Biological Pattern Discovery with R Machine Learning Approaches (Zheng Rong Yang)

C. (1981). Pattern Recognition with Fuzzy Objective Function Algorithms

enum, New York).

, Jolles, B. M. and Porcher, R. (2010). P value and the theory of hypothesis

ing: an explanation for new researchers, Clinical Orthopaedics and Related

earch, 468, pp. 885–892.

Bigiani, S. and Bigiani, A. (2020). How to minimize the impact of pandemic

nts: lessons from the COVID-19 crisis, International Journal of Health Policy

d Management, pp. 1–6.

, Wei, H. and Balikhin, M. A. (2007). Generalised multiscale radial basis

ction networks, Neural Networks, 20, pp. 1081–1094.

Ekart, A., Buckingham, C. D. and Faria, D. R. (2019). Evolutionary optimisation

fully connected artificial neural network topology, Intelligent Computing —

ceedings of the Computing Conference, pp. 751–762.

M. (1996). Neural Networks for Pattern Recognition. (Oxford University Press,

A).

M. (2006). Pattern Recognition and Machine Learning. (Springer-Verlag, New

rk).

B. E. (1986). A measure of the similarity of sets of sequences not requiring

uence alignment, Proceedings of the National Academy of Sciences of the

ited States of America, 83, pp. 5155–5159.

B. E. (1991). Average values of a dissimilarity measure not requiring sequence

nment are twice the averages of conventional mismatch counts requiring

uence alignment for a computer-generated model system. Journal of Molecular

olution, 29, pp. 538–547.

. and Altman, D. G (1986). Statistical method for assessing agreement between

methods of clinical measurement, The Lancet, 1, pp. 307–310.

. and Altman, D. G (1999). Measuring agreement in method comparison studies,

tistical Methods in Medical Research, 8, pp. 135–160.

1995). An Introduction to Medical Statistics, (Oxford University Press).

R. and Kals, H. J. J. (1989). Fixture design with FIXES: the automatic selection

positioning, clamping and support features for prismatic parts, CIRP Annals, 39,

399–402.

A. (2019). Selection of models: evolution and the choice of species for

nslational research, Brain, Behavior and Evolution, 93, pp. 82–91.

P. and Tiao, G. C. (1973). Bayesian Inference in Statistical Analysis, (John

ey and Sons, New York).

Sievers, F. and Higgins, D. G. (2014). Simple chained guide trees give high-

lity protein multiple sequence alignments, Proceedings of the National

ademy of Sciences of the United States of America, 111, pp.10556–10561.

and Kovalchuk, I. (2011). Genetic and epigenetic effects of plant-pathogen

ractions: an evolutionary perspective. Molecular Plant Pathology, 4, pp. 1014–