Dimensionality reduction of medical big data using neural-fuzzy classifier

Assad AH, Azar AT, Hassanien AE (2014) A comparative study on feature selection for retinal vessel segmentation using ant colony system. Recent Adv Intell Inf Adv Intell Syst Comput 235(2014):1–11. doi: 10.1007/978-3-319-01778-5_1

Azar AT, El-Said SA (2013) Superior neuro-fuzzy classification systems. Neural Comput Appl 23(1):55–72. doi: 10.1007/s00521-012-1231-8 (Springer)

Azar AT (2013a) Multi-adaptive neural-fuzzy system as a novel predictor of in-vivo blood side dialyzer urea clearance. Int J Comput Appl Technol 46(2):77–90

Azar AT (2013b) Adaptive network based on fuzzy inference system for equilibrated urea concentration prediction. Comput Methods Progr Biomed 111(3):578–591 (Elsevier)

Azar AT (2013c) A novel ANFIS application for prediction of post-dialysis blood urea concentration. Int J Intell Syst Technol Appl (IJISTA) 12(2):87–110

Azar AT (2013d) Neuro-fuzzy applications in dialysis systems. In: Azar AT (ed) Biofeedback systems and soft computing techniques of dialysis, vol 405. Springer-Verlag GmbH, Berlin, Heidelberg, pp 1223–1274. doi: 10.1007/978-3-642-27558-6_10

Azar AT, El-Said SA, Balas VE, Olariu T (2013a) Linguistic hedges fuzzy feature selection for erythemato-squamous diseases. In: Balas VE, Fodor J, Várkonyi-Kóczy AR, Dombi J, Jain LC (eds) Soft computing applications, advances in intelligent systems and computing (AISC), vol 195. Springer, Berlin, Heidelberg, pp 487–500. doi: 10.1007/978-3-642-33941-7_43

Azar AT, Banu PKN and Inbarani HH (2013b) PSORR—an unsupervised feature selection technique for fetal heart rate. In: 5th international conference on modelling, identification and control (ICMIC 2013), 31 August. Egypt, 1–2 Sept 2013

Azar AT, Hassanien AE, Kim TH (2012) Expert system based on neural-fuzzy rules for thyroid diseases diagnosis. In: International conference on bio-science and bio-technology (BSBT 2012), 16–19 Dec 2012, Korea, vol 353 of the communications in computer and information science series. Springer, pp 94–105. ISBN:978-3-642-35520-2. doi: 10.1007/978-3-642-35521-9_13

Azar AT (2012) Overview of type-2 fuzzy logic systems. Int J Fuzzy Syst Appl (IJFSA) 2(4):1–28

Azar AT (2010a) Fuzzy systems. IN-TECH, Vienna

Azar AT (ed) (2010b) Adaptive neuro-fuzzy systems. Fuzzy systems. IN-TECH, Austria, pp 85–110

Azar AT (2011) Neuro-fuzzy system for cardiac signals classification. Int J Model Identif Control (IJMIC) 13(1/2):108–116

Bache K, Lichman M, (2013) UCI Machine Learning Repository. University of California, School of Information and Computer Science, Irvine. http://archive.ics.uci.edu/ml . Accessed 04 June 2014

Banks W (1994) Mixing crisp and fuzzy logic in applications. WESCON’94 Idea/ microelectronics conference record, Anaheim, pp 94–97

Benecchi L (2009) Neuro-fuzzy system for prostate cancer diagnosis. Urology 68(2):357–361

Bouchon-Meunier B (1992) Linguistic hedges and fuzzy logic. In: Proceedings of the first IEEE international conference on fuzzy systems, San Diego, pp 247–254

Casillas J, Cordon O, Del Jesus MJ, Herrera F (2005) Genetic tuning of fuzzy rule deep structures preserving interpretability and its interaction with fuzzy rule set reduction. IEEE Trans Fuzzy Syst 13(1):13–29

Cetişli B (2010a) Development of an adaptive neuro-fuzzy classifier using linguistic hedges: part 1. Expert Syst Appl 37(8):6093– 6101

Cetişli B (2010b) The effect of linguistic hedges on feature selection: part 2. Expert Syst Appl 37(8):6102–6108

Chatterjee A, Siarry P (2007) A PSO-aided neuro-fuzzy classifier employing linguistic hedge concepts. Expert Syst Appl 33(4):1097–1109

Cheng HD, Cai X, Chen X, Hu L, Lou X (2003) Computer-aided detection and classification of microcalcifications in mammograms: a survey. Pattern Recognit 36(12):2967–2991

Dash M, Liu H (2003) Consistency-based search in feature selection. Artif Intell 151(1–2):155–176

De Cock M, Kerre EE (2004) Fuzzy modifiers based on fuzzy relations. Inf Sci 160(1–4):173–199

Gheyas IA, Smith LS (2010) Feature subset selection in large dimensionality domains. Pattern Recognit 43(1):5–13

Hastie T, Tibshirani R, Friedman JH (2001) The elements of statistical learning, 2nd edn. Springer, Berlin

