Mustafa, S. M., Wu, L., Noels, L., Segurado Javier, & A&M - Aérospatiale et Mécanique - ULiège. (2024, Mai 31). Multi-scale Modelling using Recurrent Neural Network for Mesoscale Surrogation to Achieve Acceleration in Simulation of Rate-Dependent Dissipative Lattice Based and Cellular Meta-Materials. Gehalten auf der. Abgerufen von https://orbi.uliege.be/handle/2268/320429

MUSTAFA, Syed Mohib, WU, Ling, NOELS, Ludovic, SEGURADO JAVIER und A&M - AÉROSPATIALE ET MÉCANIQUE - ULIÈGE, 2024. Multi-scale Modelling using Recurrent Neural Network for Mesoscale Surrogation to Achieve Acceleration in Simulation of Rate-Dependent Dissipative Lattice Based and Cellular Meta-Materials. In: [online]. 31 Mai 2024. Available from: https://orbi.uliege.be/handle/2268/320429

Mustafa, S. M., L. Wu, L. Noels, Segurado Javier, und A&M - Aérospatiale et Mécanique - ULiège. Multi-scale Modelling using Recurrent Neural Network for Mesoscale Surrogation to Achieve Acceleration in Simulation of Rate-Dependent Dissipative Lattice Based and Cellular Meta-Materials. 2024, https://orbi.uliege.be/handle/2268/320429.

Mustafa, S.M., Wu, L., Noels, L., Segurado Javier und A&M - Aérospatiale et Mécanique - ULiège. (2024), „Multi-scale Modelling using Recurrent Neural Network for Mesoscale Surrogation to Achieve Acceleration in Simulation of Rate-Dependent Dissipative Lattice Based and Cellular Meta-Materials“, in , Bd. , verfügbar unter: https://orbi.uliege.be/handle/2268/320429.