Temporal Backpropagation, IEEE Transactions on Neural Networks, 3(5), 714–723.
- [18] Gedik, F.A., (2011). Neuro-Fuzzy Approach for Solving Communication Network Problems, University of Ankara.
Ayrıntılar
| Birincil Dil | İngilizce |
|---|---|
| Konular | Mühendislik |
| Bölüm | Makaleler |
| Yazarlar | |
| Yayımlanma Tarihi | 13 Ekim 2018 |
| Yayımlandığı Sayı | Yıl 2018 Cilt: 13 Sayı: 4 |