M. F. AKAY Et Al. , "Artificial Neural Network-based Models for Predicting Maximum Oxygen Uptake from Submaximal Data," Second International Symposium on Engineering, Artificial Intelligence & Applications (ISEAIA2014), , Girne, Cyprus (Kktc), pp.1, 2014
AKAY, M. F. Et Al. 2014. Artificial Neural Network-based Models for Predicting Maximum Oxygen Uptake from Submaximal Data. Second International Symposium on Engineering, Artificial Intelligence & Applications (ISEAIA2014), , (Girne, Cyprus (Kktc)), 1.
AKAY, M. F., Özsert, g., & George, J., (2014). Artificial Neural Network-based Models for Predicting Maximum Oxygen Uptake from Submaximal Data . Second International Symposium on Engineering, Artificial Intelligence & Applications (ISEAIA2014), (pp.1). Girne, Cyprus (Kktc)
AKAY, MEHMET, gözde Özsert, And James George. "Artificial Neural Network-based Models for Predicting Maximum Oxygen Uptake from Submaximal Data," Second International Symposium on Engineering, Artificial Intelligence & Applications (ISEAIA2014),, Girne, Cyprus (Kktc), 2014
AKAY, MEHMET F. Et Al. "Artificial Neural Network-based Models for Predicting Maximum Oxygen Uptake from Submaximal Data." Second International Symposium on Engineering, Artificial Intelligence & Applications (ISEAIA2014), , Girne, Cyprus (Kktc), pp.1, 2014
AKAY, M. F. Özsert, g. And George, J. (2014) . "Artificial Neural Network-based Models for Predicting Maximum Oxygen Uptake from Submaximal Data." Second International Symposium on Engineering, Artificial Intelligence & Applications (ISEAIA2014), , Girne, Cyprus (Kktc), p.1.
@conferencepaper{conferencepaper, author={MEHMET FATİH AKAY Et Al. }, title={Artificial Neural Network-based Models for Predicting Maximum Oxygen Uptake from Submaximal Data}, congress name={Second International Symposium on Engineering, Artificial Intelligence & Applications (ISEAIA2014),}, city={Girne}, country={Cyprus (Kktc)}, year={2014}, pages={1} }