Başlık: A Hybrid Computational Method Based on Convex Optimization for Outlier Problems: Application to Earthquake Ground Motion Prediction

F. Yerlikaya-Ozkurt Et Al. , "A Hybrid Computational Method Based on Convex Optimization for Outlier Problems: Application to Earthquake Ground Motion Prediction," INFORMATICA , vol.27, pp.893-910, 2016

Yerlikaya-Ozkurt, F. Et Al. 2016. A Hybrid Computational Method Based on Convex Optimization for Outlier Problems: Application to Earthquake Ground Motion Prediction. INFORMATICA , vol.27 , 893-910.

Yerlikaya-Ozkurt, F., Askan, A., & Weber, G., (2016). A Hybrid Computational Method Based on Convex Optimization for Outlier Problems: Application to Earthquake Ground Motion Prediction. INFORMATICA , vol.27, 893-910.

Yerlikaya-Ozkurt, Fatma, AYŞEGÜL ASKAN GÜNDOĞAN, And GERHARD WİLHELM WEBER. "A Hybrid Computational Method Based on Convex Optimization for Outlier Problems: Application to Earthquake Ground Motion Prediction," INFORMATICA , vol.27, 893-910, 2016

Yerlikaya-Ozkurt, Fatma Et Al. "A Hybrid Computational Method Based on Convex Optimization for Outlier Problems: Application to Earthquake Ground Motion Prediction." INFORMATICA , vol.27, pp.893-910, 2016

Yerlikaya-Ozkurt, F. Askan, A. And Weber, G. (2016) . "A Hybrid Computational Method Based on Convex Optimization for Outlier Problems: Application to Earthquake Ground Motion Prediction." INFORMATICA , vol.27, pp.893-910.

@article{article, author={Fatma Yerlikaya-Ozkurt Et Al. }, title={A Hybrid Computational Method Based on Convex Optimization for Outlier Problems: Application to Earthquake Ground Motion Prediction}, journal={INFORMATICA}, year=2016, pages={893-910} }

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