Ghanizadeh, A. R., Amlashi, A. T., Bahrami, A., Isleem, H. F., & Dessouky, S. (2024). A formulation for asphalt concrete air void during service life by adopting a hybrid evolutionary polynomial regression and multi-gene genetic programming. Scientific Reports, 14(1). https://doi.org/10.1038/s41598-024-61313-x

GHANIZADEH, Ali Reza, AMLASHI, Amir Tavana, BAHRAMI, Alireza, ISLEEM, Haytham F. und DESSOUKY, Samer, 2024. A formulation for asphalt concrete air void during service life by adopting a hybrid evolutionary polynomial regression and multi-gene genetic programming. Scientific Reports. 1 Dezember 2024. Vol. 14, no. 1, . DOI 10.1038/s41598-024-61313-x.

Ghanizadeh, A. R., A. T. Amlashi, A. Bahrami, H. F. Isleem, und S. Dessouky. „A Formulation for Asphalt Concrete Air Void During Service Life by Adopting a Hybrid Evolutionary Polynomial Regression and Multi-Gene Genetic Programming“. Scientific Reports, Bd. 14, Nr. 1, Dezember 2024, https://doi.org/10.1038/s41598-024-61313-x.

Ghanizadeh, Ali Reza/Amlashi, Amir Tavana/Bahrami, Alireza/Isleem, Haytham F./Dessouky, Samer: A formulation for asphalt concrete air void during service life by adopting a hybrid evolutionary polynomial regression and multi-gene genetic programming, Scientific Reports 2024,

Ghanizadeh, A.R., Amlashi, A.T., Bahrami, A., Isleem, H.F. und Dessouky, S. (2024), „A formulation for asphalt concrete air void during service life by adopting a hybrid evolutionary polynomial regression and multi-gene genetic programming“, Scientific Reports, Vol. 14 No. 1, verfügbar unter:https://doi.org/10.1038/s41598-024-61313-x.