Ho NC, Wechler W (1992) Extended hedge algebras and their application to fuzzy logic. Fuzzy Sets Syst 52(3):259–281

Huynh VN, Ho TB, Nakamori Y (2002) A parametric representation of linguistic hedges in Zadeh’s fuzzy logic. Int J Approx Reason 30(3):203–223

Inbarani HH, Jothi G, Azar AT (2013) Hybrid tolerance-PSO based supervised feature selection for digital mammogram images. Int J Fuzzy Syst Appl (IJFSA) 3(4):15–30

Inbarani HH, Azar AT, Jothi G (2014a) Supervised hybrid feature selection based on PSO and rough sets for medical diagnosis. Comput Methods Progr Biomed 113(1):175–185

Inbarani HH, Banu PKN, Azar AT (2014b) Feature selection using swarm-based relative reduct technique for fetal heart rate. Neural Computing and Applications. doi: 10.1007/s00521-014-1552-x (Springer)

Jang JSR (1992) Neuro-fuzzy modeling: architectures, analyses, and applications. Ph.D. dissertation, EECS Department, University of California at Berkeley

Jang JSR (1993) ANFIS: adaptive-network-based fuzzy inference system. IEEE Trans Syst Man Cybern 23(3):665–685

Jang JSR, Sun CT (1995) Neuro-fuzzy modeling and control. Proc IEEE 83(3):378–406

Jang JSR, Sun CT, Mizutani E (1997) Neuro-Fuzzy and soft computing. Prentice-Hall, Englewood Cliffs

Liu BD, Chen CY, Tsao JY (2001) Design of adaptive fuzzy logic controller based on linguistic-hedge concepts and genetic algorithms. IEEE Trans Syst Man Cybern Part B 31(1):32–53

Mangasarian OL, Street WN, Wolberg WH (1995) Breast cancer diagnosis and prognosis via linear programming. Oper Res 43(4):570–577

Mitra S, Hayashi Y (2000) Neuro-fuzzy rule generation: survey in soft computing framework. IEEE Trans Neural Netw 11(3):748–757

Mitra P, Murthy CA, Pal SK (2002) Unsupervised feature selection using feature similarity. IEEE Trans Pattern Anal Mach Intell 24(3):301–312

Moller MF (1993) A scaled conjugate gradient algorithm for fast supervised learning. Neural Netw 6(4):525–533

Nieto J, Torres A (2003) Midpoint for fuzzy sets and their application in medicine. Artif Intell Med 27(1):321–355

Novak V (1996) A horizon shifting model of linguistic hedges for approximate reasoning. In: Proceedings of the fifth IEEE international conference on fuzzy systems, pp 423–427

Oh II-S, Lee JS, Moon BR (2004) Hybrid genetic algorithms for feature selection. IEEE Trans Pattern Anal Mach Intell 26(11):1424–1437

Peng Y, Wu Z, Jiang J (2010) A novel feature selection approach for biomedical data classification. J Biomed Inform 43(1):15–23

Robnik-Sikonja M, Kononenko I (2003) Theoretical and empirical analysis of Relief and ReliefF. Mach Learn 53(1–2):23–69

Ruiz R, Riquelme JC, Aguilar-Ruiz JS, Garcia-Torres M (2012) Fast feature selection aimed at high-dimensional data via hybrid-sequential-ranked searches. Expert Syst Appl 39(12):11094–11102

Russo M, Jain L (2001) Fuzzy learning and application. Prentice-Hall, Englewood Cliffs

Saeys Y, Inza I, Larranaga P (2007) A review of feature selection techniques in bioinformatics. Bioinformatics 23(19):2507–2517

Sun CT, Jang JSR (1993) A neuro-fuzzy classifier and its applications. Proc IEEE Int Conf Fuzzy Syst San Francisco 1:94–98

Takagi T, Sugeno M (1985) Fuzzy identification of systems and its applications to modeling and control. IEEE Trans Syst Man Cybern 15(1):116–132

Verma K, Zakos J (2001) A computer-aided diagnosis system for digital mammograms based on fuzzy-neural and feature extraction techniques. IEEE Trans Inf Technol Biomed 5(1):46–54

Wolberg WH, Street WN, Mangasarian OL (1995) Image analysis and machine learning applied to breast cancer diagnosis and prognosis. Anal Quant Cytol Histol 17(2):77–87

Zadeh LA (1965) Fuzzy sets. Inform Contr 8(3):338–353

Zadeh LA (1968) Fuzzy algorithm. Inf Control 12(2):94–102

Zadeh LA (1972) A fuzzy-set—theoretic interpretation of linguistic hedges. J Cybern 2(3):4–34

Zadeh LA (1973) Outline of a new approach to the analysis of complex system and decision processes. IEEE Trans Syst Man Cybern 3(1):28–44

Zadeh LA (1983a) Commonsense knowledge representation based on fuzzy logic. IEEE Comput 16(10):61–65

Zadeh LA (1983b) Fuzzy logic. IEEE Comput 1(4):83–93